---
OA_place: repository
OA_type: gold
_id: '19294'
abstract:
- lang: eng
  text: Active regulation of gene expression, orchestrated by complex interactions
    of activators and repressors at promoters, controls the fate of organisms. In
    contrast, basal expression at uninduced promoters is considered to be a dynamically
    inert mode of non-functional “promoter leakiness”, merely a byproduct of transcriptional
    regulation. Here, we investigate the basal expression mode of the mar operon,
    the main regulator of intrinsic multiple antibiotic resistance in Escherichia
    coli, and link its dynamic properties to the non-canonical, yet highly conserved
    start codon of marR across Enterobacteriaceae. Real-time, single-cell measurements
    across tens of generations reveal that basal expression consists of rare stochastic
    gene expression pulses, which maximize variability in wildtype and, surprisingly,
    transiently accelerate cellular elongation rates. Competition experiments show
    that basal expression confers fitness advantages to wildtype across several transitions
    between exponential and stationary growth by shortening lag times. The dynamically
    rich basal expression of the mar operon has likely been evolutionarily maintained
    for its role in growth homeostasis of Enterobacteria within the gut environment,
    thereby allowing other ancillary gene regulatory roles to evolve, e.g. control
    of costly-to-induce multi-drug efflux pumps. Understanding the complex selection
    forces governing genetic systems involved in intrinsic multi-drug resistance is
    crucial for effective public health measures.
article_processing_charge: No
author:
- first_name: Kirti
  full_name: Jain, Kirti
  id: 330F0278-F248-11E8-B48F-1D18A9856A87
  last_name: Jain
  orcid: 0000-0002-3809-0449
- first_name: Robert
  full_name: Hauschild, Robert
  id: 4E01D6B4-F248-11E8-B48F-1D18A9856A87
  last_name: Hauschild
  orcid: 0000-0001-9843-3522
- first_name: Olga
  full_name: Bochkareva, Olga
  id: C4558D3C-6102-11E9-A62E-F418E6697425
  last_name: Bochkareva
  orcid: 0000-0003-1006-6639
- first_name: Roderich
  full_name: Römhild, Roderich
  id: 68E56E44-62B0-11EA-B963-444F3DDC885E
  last_name: Römhild
  orcid: 0000-0001-9480-5261
- first_name: Gašper
  full_name: Tkačik, Gašper
  id: 3D494DCA-F248-11E8-B48F-1D18A9856A87
  last_name: Tkačik
  orcid: 0000-0002-6699-1455
- first_name: Calin C
  full_name: Guet, Calin C
  id: 47F8433E-F248-11E8-B48F-1D18A9856A87
  last_name: Guet
  orcid: 0000-0001-6220-2052
citation:
  ama: Jain K, Hauschild R, Bochkareva O, Römhild R, Tkačik G, Guet CC. Data for “Pulsatile
    basal gene expression as a fitness determinant in bacteria.” 2025. doi:<a href="https://doi.org/10.15479/AT:ISTA:19294">10.15479/AT:ISTA:19294</a>
  apa: Jain, K., Hauschild, R., Bochkareva, O., Römhild, R., Tkačik, G., &#38; Guet,
    C. C. (2025). Data for “Pulsatile basal gene expression as a fitness determinant
    in bacteria.” Institute of Science and Technology Austria. <a href="https://doi.org/10.15479/AT:ISTA:19294">https://doi.org/10.15479/AT:ISTA:19294</a>
  chicago: Jain, Kirti, Robert Hauschild, Olga Bochkareva, Roderich Römhild, Gašper
    Tkačik, and Calin C Guet. “Data for ‘Pulsatile Basal Gene Expression as a Fitness
    Determinant in Bacteria.’” Institute of Science and Technology Austria, 2025.
    <a href="https://doi.org/10.15479/AT:ISTA:19294">https://doi.org/10.15479/AT:ISTA:19294</a>.
  ieee: K. Jain, R. Hauschild, O. Bochkareva, R. Römhild, G. Tkačik, and C. C. Guet,
    “Data for ‘Pulsatile basal gene expression as a fitness determinant in bacteria.’”
    Institute of Science and Technology Austria, 2025.
  ista: Jain K, Hauschild R, Bochkareva O, Römhild R, Tkačik G, Guet CC. 2025. Data
    for ‘Pulsatile basal gene expression as a fitness determinant in bacteria’, Institute
    of Science and Technology Austria, <a href="https://doi.org/10.15479/AT:ISTA:19294">10.15479/AT:ISTA:19294</a>.
  mla: Jain, Kirti, et al. <i>Data for “Pulsatile Basal Gene Expression as a Fitness
    Determinant in Bacteria.”</i> Institute of Science and Technology Austria, 2025,
    doi:<a href="https://doi.org/10.15479/AT:ISTA:19294">10.15479/AT:ISTA:19294</a>.
  short: K. Jain, R. Hauschild, O. Bochkareva, R. Römhild, G. Tkačik, C.C. Guet, (2025).
corr_author: '1'
date_created: 2025-03-04T13:27:21Z
date_published: 2025-03-04T00:00:00Z
date_updated: 2026-04-28T13:35:45Z
day: '04'
ddc:
- '570'
department:
- _id: CaGu
- _id: Bio
- _id: FyKo
- _id: GaTk
doi: 10.15479/AT:ISTA:19294
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has_accepted_license: '1'
month: '03'
oa: 1
oa_version: Published Version
publisher: Institute of Science and Technology Austria
related_material:
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  - id: '19626'
    relation: used_in_publication
    status: public
status: public
title: Data for "Pulsatile basal gene expression as a fitness determinant in bacteria"
tmp:
  image: /images/cc_by.png
  legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
  name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
  short: CC BY (4.0)
type: research_data
user_id: 2DF688A6-F248-11E8-B48F-1D18A9856A87
year: '2025'
...
---
OA_place: publisher
OA_type: hybrid
_id: '19278'
abstract:
- lang: eng
  text: 'When two insulating, neutral materials are contacted and separated, they
    exchange electrical charge1. Experiments have long suggested that this ‘contact
    electrification’ is transitive, with different materials ordering into ‘triboelectric
    series’ based on the sign of charge acquired2. At the same time, the effect is
    plagued by unpredictability, preventing consensus on the mechanism and casting
    doubt on the rhyme and reason that series imply3. Here we expose an unanticipated
    connection between the unpredictability and order in contact electrification:
    nominally identical materials initially exchange charge randomly and intransitively,
    but—over repeated experiments—order into triboelectric series. We find that this
    evolution is driven by the act of contact itself—samples with more contacts in
    their history charge negatively to ones with fewer contacts. Capturing this ‘contact
    bias’ in a minimal model, we recreate both the initial randomness and ultimate
    order in numerical simulations and use it experimentally to force the appearance
    of a triboelectric series of our choosing. With a set of surface-sensitive techniques
    to search for the underlying alterations contact creates, we only find evidence
    of nanoscale morphological changes, pointing to a mechanism strongly coupled with
    mechanics. Our results highlight the centrality of contact history in contact
    electrification and suggest that focusing on the unpredictability that has long
    plagued the effect may hold the key to understanding it.'
acknowledged_ssus:
- _id: M-Shop
- _id: NanoFab
- _id: ScienComp
- _id: EM-Fac
- _id: LifeSc
acknowledgement: This project has received financing from the European Research Council
  grant agreement no. 949120 under the European Union’s Horizon 2020 research and
  innovation programme. The Analytical Instrumentation Center of the TU Wien acknowledges
  support by the FFG project ‘ELSA’ under grant no. 884672. C.M.P. and M.O. acknowledge
  the state of Lower Austria and the European Regional Development Fund under grant
  no. WST3-F-542638/004-2021. This research was supported by the Scientific Service
  Units of the Institute of Science and Technology Austria through resources provided
  by the Miba Machine Shop, Nanofabrication Facility, Scientific Computing facility,
  Electron Microscopy Facility and Lab Support Facility. We thank J. Garcia-Suarez
  and G. Anciaux for the suggestion to look into the roughness power spectral density.
  We thank I.-M. Strugaru for help with testing the device for Young’s modulus measurements.
  Open access funding provided by Institute of Science and Technology (IST Austria).
article_number: 664-669
article_processing_charge: Yes (via OA deal)
article_type: original
author:
- first_name: Juan Carlos A
  full_name: Sobarzo Ponce, Juan Carlos A
  id: 4B807D68-AE37-11E9-AC72-31CAE5697425
  last_name: Sobarzo Ponce
- first_name: Felix
  full_name: Pertl, Felix
  id: 6313aec0-15b2-11ec-abd3-ed67d16139af
  last_name: Pertl
  orcid: 0000-0003-0463-5794
- first_name: Daniel
  full_name: Balazs, Daniel
  id: 302BADF6-85FC-11EA-9E3B-B9493DDC885E
  last_name: Balazs
  orcid: 0000-0001-7597-043X
- first_name: Tommaso
  full_name: Costanzo, Tommaso
  id: D93824F4-D9BA-11E9-BB12-F207E6697425
  last_name: Costanzo
  orcid: 0000-0001-9732-3815
- first_name: Markus
  full_name: Sauer, Markus
  last_name: Sauer
- first_name: Annette
  full_name: Foelske, Annette
  last_name: Foelske
- first_name: Markus
  full_name: Ostermann, Markus
  last_name: Ostermann
- first_name: Christian M.
  full_name: Pichler, Christian M.
  last_name: Pichler
- first_name: Yongkang
  full_name: Wang, Yongkang
  last_name: Wang
- first_name: Yuki
  full_name: Nagata, Yuki
  last_name: Nagata
- first_name: Mischa
  full_name: Bonn, Mischa
  last_name: Bonn
- first_name: Scott R
  full_name: Waitukaitis, Scott R
  id: 3A1FFC16-F248-11E8-B48F-1D18A9856A87
  last_name: Waitukaitis
  orcid: 0000-0002-2299-3176
citation:
  ama: Sobarzo Ponce JCA, Pertl F, Balazs D, et al. Spontaneous ordering of identical
    materials into a triboelectric series. <i>Nature</i>. 2025;638(8051). doi:<a href="https://doi.org/10.1038/s41586-024-08530-6">10.1038/s41586-024-08530-6</a>
  apa: Sobarzo Ponce, J. C. A., Pertl, F., Balazs, D., Costanzo, T., Sauer, M., Foelske,
    A., … Waitukaitis, S. R. (2025). Spontaneous ordering of identical materials into
    a triboelectric series. <i>Nature</i>. Springer Nature. <a href="https://doi.org/10.1038/s41586-024-08530-6">https://doi.org/10.1038/s41586-024-08530-6</a>
  chicago: Sobarzo Ponce, Juan Carlos A, Felix Pertl, Daniel Balazs, Tommaso Costanzo,
    Markus Sauer, Annette Foelske, Markus Ostermann, et al. “Spontaneous Ordering
    of Identical Materials into a Triboelectric Series.” <i>Nature</i>. Springer Nature,
    2025. <a href="https://doi.org/10.1038/s41586-024-08530-6">https://doi.org/10.1038/s41586-024-08530-6</a>.
  ieee: J. C. A. Sobarzo Ponce <i>et al.</i>, “Spontaneous ordering of identical materials
    into a triboelectric series,” <i>Nature</i>, vol. 638, no. 8051. Springer Nature,
    2025.
  ista: Sobarzo Ponce JCA, Pertl F, Balazs D, Costanzo T, Sauer M, Foelske A, Ostermann
    M, Pichler CM, Wang Y, Nagata Y, Bonn M, Waitukaitis SR. 2025. Spontaneous ordering
    of identical materials into a triboelectric series. Nature. 638(8051), 664–669.
  mla: Sobarzo Ponce, Juan Carlos A., et al. “Spontaneous Ordering of Identical Materials
    into a Triboelectric Series.” <i>Nature</i>, vol. 638, no. 8051, 664–669, Springer
    Nature, 2025, doi:<a href="https://doi.org/10.1038/s41586-024-08530-6">10.1038/s41586-024-08530-6</a>.
  short: J.C.A. Sobarzo Ponce, F. Pertl, D. Balazs, T. Costanzo, M. Sauer, A. Foelske,
    M. Ostermann, C.M. Pichler, Y. Wang, Y. Nagata, M. Bonn, S.R. Waitukaitis, Nature
    638 (2025).
corr_author: '1'
date_created: 2025-03-02T23:01:52Z
date_published: 2025-02-20T00:00:00Z
date_updated: 2026-04-28T13:44:56Z
day: '20'
ddc:
- '530'
department:
- _id: ScWa
- _id: LifeSc
- _id: EM-Fac
doi: 10.1038/s41586-024-08530-6
ec_funded: 1
external_id:
  isi:
  - '001428076100015'
  pmid:
  - '39972227'
file:
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  date_created: 2025-03-04T10:05:18Z
  date_updated: 2025-03-04T10:05:18Z
  file_id: '19289'
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file_date_updated: 2025-03-04T10:05:18Z
has_accepted_license: '1'
intvolume: '       638'
isi: 1
issue: '8051'
language:
- iso: eng
month: '02'
oa: 1
oa_version: Published Version
pmid: 1
project:
- _id: 0aa60e99-070f-11eb-9043-a6de6bdc3afa
  call_identifier: H2020
  grant_number: '949120'
  name: 'Tribocharge: a multi-scale approach to an enduring problem in physics'
publication: Nature
publication_identifier:
  eissn:
  - 1476-4687
  issn:
  - 0028-0836
publication_status: published
publisher: Springer Nature
quality_controlled: '1'
related_material:
  link:
  - description: News on ISTA website
    relation: press_release
    url: https://ista.ac.at/en/news/an-electrifying-turn-in-an-age-old-quest/
  record:
  - id: '20203'
    relation: dissertation_contains
    status: public
scopus_import: '1'
status: public
title: Spontaneous ordering of identical materials into a triboelectric series
tmp:
  image: /images/cc_by.png
  legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
  name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
  short: CC BY (4.0)
type: journal_article
user_id: ba8df636-2132-11f1-aed0-ed93e2281fdd
volume: 638
year: '2025'
...
---
OA_place: publisher
OA_type: hybrid
_id: '18807'
abstract:
- lang: eng
  text: Developing tissues interpret dynamic changes in morphogen activity to generate
    cell type diversity. To quantitatively study bone morphogenetic protein (BMP)
    signaling dynamics in the mouse neural tube, we developed an embryonic stem cell
    differentiation system tailored for growing tissues. Differentiating cells form
    striking self-organized patterns of dorsal neural tube cell types driven by sequential
    phases of BMP signaling that are observed both in vitro and in vivo. Data-driven
    biophysical modeling showed that these dynamics result from coupling fast negative
    feedback with slow positive regulation of signaling by the specification of an
    endogenous BMP source. Thus, in contrast to relays that propagate morphogen signaling
    in space, we identify a BMP signaling relay that operates in time. This mechanism
    allows for a rapid initial concentration-sensitive response that is robustly terminated,
    thereby regulating balanced sequential cell type generation. Our study provides
    an experimental and theoretical framework to understand how signaling dynamics
    are exploited in developing tissues.
acknowledgement: We thank A. Miller and N. Papalopulu for reagents and J. Briscoe
  for comments on the manuscript. Work in the A.K. lab is supported by ISTA; the European
  Research Council under Horizon Europe, grant 101044579; and the Austrian Science
  Fund (FWF), grant https://doi.org/10.55776/F78. S.L. is supported by Gesellschaft
  für Forschungsförderung Niederösterreich m.b.H. fellowship SC19-011. D.B.B. was
  supported by the NOMIS foundation as a NOMIS Fellow and by an EMBO Postdoctoral
  Fellowship (ALTF 343-2022).
article_processing_charge: Yes (via OA deal)
article_type: original
author:
- first_name: Stefanie
  full_name: Rus, Stefanie
  id: 4D9EC9B6-F248-11E8-B48F-1D18A9856A87
  last_name: Rus
  orcid: 0000-0001-8703-1093
- first_name: David
  full_name: Brückner, David
  id: e1e86031-6537-11eb-953a-f7ab92be508d
  last_name: Brückner
  orcid: 0000-0001-7205-2975
- first_name: Thomas
  full_name: Minchington, Thomas
  id: 7d1648cb-19e9-11eb-8e7a-f8c037fb3e3f
  last_name: Minchington
- first_name: Martina
  full_name: Greunz, Martina
  id: 48A59534-F248-11E8-B48F-1D18A9856A87
  last_name: Greunz
- first_name: Jack
  full_name: Merrin, Jack
  id: 4515C308-F248-11E8-B48F-1D18A9856A87
  last_name: Merrin
  orcid: 0000-0001-5145-4609
- first_name: Edouard B
  full_name: Hannezo, Edouard B
  id: 3A9DB764-F248-11E8-B48F-1D18A9856A87
  last_name: Hannezo
  orcid: 0000-0001-6005-1561
- first_name: Anna
  full_name: Kicheva, Anna
  id: 3959A2A0-F248-11E8-B48F-1D18A9856A87
  last_name: Kicheva
  orcid: 0000-0003-4509-4998
citation:
  ama: Rus S, Brückner D, Minchington T, et al. Self-organized pattern formation in
    the developing mouse neural tube by a temporal relay of BMP signaling. <i>Developmental
    Cell</i>. 2025;60(4):567-580. doi:<a href="https://doi.org/10.1016/j.devcel.2024.10.024">10.1016/j.devcel.2024.10.024</a>
  apa: Rus, S., Brückner, D., Minchington, T., Greunz, M., Merrin, J., Hannezo, E.
    B., &#38; Kicheva, A. (2025). Self-organized pattern formation in the developing
    mouse neural tube by a temporal relay of BMP signaling. <i>Developmental Cell</i>.
    Elsevier. <a href="https://doi.org/10.1016/j.devcel.2024.10.024">https://doi.org/10.1016/j.devcel.2024.10.024</a>
  chicago: Rus, Stefanie, David Brückner, Thomas Minchington, Martina Greunz, Jack
    Merrin, Edouard B Hannezo, and Anna Kicheva. “Self-Organized Pattern Formation
    in the Developing Mouse Neural Tube by a Temporal Relay of BMP Signaling.” <i>Developmental
    Cell</i>. Elsevier, 2025. <a href="https://doi.org/10.1016/j.devcel.2024.10.024">https://doi.org/10.1016/j.devcel.2024.10.024</a>.
  ieee: S. Rus <i>et al.</i>, “Self-organized pattern formation in the developing
    mouse neural tube by a temporal relay of BMP signaling,” <i>Developmental Cell</i>,
    vol. 60, no. 4. Elsevier, pp. 567–580, 2025.
  ista: Rus S, Brückner D, Minchington T, Greunz M, Merrin J, Hannezo EB, Kicheva
    A. 2025. Self-organized pattern formation in the developing mouse neural tube
    by a temporal relay of BMP signaling. Developmental Cell. 60(4), 567–580.
  mla: Rus, Stefanie, et al. “Self-Organized Pattern Formation in the Developing Mouse
    Neural Tube by a Temporal Relay of BMP Signaling.” <i>Developmental Cell</i>,
    vol. 60, no. 4, Elsevier, 2025, pp. 567–80, doi:<a href="https://doi.org/10.1016/j.devcel.2024.10.024">10.1016/j.devcel.2024.10.024</a>.
  short: S. Rus, D. Brückner, T. Minchington, M. Greunz, J. Merrin, E.B. Hannezo,
    A. Kicheva, Developmental Cell 60 (2025) 567–580.
corr_author: '1'
date_created: 2025-01-09T11:25:47Z
date_published: 2025-02-24T00:00:00Z
date_updated: 2026-05-13T22:31:09Z
day: '24'
ddc:
- '570'
department:
- _id: AnKi
- _id: EdHa
- _id: NanoFab
doi: 10.1016/j.devcel.2024.10.024
external_id:
  isi:
  - '001434279000001'
  pmid:
  - '39603235'
file:
- access_level: open_access
  checksum: bb58db4a908a1f4aabe4004706154541
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  creator: dernst
  date_created: 2025-04-16T10:54:07Z
  date_updated: 2025-04-16T10:54:07Z
  file_id: '19584'
  file_name: 2025_DevelopmentalCell_Lehr.pdf
  file_size: 6994499
  relation: main_file
  success: 1
file_date_updated: 2025-04-16T10:54:07Z
has_accepted_license: '1'
intvolume: '        60'
isi: 1
issue: '4'
language:
- iso: eng
month: '02'
oa: 1
oa_version: Published Version
page: 567-580
pmid: 1
project:
- _id: bd7e737f-d553-11ed-ba76-d69ffb5ee3aa
  grant_number: '101044579'
  name: Mechanisms of tissue size regulation in spinal cord development
- _id: 059DF620-7A3F-11EA-A408-12923DDC885E
  grant_number: F7802
  name: Stem Cell Modulation in Neural Development and Regeneration/ P02-Morphogen
    control of growth and pattern in the spinal cord
- _id: 9B9B39FA-BA93-11EA-9121-9846C619BF3A
  grant_number: SC19-011
  name: The regulatory logic of pattern formation in the vertebrate dorsal neural
    tube
publication: Developmental Cell
publication_identifier:
  issn:
  - 1534-5807
publication_status: published
publisher: Elsevier
quality_controlled: '1'
related_material:
  record:
  - id: '19763'
    relation: dissertation_contains
    status: public
scopus_import: '1'
status: public
title: Self-organized pattern formation in the developing mouse neural tube by a temporal
  relay of BMP signaling
tmp:
  image: /images/cc_by.png
  legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
  name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
  short: CC BY (4.0)
type: journal_article
user_id: 2DF688A6-F248-11E8-B48F-1D18A9856A87
volume: 60
year: '2025'
...
---
DOAJ_listed: '1'
OA_place: publisher
OA_type: gold
_id: '17885'
abstract:
- lang: eng
  text: 'The formation of new ribosomes is tightly coordinated with cell growth and
    proliferation. In eukaryotes, the correct assembly of all ribosomal proteins and
    RNAs follows an intricate scheme of maturation and rearrangement steps across
    three cellular compartments: the nucleolus, nucleoplasm, and cytoplasm. We demonstrate
    that usnic acid, a lichen secondary metabolite, inhibits the maturation of the
    large ribosomal subunit in yeast. We combine biochemical characterization of pre-ribosomal
    particles with a quantitative single-particle cryo-EM approach to monitor changes
    in nucleolar particle populations upon drug treatment. Usnic acid rapidly blocks
    the transition from nucleolar state B to C of Nsa1-associated pre-ribosomes, depleting
    key maturation factors such as Dbp10 and hindering pre-rRNA processing. This primary
    nucleolar block rapidly rebounds on earlier stages of the pathway which highlights
    the regulatory linkages between different steps. In summary, we provide an in-depth
    characterization of the effect of usnic acid on ribosome biogenesis, which may
    have implications for its reported anti-cancer activities.'
acknowledged_ssus:
- _id: EM-Fac
acknowledgement: We thank Michael A. McAlear, Micheline Fromont-Racin, Philipp Milkereit,
  Arlen W. Johnson, Sabine Rospert, Ed Hurt, C. Yam, Günter Daum, Wolfgang Zachariae,
  Katrin Karbstein, Juan P. G. Ballesta, Mercedes Dosil, Miguel Remacha und Jesus
  de la Cruz for sharing strains or providing antibodies. We thank the members of
  the Bergler lab and the Haselbach lab for their helpful discussion. We thank Ellen
  Zhong for helpful discussions about the quantitative cryoDRGN analysis. This research
  was supported by the Scientific Service Units of IST Austria through resources provided
  by the Electron Microscopy Facility. This research was funded in whole, or in part,
  by the Austrian Science Foundation grants [https://doi.org/10.55776/P32977], [https://doi.org/10.55776/P29451]
  and [https://doi.org/10.55776/P32536] (to H.B.). Research at the IMP is generously
  supported by Boehringer Ingelheim and the Austrian Research Promotion Agency (Headquarter
  grant FFG-852936). For the purpose of open access, the author has applied a CC BY
  public copyright licence to any Author Accepted Manuscript version arising from
  this submission.
article_number: '7511'
article_processing_charge: Yes
article_type: original
author:
- first_name: Lisa
  full_name: Kofler, Lisa
  last_name: Kofler
- first_name: Lorenz
  full_name: Grundmann, Lorenz
  last_name: Grundmann
- first_name: Magdalena
  full_name: Gerhalter, Magdalena
  last_name: Gerhalter
- first_name: Michael
  full_name: Prattes, Michael
  last_name: Prattes
- first_name: Juliane
  full_name: Merl-Pham, Juliane
  last_name: Merl-Pham
- first_name: Gertrude
  full_name: Zisser, Gertrude
  last_name: Zisser
- first_name: Irina
  full_name: Grishkovskaya, Irina
  last_name: Grishkovskaya
- first_name: Victor-Valentin
  full_name: Hodirnau, Victor-Valentin
  id: 3661B498-F248-11E8-B48F-1D18A9856A87
  last_name: Hodirnau
  orcid: 0000-0003-3904-947X
- first_name: Martin
  full_name: Vareka, Martin
  last_name: Vareka
- first_name: Rolf
  full_name: Breinbauer, Rolf
  last_name: Breinbauer
- first_name: Stefanie M.
  full_name: Hauck, Stefanie M.
  last_name: Hauck
- first_name: David
  full_name: Haselbach, David
  last_name: Haselbach
- first_name: Helmut
  full_name: Bergler, Helmut
  last_name: Bergler
citation:
  ama: Kofler L, Grundmann L, Gerhalter M, et al. The novel ribosome biogenesis inhibitor
    usnic acid blocks nucleolar pre-60S maturation. <i>Nature Communications</i>.
    2024;15. doi:<a href="https://doi.org/10.1038/s41467-024-51754-3">10.1038/s41467-024-51754-3</a>
  apa: Kofler, L., Grundmann, L., Gerhalter, M., Prattes, M., Merl-Pham, J., Zisser,
    G., … Bergler, H. (2024). The novel ribosome biogenesis inhibitor usnic acid blocks
    nucleolar pre-60S maturation. <i>Nature Communications</i>. Springer Nature. <a
    href="https://doi.org/10.1038/s41467-024-51754-3">https://doi.org/10.1038/s41467-024-51754-3</a>
  chicago: Kofler, Lisa, Lorenz Grundmann, Magdalena Gerhalter, Michael Prattes, Juliane
    Merl-Pham, Gertrude Zisser, Irina Grishkovskaya, et al. “The Novel Ribosome Biogenesis
    Inhibitor Usnic Acid Blocks Nucleolar Pre-60S Maturation.” <i>Nature Communications</i>.
    Springer Nature, 2024. <a href="https://doi.org/10.1038/s41467-024-51754-3">https://doi.org/10.1038/s41467-024-51754-3</a>.
  ieee: L. Kofler <i>et al.</i>, “The novel ribosome biogenesis inhibitor usnic acid
    blocks nucleolar pre-60S maturation,” <i>Nature Communications</i>, vol. 15. Springer
    Nature, 2024.
  ista: Kofler L, Grundmann L, Gerhalter M, Prattes M, Merl-Pham J, Zisser G, Grishkovskaya
    I, Hodirnau V-V, Vareka M, Breinbauer R, Hauck SM, Haselbach D, Bergler H. 2024.
    The novel ribosome biogenesis inhibitor usnic acid blocks nucleolar pre-60S maturation.
    Nature Communications. 15, 7511.
  mla: Kofler, Lisa, et al. “The Novel Ribosome Biogenesis Inhibitor Usnic Acid Blocks
    Nucleolar Pre-60S Maturation.” <i>Nature Communications</i>, vol. 15, 7511, Springer
    Nature, 2024, doi:<a href="https://doi.org/10.1038/s41467-024-51754-3">10.1038/s41467-024-51754-3</a>.
  short: L. Kofler, L. Grundmann, M. Gerhalter, M. Prattes, J. Merl-Pham, G. Zisser,
    I. Grishkovskaya, V.-V. Hodirnau, M. Vareka, R. Breinbauer, S.M. Hauck, D. Haselbach,
    H. Bergler, Nature Communications 15 (2024).
date_created: 2024-09-08T22:01:10Z
date_published: 2024-08-29T00:00:00Z
date_updated: 2025-09-08T09:13:01Z
day: '29'
ddc:
- '570'
department:
- _id: EM-Fac
doi: 10.1038/s41467-024-51754-3
external_id:
  isi:
  - '001457895200001'
  pmid:
  - '39209816'
file:
- access_level: open_access
  checksum: 7c044538a47182c826d1b526c52958a2
  content_type: application/pdf
  creator: dernst
  date_created: 2024-09-09T08:56:12Z
  date_updated: 2024-09-09T08:56:12Z
  file_id: '17946'
  file_name: 2024_NatureComm_Kofler.pdf
  file_size: 3735024
  relation: main_file
  success: 1
file_date_updated: 2024-09-09T08:56:12Z
has_accepted_license: '1'
intvolume: '        15'
isi: 1
language:
- iso: eng
month: '08'
oa: 1
oa_version: Published Version
pmid: 1
publication: Nature Communications
publication_identifier:
  eissn:
  - 2041-1723
publication_status: published
publisher: Springer Nature
quality_controlled: '1'
scopus_import: '1'
status: public
title: The novel ribosome biogenesis inhibitor usnic acid blocks nucleolar pre-60S
  maturation
tmp:
  image: /images/cc_by.png
  legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
  name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
  short: CC BY (4.0)
type: journal_article
user_id: 317138e5-6ab7-11ef-aa6d-ffef3953e345
volume: 15
year: '2024'
...
---
_id: '18052'
abstract:
- lang: eng
  text: Sodium dodecyl sulfate-digested freeze-fracture replica labeling (SDS-FRL)
    is an electron microscope (EM) sample preparation technique which allows for high-resolution
    visualization of membrane proteins with high sensitivity. However, image acquisition
    of specific replica profiles such as synapses in a large field of EM view needs
    a valid experience and a long time for manual searching. Here, we describe how
    to utilize deep learning for automatizing image acquisition of specific profiles
    of interest in replica samples. This protocol facilitates the labor-intensive
    collection of EM images, in particular for rare profiles. We provide instructions
    for using SerialEM image acquisition software in conjunction with object detection
    by our newly developed deep learning software DarEM, to automatically acquire
    tilt series of all synapses in a selected region. We then show how to perform
    a mostly automated analysis of gold particle labeling in the acquired images by
    utilizing Darea software.
acknowledged_ssus:
- _id: EM-Fac
acknowledgement: This research was supported by the European Research Council Advanced
  Grant 694539 to RS and by the Scientific Service Units of IST Austria through resources
  provided by the Electron Microscopy Facility.
alternative_title:
- Neuromethods
article_processing_charge: No
author:
- first_name: David
  full_name: Kleindienst, David
  id: 42E121A4-F248-11E8-B48F-1D18A9856A87
  last_name: Kleindienst
- first_name: Tommaso
  full_name: Costanzo, Tommaso
  id: D93824F4-D9BA-11E9-BB12-F207E6697425
  last_name: Costanzo
  orcid: 0000-0001-9732-3815
- first_name: Ryuichi
  full_name: Shigemoto, Ryuichi
  id: 499F3ABC-F248-11E8-B48F-1D18A9856A87
  last_name: Shigemoto
  orcid: 0000-0001-8761-9444
citation:
  ama: 'Kleindienst D, Costanzo T, Shigemoto R. Automated Imaging and Analysis of
    Synapses in Freeze-Fracture Replica Samples with Deep Learning. In: Lübke JHR,
    Rollenhagen A, eds. <i>New Aspects in Analyzing the Synaptic Organization of the
    Brain</i>. 1st ed. New York: Springer Nature; 2024:123-137. doi:<a href="https://doi.org/10.1007/978-1-0716-4019-7_8">10.1007/978-1-0716-4019-7_8</a>'
  apa: 'Kleindienst, D., Costanzo, T., &#38; Shigemoto, R. (2024). Automated Imaging
    and Analysis of Synapses in Freeze-Fracture Replica Samples with Deep Learning.
    In J. H. R. Lübke &#38; A. Rollenhagen (Eds.), <i>New Aspects in Analyzing the
    Synaptic Organization of the Brain</i> (1st ed., pp. 123–137). New York: Springer
    Nature. <a href="https://doi.org/10.1007/978-1-0716-4019-7_8">https://doi.org/10.1007/978-1-0716-4019-7_8</a>'
  chicago: 'Kleindienst, David, Tommaso Costanzo, and Ryuichi Shigemoto. “Automated
    Imaging and Analysis of Synapses in Freeze-Fracture Replica Samples with Deep
    Learning.” In <i>New Aspects in Analyzing the Synaptic Organization of the Brain</i>,
    edited by Joachim H.R.  Lübke and Astrid Rollenhagen, 1st ed., 123–37. New York:
    Springer Nature, 2024. <a href="https://doi.org/10.1007/978-1-0716-4019-7_8">https://doi.org/10.1007/978-1-0716-4019-7_8</a>.'
  ieee: 'D. Kleindienst, T. Costanzo, and R. Shigemoto, “Automated Imaging and Analysis
    of Synapses in Freeze-Fracture Replica Samples with Deep Learning,” in <i>New
    Aspects in Analyzing the Synaptic Organization of the Brain</i>, 1st ed., J. H.
    R. Lübke and A. Rollenhagen, Eds. New York: Springer Nature, 2024, pp. 123–137.'
  ista: 'Kleindienst D, Costanzo T, Shigemoto R. 2024.Automated Imaging and Analysis
    of Synapses in Freeze-Fracture Replica Samples with Deep Learning. In: New Aspects
    in Analyzing the Synaptic Organization of the Brain. Neuromethods, , 123–137.'
  mla: Kleindienst, David, et al. “Automated Imaging and Analysis of Synapses in Freeze-Fracture
    Replica Samples with Deep Learning.” <i>New Aspects in Analyzing the Synaptic
    Organization of the Brain</i>, edited by Joachim H.R.  Lübke and Astrid Rollenhagen,
    1st ed., Springer Nature, 2024, pp. 123–37, doi:<a href="https://doi.org/10.1007/978-1-0716-4019-7_8">10.1007/978-1-0716-4019-7_8</a>.
  short: D. Kleindienst, T. Costanzo, R. Shigemoto, in:, J.H.R. Lübke, A. Rollenhagen
    (Eds.), New Aspects in Analyzing the Synaptic Organization of the Brain, 1st ed.,
    Springer Nature, New York, 2024, pp. 123–137.
corr_author: '1'
date_created: 2024-09-10T12:32:38Z
date_published: 2024-08-27T00:00:00Z
date_updated: 2025-04-14T07:27:15Z
day: '27'
department:
- _id: EM-Fac
- _id: RySh
doi: 10.1007/978-1-0716-4019-7_8
ec_funded: 1
edition: '1'
editor:
- first_name: 'Joachim H.R. '
  full_name: 'Lübke, Joachim H.R. '
  last_name: Lübke
- first_name: Astrid
  full_name: Rollenhagen, Astrid
  last_name: Rollenhagen
language:
- iso: eng
month: '08'
oa_version: None
page: 123-137
place: New York
project:
- _id: 25CA28EA-B435-11E9-9278-68D0E5697425
  call_identifier: H2020
  grant_number: '694539'
  name: 'In situ analysis of single channel subunit composition in neurons: physiological
    implication in synaptic plasticity and behaviour'
publication: New Aspects in Analyzing the Synaptic Organization of the Brain
publication_identifier:
  eisbn:
  - '9781071640197'
  eissn:
  - 1940-6045
  isbn:
  - '9781071640180'
  issn:
  - 0893-2336
publication_status: published
publisher: Springer Nature
quality_controlled: '1'
scopus_import: '1'
status: public
title: Automated Imaging and Analysis of Synapses in Freeze-Fracture Replica Samples
  with Deep Learning
type: book_chapter
user_id: 2DF688A6-F248-11E8-B48F-1D18A9856A87
year: '2024'
...
---
_id: '18168'
abstract:
- lang: eng
  text: 'Despite the considerable interest in the recombinant production of synthetic
    spider silk fibers that possess mechanical properties similar to those of native
    spider silks, such as the cost-effectiveness, tunability, and scalability realization,
    is still lacking. To address this long-standing challenge, we have constructed
    an artificial spider silk gene using Golden Gate assembly for the recombinant
    bacterial production of dragline-mimicking silk, incorporating all the essential
    components: the N-terminal domain, a 33-residue-long major-ampullate-spidroin-inspired
    segment repeated 16 times, and the C-terminal domain (N16C). This designed silk-like
    protein was successfully expressed in Escherichia coli, purified, and cast into
    films from formic acid. We produced uniformly 13C–15N-labeled N16C films and employed
    solid-state magic-angle spinning nuclear magnetic resonance (NMR) for characterization.
    Thus, we could demonstrate that our bioengineered silk-like protein self-assembles
    into a film where, when hydrated, the solvent-exposed layer of the rigid, β-nanocrystalline
    polyalanine core undergoes a transition to an α-helical structure, gaining mobility
    to the extent that it fully dissolves in water and transforms into a highly dynamic
    random coil. This hydration-induced behavior induces chain dynamics in the glycine-rich
    amorphous soft segments on the microsecond time scale, contributing to the elasticity
    of the solid material. Our findings not only reveal the presence of structurally
    and dynamically distinct segments within the film’s superstructure but also highlight
    the complexity of the self-organization responsible for the exceptional mechanical
    properties observed in proteins that mimic dragline silk.'
acknowledgement: We thank Dr. Pavel Kielkowski for performing the MS/MS measurement
  and providing feedback on the manuscript. We are grateful to Rodrigo Ledesma Amaro
  for introducing the Golden Gate Assembly technique in our lab. We acknowledge the
  support from the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation)─SFB
  1309-325871075, the Center for NanoScience (CeNS), the Fonds der Chemischen Industrie,
  and Universitätsgesellschaft München.
article_processing_charge: Yes (via OA deal)
article_type: original
author:
- first_name: Dongqing
  full_name: Wu, Dongqing
  last_name: Wu
- first_name: Anamaria
  full_name: Koscic, Anamaria
  last_name: Koscic
- first_name: Sonja
  full_name: Schneider, Sonja
  last_name: Schneider
- first_name: Romeo C. A.
  full_name: Dubini, Romeo C. A.
  last_name: Dubini
- first_name: Diana C.
  full_name: Rodriguez Camargo, Diana C.
  last_name: Rodriguez Camargo
- first_name: Sabine
  full_name: Schneider, Sabine
  last_name: Schneider
- first_name: Petra
  full_name: Rovo, Petra
  id: c316e53f-b965-11eb-b128-bb26acc59c00
  last_name: Rovo
  orcid: 0000-0001-8729-7326
citation:
  ama: Wu D, Koscic A, Schneider S, et al. Unveiling the dynamic self-assembly of
    a recombinant dragline-silk-mimicking protein. <i>Biomacromolecules</i>. 2024;25(3):1759-1774.
    doi:<a href="https://doi.org/10.1021/acs.biomac.3c01239">10.1021/acs.biomac.3c01239</a>
  apa: Wu, D., Koscic, A., Schneider, S., Dubini, R. C. A., Rodriguez Camargo, D.
    C., Schneider, S., &#38; Rovo, P. (2024). Unveiling the dynamic self-assembly
    of a recombinant dragline-silk-mimicking protein. <i>Biomacromolecules</i>. American
    Chemical Society. <a href="https://doi.org/10.1021/acs.biomac.3c01239">https://doi.org/10.1021/acs.biomac.3c01239</a>
  chicago: Wu, Dongqing, Anamaria Koscic, Sonja Schneider, Romeo C. A. Dubini, Diana
    C. Rodriguez Camargo, Sabine Schneider, and Petra Rovo. “Unveiling the Dynamic
    Self-Assembly of a Recombinant Dragline-Silk-Mimicking Protein.” <i>Biomacromolecules</i>.
    American Chemical Society, 2024. <a href="https://doi.org/10.1021/acs.biomac.3c01239">https://doi.org/10.1021/acs.biomac.3c01239</a>.
  ieee: D. Wu <i>et al.</i>, “Unveiling the dynamic self-assembly of a recombinant
    dragline-silk-mimicking protein,” <i>Biomacromolecules</i>, vol. 25, no. 3. American
    Chemical Society, pp. 1759–1774, 2024.
  ista: Wu D, Koscic A, Schneider S, Dubini RCA, Rodriguez Camargo DC, Schneider S,
    Rovo P. 2024. Unveiling the dynamic self-assembly of a recombinant dragline-silk-mimicking
    protein. Biomacromolecules. 25(3), 1759–1774.
  mla: Wu, Dongqing, et al. “Unveiling the Dynamic Self-Assembly of a Recombinant
    Dragline-Silk-Mimicking Protein.” <i>Biomacromolecules</i>, vol. 25, no. 3, American
    Chemical Society, 2024, pp. 1759–74, doi:<a href="https://doi.org/10.1021/acs.biomac.3c01239">10.1021/acs.biomac.3c01239</a>.
  short: D. Wu, A. Koscic, S. Schneider, R.C.A. Dubini, D.C. Rodriguez Camargo, S.
    Schneider, P. Rovo, Biomacromolecules 25 (2024) 1759–1774.
corr_author: '1'
date_created: 2024-10-02T10:09:53Z
date_published: 2024-03-11T00:00:00Z
date_updated: 2025-09-08T09:52:18Z
day: '11'
ddc:
- '540'
department:
- _id: NMR
doi: 10.1021/acs.biomac.3c01239
external_id:
  isi:
  - '001166501000001'
  pmid:
  - '38343096'
file:
- access_level: open_access
  checksum: 9552b6d52f1e8a350764849a535fc13e
  content_type: application/pdf
  creator: dernst
  date_created: 2024-10-07T08:33:35Z
  date_updated: 2024-10-07T08:33:35Z
  file_id: '18180'
  file_name: 2024_BioMacromolecules_Wu.pdf
  file_size: 6597227
  relation: main_file
  success: 1
file_date_updated: 2024-10-07T08:33:35Z
has_accepted_license: '1'
intvolume: '        25'
isi: 1
issue: '3'
language:
- iso: eng
month: '03'
oa: 1
oa_version: Published Version
page: 1759-1774
pmid: 1
publication: Biomacromolecules
publication_identifier:
  eissn:
  - 1526-4602
  issn:
  - 1525-7797
publication_status: published
publisher: American Chemical Society
quality_controlled: '1'
scopus_import: '1'
status: public
title: Unveiling the dynamic self-assembly of a recombinant dragline-silk-mimicking
  protein
tmp:
  image: /images/cc_by.png
  legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
  name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
  short: CC BY (4.0)
type: journal_article
user_id: 317138e5-6ab7-11ef-aa6d-ffef3953e345
volume: 25
year: '2024'
...
---
OA_type: closed access
_id: '18310'
article_processing_charge: No
article_type: original
author:
- first_name: Maria
  full_name: Kitsara, Maria
  last_name: Kitsara
- first_name: Merima
  full_name: Smajlhodžić-Deljo, Merima
  last_name: Smajlhodžić-Deljo
- first_name: Lejla
  full_name: Gurbeta Pokvic, Lejla
  last_name: Gurbeta Pokvic
- first_name: Bettina
  full_name: Bert, Bettina
  last_name: Bert
- first_name: Nataliia
  full_name: Bubalo, Nataliia
  last_name: Bubalo
- first_name: Sevilay
  full_name: Erden, Sevilay
  last_name: Erden
- first_name: Nuno Henrique
  full_name: Franco, Nuno Henrique
  last_name: Franco
- first_name: Giuseppe
  full_name: Chirico, Giuseppe
  last_name: Chirico
- first_name: Jonathan
  full_name: Gómez Raja, Jonathan
  last_name: Gómez Raja
- first_name: Fernando
  full_name: Gonzalez-Uarquin, Fernando
  last_name: Gonzalez-Uarquin
- first_name: Annemarie
  full_name: Lang, Annemarie
  last_name: Lang
- first_name: Nicole
  full_name: Linklater, Nicole
  last_name: Linklater
- first_name: Sandra
  full_name: Mojsova, Sandra
  last_name: Mojsova
- first_name: I. Anna S.
  full_name: Olsson, I. Anna S.
  last_name: Olsson
- first_name: Ioanna
  full_name: Sandvig, Ioanna
  last_name: Sandvig
- first_name: Alexandra
  full_name: Schaffert, Alexandra
  last_name: Schaffert
- first_name: Marthe
  full_name: Schmit, Marthe
  last_name: Schmit
- first_name: Sophie
  full_name: Schober, Sophie
  id: 80b0a0ef-4b9f-11ec-b119-8d9d94c4a1d8
  last_name: Schober
- first_name: Bogdan
  full_name: Sevastre, Bogdan
  last_name: Sevastre
- first_name: Doris
  full_name: Wilflingseder, Doris
  last_name: Wilflingseder
- first_name: Arti
  full_name: Ahluwalia, Arti
  last_name: Ahluwalia
- first_name: Winfried
  full_name: Neuhaus, Winfried
  last_name: Neuhaus
citation:
  ama: Kitsara M, Smajlhodžić-Deljo M, Gurbeta Pokvic L, et al. Introducing the COST
    action ‘Improving the Quality of Biomedical Science with 3Rs Concepts’ (IMPROVE).
    <i>Alternatives to Laboratory Animals</i>. 2024;52(6):326-333. doi:<a href="https://doi.org/10.1177/02611929241286024">10.1177/02611929241286024</a>
  apa: Kitsara, M., Smajlhodžić-Deljo, M., Gurbeta Pokvic, L., Bert, B., Bubalo, N.,
    Erden, S., … Neuhaus, W. (2024). Introducing the COST action ‘Improving the Quality
    of Biomedical Science with 3Rs Concepts’ (IMPROVE). <i>Alternatives to Laboratory
    Animals</i>. SAGE Publications. <a href="https://doi.org/10.1177/02611929241286024">https://doi.org/10.1177/02611929241286024</a>
  chicago: Kitsara, Maria, Merima Smajlhodžić-Deljo, Lejla Gurbeta Pokvic, Bettina
    Bert, Nataliia Bubalo, Sevilay Erden, Nuno Henrique Franco, et al. “Introducing
    the COST Action ‘Improving the Quality of Biomedical Science with 3Rs Concepts’
    (IMPROVE).” <i>Alternatives to Laboratory Animals</i>. SAGE Publications, 2024.
    <a href="https://doi.org/10.1177/02611929241286024">https://doi.org/10.1177/02611929241286024</a>.
  ieee: M. Kitsara <i>et al.</i>, “Introducing the COST action ‘Improving the Quality
    of Biomedical Science with 3Rs Concepts’ (IMPROVE),” <i>Alternatives to Laboratory
    Animals</i>, vol. 52, no. 6. SAGE Publications, pp. 326–333, 2024.
  ista: Kitsara M, Smajlhodžić-Deljo M, Gurbeta Pokvic L, Bert B, Bubalo N, Erden
    S, Franco NH, Chirico G, Gómez Raja J, Gonzalez-Uarquin F, Lang A, Linklater N,
    Mojsova S, Olsson IAS, Sandvig I, Schaffert A, Schmit M, Schober S, Sevastre B,
    Wilflingseder D, Ahluwalia A, Neuhaus W. 2024. Introducing the COST action ‘Improving
    the Quality of Biomedical Science with 3Rs Concepts’ (IMPROVE). Alternatives to
    Laboratory Animals. 52(6), 326–333.
  mla: Kitsara, Maria, et al. “Introducing the COST Action ‘Improving the Quality
    of Biomedical Science with 3Rs Concepts’ (IMPROVE).” <i>Alternatives to Laboratory
    Animals</i>, vol. 52, no. 6, SAGE Publications, 2024, pp. 326–33, doi:<a href="https://doi.org/10.1177/02611929241286024">10.1177/02611929241286024</a>.
  short: M. Kitsara, M. Smajlhodžić-Deljo, L. Gurbeta Pokvic, B. Bert, N. Bubalo,
    S. Erden, N.H. Franco, G. Chirico, J. Gómez Raja, F. Gonzalez-Uarquin, A. Lang,
    N. Linklater, S. Mojsova, I.A.S. Olsson, I. Sandvig, A. Schaffert, M. Schmit,
    S. Schober, B. Sevastre, D. Wilflingseder, A. Ahluwalia, W. Neuhaus, Alternatives
    to Laboratory Animals 52 (2024) 326–333.
date_created: 2024-10-13T22:01:51Z
date_published: 2024-11-01T00:00:00Z
date_updated: 2025-09-08T09:56:39Z
day: '01'
department:
- _id: PreCl
doi: 10.1177/02611929241286024
external_id:
  isi:
  - '001348633700007'
  pmid:
  - '39333027'
intvolume: '        52'
isi: 1
issue: '6'
language:
- iso: eng
month: '11'
oa_version: None
page: 326-333
pmid: 1
publication: Alternatives to Laboratory Animals
publication_identifier:
  eissn:
  - 2632-3559
  issn:
  - 0261-1929
publication_status: published
publisher: SAGE Publications
quality_controlled: '1'
scopus_import: '1'
status: public
title: Introducing the COST action ‘Improving the Quality of Biomedical Science with
  3Rs Concepts’ (IMPROVE)
type: journal_article
user_id: 317138e5-6ab7-11ef-aa6d-ffef3953e345
volume: 52
year: '2024'
...
---
DOAJ_listed: '1'
OA_place: publisher
OA_type: gold
_id: '18581'
abstract:
- lang: eng
  text: "Background: Human induced pluripotent stem cells represent a scalable source
    of youthful tissue progenitors and secretomes for regenerative therapies. The
    aim of our study was to investigate the potential of conditioned medium (CM) from
    hiPSC-mesenchymal progenitors (hiPSC-MPs) to stimulate osteogenic differentiation
    of human bone marrow-derived mesenchymal stromal cells (MSCs). We also investigated
    whether prolonged cultivation or osteogenic pre-differentiation of hiPSC-MPs could
    enhance the stimulatory activity of CM.\r\nMethods: MSCs were isolated from 13
    donors (age 20–90 years). CM derived from hiPSC-MPs was added to the MSC cultures
    and the effects on proliferation and osteogenic differentiation were examined
    after 14 days and 6 weeks. The stimulatory activity of hiPSC-MP-CM was compared
    with the activity of MSC-derived CM and with the activity of CM prepared from
    hiPSC-MPs pre-cultured in growth or osteogenic medium for 14 days. Comparative
    proteomic analysis of CM was performed to gain insight into the molecular components
    responsible for the stimulatory activity.\r\nResults: Primary bone marrow-derived
    MSC exhibited variability, with a tendency towards lower proliferation and tri-lineage
    differentiation in older donors. hiPSC-MP-CM increased the proliferation and alkaline
    phosphatase activity of MSC from several adult/aged donors after 14 days of continuous
    supplementation under osteogenic conditions. However, CM supplementation failed
    to improve the mineralization of MSC pellets after 6 weeks under osteogenic conditions.
    hiPSC-MP-CM showed greater enhancement of proliferation and ALP activity than
    CM derived from bone marrow-derived MSCs. Moreover, 14-day cultivation but not
    osteogenic pre-differentiation of hiPSC-MPs strongly enhanced CM stimulatory activity.
    Quantitative proteomic analysis of d14-CM revealed a distinct profile of components
    that formed a highly interconnected associations network with two clusters, one
    functionally associated with binding and organization of actin/cytoskeletal components
    and the other with structural constituents of the extracellular matrix, collagen,
    and growth factor binding. Several hub proteins were identified that were reported
    to have functions in cell-extracellular matrix interaction, osteogenic differentiation
    and development.\r\nConclusions: Our data show that hiPSC-MP-CM enhances early
    osteogenic differentiation of human bone marrow-derived MSCs and that prolonged
    cultivation of hiPSC-MPs enhances CM-stimulatory activity. Proteomic analysis
    of the upregulated protein components provides the basis for further optimization
    of hiPSC-MP-CM for bone regenerative therapies."
acknowledgement: "We thank the personnel of the Lorenz-Böhler-Unfallkrankenhaus for
  providing the human tissue waste for primary cell isolation and the New York Stem
  Cell Foundation Research Institute for providing the human induced pluripotent stem
  cell line 1013 A and its mesenchymal progenitors. We also thank all our colleagues
  at the Ludwig Boltzmann Institute for Traumatology for their suggestions and ongoing
  support of the project. InstaText writing tool (https://instatext.io) was used to
  edit the English language of the final manuscript.\r\nThis work has received funding
  from the European Union’s Horizon 2020 research and innovation program under the
  Marie Sklodowska-Curie actions (grant agreement No. 657716) and the Transforming
  European Industry call H2020-NMBP-TRIND-2020 (grant agreement No. 953134), as well
  as by the FFG Industrienahe Dissertation program (grant agreement No. 867803 and
  853056), the FEMtech Praktika program (grant agreement No. 852154, 868917 and 877951)
  and the Production of the Future program (grant agreement No. 877452)."
article_number: '434'
article_processing_charge: Yes
article_type: original
author:
- first_name: Darja
  full_name: Marolt Presen, Darja
  last_name: Marolt Presen
- first_name: Vanessa
  full_name: Goeschl, Vanessa
  last_name: Goeschl
- first_name: Dominik
  full_name: Hanetseder, Dominik
  last_name: Hanetseder
- first_name: Laura
  full_name: Ogrin, Laura
  last_name: Ogrin
- first_name: Alexandra Larissa
  full_name: Stetco, Alexandra Larissa
  last_name: Stetco
- first_name: Anja
  full_name: Tansek, Anja
  last_name: Tansek
- first_name: Laura
  full_name: Pozenel, Laura
  last_name: Pozenel
- first_name: Bella
  full_name: Bruszel, Bella
  id: 70abbbb3-88ea-11ec-8e0a-e8c939944834
  last_name: Bruszel
- first_name: Goran
  full_name: Mitulovic, Goran
  last_name: Mitulovic
- first_name: Johannes
  full_name: Oesterreicher, Johannes
  last_name: Oesterreicher
- first_name: Johannes
  full_name: Zipperle, Johannes
  last_name: Zipperle
- first_name: Barbara
  full_name: Schaedl, Barbara
  last_name: Schaedl
- first_name: Wolfgang
  full_name: Holnthoner, Wolfgang
  last_name: Holnthoner
- first_name: Johannes
  full_name: Grillari, Johannes
  last_name: Grillari
- first_name: Heinz
  full_name: Redl, Heinz
  last_name: Redl
citation:
  ama: Marolt Presen D, Goeschl V, Hanetseder D, et al. Prolonged cultivation enhances
    the stimulatory activity of hiPSC mesenchymal progenitor-derived conditioned medium.
    <i>Stem Cell Research and Therapy</i>. 2024;15. doi:<a href="https://doi.org/10.1186/s13287-024-03960-5">10.1186/s13287-024-03960-5</a>
  apa: Marolt Presen, D., Goeschl, V., Hanetseder, D., Ogrin, L., Stetco, A. L., Tansek,
    A., … Redl, H. (2024). Prolonged cultivation enhances the stimulatory activity
    of hiPSC mesenchymal progenitor-derived conditioned medium. <i>Stem Cell Research
    and Therapy</i>. Springer Nature. <a href="https://doi.org/10.1186/s13287-024-03960-5">https://doi.org/10.1186/s13287-024-03960-5</a>
  chicago: Marolt Presen, Darja, Vanessa Goeschl, Dominik Hanetseder, Laura Ogrin,
    Alexandra Larissa Stetco, Anja Tansek, Laura Pozenel, et al. “Prolonged Cultivation
    Enhances the Stimulatory Activity of HiPSC Mesenchymal Progenitor-Derived Conditioned
    Medium.” <i>Stem Cell Research and Therapy</i>. Springer Nature, 2024. <a href="https://doi.org/10.1186/s13287-024-03960-5">https://doi.org/10.1186/s13287-024-03960-5</a>.
  ieee: D. Marolt Presen <i>et al.</i>, “Prolonged cultivation enhances the stimulatory
    activity of hiPSC mesenchymal progenitor-derived conditioned medium,” <i>Stem
    Cell Research and Therapy</i>, vol. 15. Springer Nature, 2024.
  ista: Marolt Presen D, Goeschl V, Hanetseder D, Ogrin L, Stetco AL, Tansek A, Pozenel
    L, Bruszel B, Mitulovic G, Oesterreicher J, Zipperle J, Schaedl B, Holnthoner
    W, Grillari J, Redl H. 2024. Prolonged cultivation enhances the stimulatory activity
    of hiPSC mesenchymal progenitor-derived conditioned medium. Stem Cell Research
    and Therapy. 15, 434.
  mla: Marolt Presen, Darja, et al. “Prolonged Cultivation Enhances the Stimulatory
    Activity of HiPSC Mesenchymal Progenitor-Derived Conditioned Medium.” <i>Stem
    Cell Research and Therapy</i>, vol. 15, 434, Springer Nature, 2024, doi:<a href="https://doi.org/10.1186/s13287-024-03960-5">10.1186/s13287-024-03960-5</a>.
  short: D. Marolt Presen, V. Goeschl, D. Hanetseder, L. Ogrin, A.L. Stetco, A. Tansek,
    L. Pozenel, B. Bruszel, G. Mitulovic, J. Oesterreicher, J. Zipperle, B. Schaedl,
    W. Holnthoner, J. Grillari, H. Redl, Stem Cell Research and Therapy 15 (2024).
date_created: 2024-11-24T23:01:47Z
date_published: 2024-12-01T00:00:00Z
date_updated: 2025-09-09T11:41:12Z
day: '01'
ddc:
- '570'
department:
- _id: LifeSc
doi: 10.1186/s13287-024-03960-5
external_id:
  isi:
  - '001356479400001'
  pmid:
  - '39551765'
file:
- access_level: open_access
  checksum: 91edba8edde30d781dce89fdd5cadc39
  content_type: application/pdf
  creator: dernst
  date_created: 2024-12-10T08:28:17Z
  date_updated: 2024-12-10T08:28:17Z
  file_id: '18641'
  file_name: 2024_StemCellResearch_Presen.pdf
  file_size: 6690494
  relation: main_file
  success: 1
file_date_updated: 2024-12-10T08:28:17Z
has_accepted_license: '1'
intvolume: '        15'
isi: 1
language:
- iso: eng
month: '12'
oa: 1
oa_version: Published Version
pmid: 1
publication: Stem Cell Research and Therapy
publication_identifier:
  eissn:
  - 1757-6512
publication_status: published
publisher: Springer Nature
quality_controlled: '1'
scopus_import: '1'
status: public
title: Prolonged cultivation enhances the stimulatory activity of hiPSC mesenchymal
  progenitor-derived conditioned medium
tmp:
  image: /images/cc_by_nc_nd.png
  legal_code_url: https://creativecommons.org/licenses/by-nc-nd/4.0/legalcode
  name: Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International
    (CC BY-NC-ND 4.0)
  short: CC BY-NC-ND (4.0)
type: journal_article
user_id: 317138e5-6ab7-11ef-aa6d-ffef3953e345
volume: 15
year: '2024'
...
---
OA_place: publisher
OA_type: hybrid
_id: '18587'
abstract:
- lang: eng
  text: Many scientific breakthroughs have depended on animal research, yet the ethical
    concerns surrounding the use of animals in experimentation have long prompted
    discussions about humane treatment and responsible scientific practice. First
    articulated by Russell and Burch, the 3Rs Principles of Replacement, Reduction,
    and Refinement have gained widespread recognition as basic guidelines for animal
    research. Over time, the 3Rs have transcended the research community, influencing
    policy decisions, animal welfare advocacy and public perception of animal experimentation.
    Despite their broad acceptance, interpretations of the 3Rs vary substantially,
    shaping statutory frameworks at various levels, with both technical and practical
    impacts.
acknowledgement: This publication is based upon work from the Ethics Crossover Group
  within the COST Action IMPROVE (“3Rs concepts to improve the quality of biomedical
  science”), CA21139, supported by COST (European Cooperation in Science and Technology).
  We acknowledge the input and advice from Dr. Susanna Louhimies.
article_processing_charge: No
article_type: letter_note
author:
- first_name: Jan
  full_name: Lauwereyns, Jan
  last_name: Lauwereyns
- first_name: Jeffrey
  full_name: Bajramovic, Jeffrey
  last_name: Bajramovic
- first_name: Bettina
  full_name: Bert, Bettina
  last_name: Bert
- first_name: Samuel
  full_name: Camenzind, Samuel
  last_name: Camenzind
- first_name: Joery
  full_name: De Kock, Joery
  last_name: De Kock
- first_name: Alisa
  full_name: Elezović, Alisa
  last_name: Elezović
- first_name: Sevilay
  full_name: Erden, Sevilay
  last_name: Erden
- first_name: Fernando
  full_name: Gonzalez-Uarquin, Fernando
  last_name: Gonzalez-Uarquin
- first_name: Yesim Isil
  full_name: Ulman, Yesim Isil
  last_name: Ulman
- first_name: Orsolya Ivett
  full_name: Hoffmann, Orsolya Ivett
  last_name: Hoffmann
- first_name: Maria
  full_name: Kitsara, Maria
  last_name: Kitsara
- first_name: Nikolaos
  full_name: Kostomitsopoulos, Nikolaos
  last_name: Kostomitsopoulos
- first_name: Winfried
  full_name: Neuhaus, Winfried
  last_name: Neuhaus
- first_name: Benoit
  full_name: Petit-Demouliere, Benoit
  last_name: Petit-Demouliere
- first_name: Simone
  full_name: Pollo, Simone
  last_name: Pollo
- first_name: Brígida
  full_name: Riso, Brígida
  last_name: Riso
- first_name: Sophie
  full_name: Schober, Sophie
  id: 80b0a0ef-4b9f-11ec-b119-8d9d94c4a1d8
  last_name: Schober
- first_name: Athanassia
  full_name: Sotiropoulos, Athanassia
  last_name: Sotiropoulos
- first_name: Aurélie
  full_name: Thomas, Aurélie
  last_name: Thomas
- first_name: Augusto
  full_name: Vitale, Augusto
  last_name: Vitale
- first_name: Doris
  full_name: Wilflingseder, Doris
  last_name: Wilflingseder
- first_name: Arti
  full_name: Ahluwalia, Arti
  last_name: Ahluwalia
citation:
  ama: Lauwereyns J, Bajramovic J, Bert B, et al. Toward a common interpretation of
    the 3Rs principles in animal research. <i>Lab Animal</i>. 2024;53:347-350. doi:<a
    href="https://doi.org/10.1038/s41684-024-01476-2">10.1038/s41684-024-01476-2</a>
  apa: Lauwereyns, J., Bajramovic, J., Bert, B., Camenzind, S., De Kock, J., Elezović,
    A., … Ahluwalia, A. (2024). Toward a common interpretation of the 3Rs principles
    in animal research. <i>Lab Animal</i>. Springer Nature. <a href="https://doi.org/10.1038/s41684-024-01476-2">https://doi.org/10.1038/s41684-024-01476-2</a>
  chicago: Lauwereyns, Jan, Jeffrey Bajramovic, Bettina Bert, Samuel Camenzind, Joery
    De Kock, Alisa Elezović, Sevilay Erden, et al. “Toward a Common Interpretation
    of the 3Rs Principles in Animal Research.” <i>Lab Animal</i>. Springer Nature,
    2024. <a href="https://doi.org/10.1038/s41684-024-01476-2">https://doi.org/10.1038/s41684-024-01476-2</a>.
  ieee: J. Lauwereyns <i>et al.</i>, “Toward a common interpretation of the 3Rs principles
    in animal research,” <i>Lab Animal</i>, vol. 53. Springer Nature, pp. 347–350,
    2024.
  ista: Lauwereyns J, Bajramovic J, Bert B, Camenzind S, De Kock J, Elezović A, Erden
    S, Gonzalez-Uarquin F, Ulman YI, Hoffmann OI, Kitsara M, Kostomitsopoulos N, Neuhaus
    W, Petit-Demouliere B, Pollo S, Riso B, Schober S, Sotiropoulos A, Thomas A, Vitale
    A, Wilflingseder D, Ahluwalia A. 2024. Toward a common interpretation of the 3Rs
    principles in animal research. Lab Animal. 53, 347–350.
  mla: Lauwereyns, Jan, et al. “Toward a Common Interpretation of the 3Rs Principles
    in Animal Research.” <i>Lab Animal</i>, vol. 53, Springer Nature, 2024, pp. 347–50,
    doi:<a href="https://doi.org/10.1038/s41684-024-01476-2">10.1038/s41684-024-01476-2</a>.
  short: J. Lauwereyns, J. Bajramovic, B. Bert, S. Camenzind, J. De Kock, A. Elezović,
    S. Erden, F. Gonzalez-Uarquin, Y.I. Ulman, O.I. Hoffmann, M. Kitsara, N. Kostomitsopoulos,
    W. Neuhaus, B. Petit-Demouliere, S. Pollo, B. Riso, S. Schober, A. Sotiropoulos,
    A. Thomas, A. Vitale, D. Wilflingseder, A. Ahluwalia, Lab Animal 53 (2024) 347–350.
date_created: 2024-11-24T23:01:49Z
date_published: 2024-12-01T00:00:00Z
date_updated: 2025-09-08T14:50:31Z
day: '01'
ddc:
- '570'
department:
- _id: PreCl
doi: 10.1038/s41684-024-01476-2
external_id:
  isi:
  - '001355264100001'
  pmid:
  - '39548348'
file:
- access_level: open_access
  checksum: 67fc140f761581a291591f075e49b88d
  content_type: application/pdf
  creator: dernst
  date_created: 2024-12-03T14:07:04Z
  date_updated: 2024-12-03T14:07:04Z
  file_id: '18614'
  file_name: 2024_LabAnimal_Lauwereyns.pdf
  file_size: 967252
  relation: main_file
  success: 1
file_date_updated: 2024-12-03T14:07:04Z
has_accepted_license: '1'
intvolume: '        53'
isi: 1
language:
- iso: eng
month: '12'
oa: 1
oa_version: Published Version
page: 347-350
pmid: 1
publication: Lab Animal
publication_identifier:
  eissn:
  - 1548-4475
  issn:
  - 0093-7355
publication_status: published
publisher: Springer Nature
quality_controlled: '1'
scopus_import: '1'
status: public
title: Toward a common interpretation of the 3Rs principles in animal research
tmp:
  image: /images/cc_by.png
  legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
  name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
  short: CC BY (4.0)
type: journal_article
user_id: 317138e5-6ab7-11ef-aa6d-ffef3953e345
volume: 53
year: '2024'
...
---
DOAJ_listed: '1'
OA_place: publisher
OA_type: gold
_id: '18920'
abstract:
- lang: eng
  text: The globally distributed marine alga Emiliania huxleyi has cooling effect
    on the Earth’s climate. The population density of E. huxleyi is restricted by
    Nucleocytoviricota viruses, including E. huxleyi virus 201 (EhV-201). Despite
    the impact of E. huxleyi viruses on the climate, there is limited information
    about their structure and replication. Here, we show that the dsDNA genome inside
    the EhV-201 virion is protected by an inner membrane, capsid, and outer membrane.
    EhV-201 virions infect E. huxleyi by using fivefold vertices to bind to and fuse
    the virus’ inner membrane with the cell plasma membrane. Progeny virions assemble
    in the cytoplasm at the surface of endoplasmic reticulum–derived membrane segments.
    Genome packaging initiates synchronously with the capsid assembly and completes
    through an aperture in the forming capsid. The genome-filled capsids acquire an
    outer membrane by budding into intracellular vesicles. EhV-201 infection induces
    a loss of surface protective layers from E. huxleyi cells, which enables the continuous
    release of virions by exocytosis.
acknowledgement: We acknowledge (i) the Cryo-Electron Microscopy and Tomography Core
  Facility and Proteomics Core Facility of the Central European Institute of Technology
  (CEITEC), Masaryk University, supported by the Ministry of Education, Youth, and
  Sports of the Czech Republic (grant LM2018127); (ii) the Cellular Imaging Core Facility
  supported by the Czech-BioImaging large RI project (LM2018129 funded by MEYS CR);
  and (iii) Plant Sciences Core Facility for support with obtaining scientific data
  presented here. We acknowledge support from the project National Institute of Virology
  and Bacteriology (Program EXCELES, ID project no. LX22NPO5103), funded by the European
  Union - Next Generation EU. This work received funding from the Czech Science Foundation
  grant GX 19-259882X to P.P., from European Regional Development Fund-Project “MSCAfellow2@MUNI”
  (no. CZ.02.2.69/0.0/0.0/18_070/0009846) to C.R.B., and from Brno PhD talent scholarship
  funded by Brno city municipality to M.H.
article_number: 'eadk1954 '
article_processing_charge: Yes
article_type: original
author:
- first_name: Miroslav
  full_name: Homola, Miroslav
  last_name: Homola
- first_name: Renate Carina
  full_name: Büttner, Renate Carina
  id: 3b7984c9-17ff-11ed-b6fe-f943c4a5b626
  last_name: Büttner
- first_name: Tibor
  full_name: Füzik, Tibor
  last_name: Füzik
- first_name: Pavel
  full_name: Křepelka, Pavel
  last_name: Křepelka
- first_name: Radka
  full_name: Holbová, Radka
  last_name: Holbová
- first_name: Jiří
  full_name: Nováček, Jiří
  last_name: Nováček
- first_name: Marten L.
  full_name: Chaillet, Marten L.
  last_name: Chaillet
- first_name: Jakub
  full_name: Žák, Jakub
  last_name: Žák
- first_name: Danyil
  full_name: Grybchuk, Danyil
  last_name: Grybchuk
- first_name: Friedrich
  full_name: Förster, Friedrich
  last_name: Förster
- first_name: William H.
  full_name: Wilson, William H.
  last_name: Wilson
- first_name: Declan C.
  full_name: Schroeder, Declan C.
  last_name: Schroeder
- first_name: Pavel
  full_name: Plevka, Pavel
  last_name: Plevka
citation:
  ama: Homola M, Büttner RC, Füzik T, et al. Structure and replication cycle of a
    virus infecting climate-modulating alga Emiliania huxleyi. <i>Science Advances</i>.
    2024;10(15). doi:<a href="https://doi.org/10.1126/sciadv.adk1954">10.1126/sciadv.adk1954</a>
  apa: Homola, M., Büttner, R. C., Füzik, T., Křepelka, P., Holbová, R., Nováček,
    J., … Plevka, P. (2024). Structure and replication cycle of a virus infecting
    climate-modulating alga Emiliania huxleyi. <i>Science Advances</i>. American Association
    for the Advancement of Science. <a href="https://doi.org/10.1126/sciadv.adk1954">https://doi.org/10.1126/sciadv.adk1954</a>
  chicago: Homola, Miroslav, Renate Carina Büttner, Tibor Füzik, Pavel Křepelka, Radka
    Holbová, Jiří Nováček, Marten L. Chaillet, et al. “Structure and Replication Cycle
    of a Virus Infecting Climate-Modulating Alga Emiliania Huxleyi.” <i>Science Advances</i>.
    American Association for the Advancement of Science, 2024. <a href="https://doi.org/10.1126/sciadv.adk1954">https://doi.org/10.1126/sciadv.adk1954</a>.
  ieee: M. Homola <i>et al.</i>, “Structure and replication cycle of a virus infecting
    climate-modulating alga Emiliania huxleyi,” <i>Science Advances</i>, vol. 10,
    no. 15. American Association for the Advancement of Science, 2024.
  ista: Homola M, Büttner RC, Füzik T, Křepelka P, Holbová R, Nováček J, Chaillet
    ML, Žák J, Grybchuk D, Förster F, Wilson WH, Schroeder DC, Plevka P. 2024. Structure
    and replication cycle of a virus infecting climate-modulating alga Emiliania huxleyi.
    Science Advances. 10(15), eadk1954.
  mla: Homola, Miroslav, et al. “Structure and Replication Cycle of a Virus Infecting
    Climate-Modulating Alga Emiliania Huxleyi.” <i>Science Advances</i>, vol. 10,
    no. 15, eadk1954, American Association for the Advancement of Science, 2024, doi:<a
    href="https://doi.org/10.1126/sciadv.adk1954">10.1126/sciadv.adk1954</a>.
  short: M. Homola, R.C. Büttner, T. Füzik, P. Křepelka, R. Holbová, J. Nováček, M.L.
    Chaillet, J. Žák, D. Grybchuk, F. Förster, W.H. Wilson, D.C. Schroeder, P. Plevka,
    Science Advances 10 (2024).
date_created: 2025-01-27T14:32:34Z
date_published: 2024-04-01T00:00:00Z
date_updated: 2025-05-14T09:29:04Z
day: '01'
ddc:
- '570'
department:
- _id: EM-Fac
doi: 10.1126/sciadv.adk1954
external_id:
  pmid:
  - '38598627'
file:
- access_level: open_access
  checksum: 291dd7ceccbe6bfd8e0a9157584f88e9
  content_type: application/pdf
  creator: dernst
  date_created: 2025-01-27T14:40:08Z
  date_updated: 2025-01-27T14:40:08Z
  file_id: '18921'
  file_name: 2024_ScienceAdv_Homola.pdf
  file_size: 40623405
  relation: main_file
  success: 1
file_date_updated: 2025-01-27T14:40:08Z
has_accepted_license: '1'
intvolume: '        10'
issue: '15'
language:
- iso: eng
month: '04'
oa: 1
oa_version: Published Version
pmid: 1
publication: Science Advances
publication_identifier:
  eissn:
  - 2375-2548
publication_status: published
publisher: American Association for the Advancement of Science
quality_controlled: '1'
related_material:
  link:
  - relation: software
    url: ' https://github.com/fuzikt/tomostarpy.'
scopus_import: '1'
status: public
title: Structure and replication cycle of a virus infecting climate-modulating alga
  Emiliania huxleyi
tmp:
  image: /images/cc_by.png
  legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
  name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
  short: CC BY (4.0)
type: journal_article
user_id: 2DF688A6-F248-11E8-B48F-1D18A9856A87
volume: 10
year: '2024'
...
---
OA_place: repository
OA_type: green
_id: '19520'
abstract:
- lang: eng
  text: Vertebrates exhibit a wide range of motor behaviors, ranging from swimming
    to complex limb-based movements. Here we take advantage of frog metamorphosis,
    which captures a swim-to-limb-based movement transformation during the development
    of a single organism, to explore changes in the underlying spinal circuits. We
    find that the tadpole spinal cord contains small and largely homogeneous populations
    of motor neurons (MNs) and V1 interneurons (V1s) at early escape swimming stages.
    These neuronal populations only modestly increase in number and subtype heterogeneity
    with the emergence of free swimming. In contrast, during frog metamorphosis and
    the emergence of limb movement, there is a dramatic expansion of MN and V1 interneuron
    number and transcriptional heterogeneity, culminating in cohorts of neurons that
    exhibit striking molecular similarity to mammalian motor circuits. CRISPR/Cas9-mediated
    gene disruption of the limb MN and V1 determinants FoxP1 and Engrailed-1, respectively,
    results in severe but selective deficits in tail and limb function. Our work thus
    demonstrates that neural diversity scales exponentially with increasing behavioral
    complexity and illustrates striking evolutionary conservation in the molecular
    organization and function of motor circuits across species.
acknowledged_ssus:
- _id: Bio
acknowledgement: "We would like to thank the members of the Sweeney Lab (especially
  Stavros Papadopoulos and\r\nSophie Gobeil) for their contributions to this project
  and, in addition to the lab, Graziana Gatto\r\nand Mario de Bono, for discussion,
  and support. We are also grateful to Tom Jessell and Chris\r\nKintner for their
  scientific insight and mentorship during the conception of this project. This\r\nproject
  would also not have been possible with the technical support of the Matthias Nowak,\r\nVerena
  Mayer and the Aquatics as well as the Imaging and Optics Facility support teams\r\n(ISTA).
  In addition, we thank our funding sources for providing the resources to do these\r\nexperiments:
  FTI Strategy Lower Austria Dissertation Grant Number FT121-D-046 (D.V.);\r\nHorizon
  Europe ERC Starting Grant Number 101041551 (L.B.S., F.A.T. and D.V); Special\r\nResearch
  Program (SFB) of the Austrian Science Fund (FWF) Project number F7814-B (L.B.S);\r\nNINDS
  5R35NS116858 (J.S.D); CZI grant DAF2020-225401 (DOI): 10.37921/120055ratwvi\r\n(R.H.);
  NIH grant number R01NS123116 (J.B.B); American Lebanese Syrian Associated\r\nCharities
  (ALSAC) (J.B.B.); German Academic Exchange Service (DAAD) IFI Grant Number\r\n57515251-91853472
  (Z.H.); and Project A.L.S. (S.B-M.). "
article_processing_charge: No
author:
- first_name: David
  full_name: Vijatovic, David
  id: cf391e77-ec3c-11ea-a124-d69323410b58
  last_name: Vijatovic
- first_name: 'Florina Alexandra '
  full_name: 'Toma, Florina Alexandra '
  id: 2f73f876-f128-11eb-9611-b96b5a30cb0e
  last_name: Toma
- first_name: Zoe P
  full_name: Harrington, Zoe P
  id: a8144562-32c9-11ee-b5ce-d9800628bda2
  last_name: Harrington
  orcid: 0009-0008-0158-4032
- first_name: Christoph M
  full_name: Sommer, Christoph M
  id: 4DF26D8C-F248-11E8-B48F-1D18A9856A87
  last_name: Sommer
  orcid: 0000-0003-1216-9105
- first_name: Robert
  full_name: Hauschild, Robert
  id: 4E01D6B4-F248-11E8-B48F-1D18A9856A87
  last_name: Hauschild
  orcid: 0000-0001-9843-3522
- first_name: Alexandra J.
  full_name: Trevisan, Alexandra J.
  last_name: Trevisan
- first_name: Phillip
  full_name: Chapman, Phillip
  last_name: Chapman
- first_name: Mara
  full_name: Julseth, Mara
  id: 1cf464b2-dc7d-11ea-9b2f-f9b1aa9417d1
  last_name: Julseth
- first_name: Susan
  full_name: Brenner-Morton, Susan
  last_name: Brenner-Morton
- first_name: Mariano I.
  full_name: Gabitto, Mariano I.
  last_name: Gabitto
- first_name: Jeremy S.
  full_name: Dasen, Jeremy S.
  last_name: Dasen
- first_name: Jay B.
  full_name: Bikoff, Jay B.
  last_name: Bikoff
- first_name: Lora Beatrice Jaeger
  full_name: Sweeney, Lora Beatrice Jaeger
  id: 56BE8254-C4F0-11E9-8E45-0B23E6697425
  last_name: Sweeney
  orcid: 0000-0001-9242-5601
citation:
  ama: Vijatovic D, Toma FA, Harrington ZP, et al. Spinal neuron diversity scales
    exponentially with swim-to-limb transformation during frog metamorphosis. <i>bioRxiv</i>.
    doi:<a href="https://doi.org/10.1101/2024.09.20.614050">10.1101/2024.09.20.614050</a>
  apa: Vijatovic, D., Toma, F. A., Harrington, Z. P., Sommer, C. M., Hauschild, R.,
    Trevisan, A. J., … Sweeney, L. B. (n.d.). Spinal neuron diversity scales exponentially
    with swim-to-limb transformation during frog metamorphosis. <i>bioRxiv</i>. <a
    href="https://doi.org/10.1101/2024.09.20.614050">https://doi.org/10.1101/2024.09.20.614050</a>
  chicago: Vijatovic, David, Florina Alexandra  Toma, Zoe P Harrington, Christoph
    M Sommer, Robert Hauschild, Alexandra J. Trevisan, Phillip Chapman, et al. “Spinal
    Neuron Diversity Scales Exponentially with Swim-to-Limb Transformation during
    Frog Metamorphosis.” <i>BioRxiv</i>, n.d. <a href="https://doi.org/10.1101/2024.09.20.614050">https://doi.org/10.1101/2024.09.20.614050</a>.
  ieee: D. Vijatovic <i>et al.</i>, “Spinal neuron diversity scales exponentially
    with swim-to-limb transformation during frog metamorphosis,” <i>bioRxiv</i>. .
  ista: Vijatovic D, Toma FA, Harrington ZP, Sommer CM, Hauschild R, Trevisan AJ,
    Chapman P, Julseth M, Brenner-Morton S, Gabitto MI, Dasen JS, Bikoff JB, Sweeney
    LB. Spinal neuron diversity scales exponentially with swim-to-limb transformation
    during frog metamorphosis. bioRxiv, <a href="https://doi.org/10.1101/2024.09.20.614050">10.1101/2024.09.20.614050</a>.
  mla: Vijatovic, David, et al. “Spinal Neuron Diversity Scales Exponentially with
    Swim-to-Limb Transformation during Frog Metamorphosis.” <i>BioRxiv</i>, doi:<a
    href="https://doi.org/10.1101/2024.09.20.614050">10.1101/2024.09.20.614050</a>.
  short: D. Vijatovic, F.A. Toma, Z.P. Harrington, C.M. Sommer, R. Hauschild, A.J.
    Trevisan, P. Chapman, M. Julseth, S. Brenner-Morton, M.I. Gabitto, J.S. Dasen,
    J.B. Bikoff, L.B. Sweeney, BioRxiv (n.d.).
corr_author: '1'
date_created: 2025-04-07T08:48:28Z
date_published: 2024-09-27T00:00:00Z
date_updated: 2025-05-14T11:40:13Z
day: '27'
department:
- _id: LoSw
- _id: TiVo
- _id: Bio
- _id: NiBa
doi: 10.1101/2024.09.20.614050
language:
- iso: eng
main_file_link:
- open_access: '1'
  url: https://doi.org/10.1101/2024.09.20.614050
month: '09'
oa: 1
oa_version: Preprint
project:
- _id: bd73af52-d553-11ed-ba76-912049f0ac7a
  grant_number: FTI21-D-046
  name: Development of V1 interneuron diversity during swim-to-walk transition of
    Xenopus metamorphosis
- _id: ebb66355-77a9-11ec-83b8-b8ac210a4dae
  grant_number: '101041551'
  name: Development and Evolution of Tetrapod Motor Circuits
- _id: c08e9ad1-5a5b-11eb-8a69-9d1cf3b07473
  grant_number: CZI01
  name: Tools for automation and feedback microscopy
publication: bioRxiv
publication_status: submitted
status: public
title: Spinal neuron diversity scales exponentially with swim-to-limb transformation
  during frog metamorphosis
type: preprint
user_id: 2DF688A6-F248-11E8-B48F-1D18A9856A87
year: '2024'
...
---
_id: '14795'
abstract:
- lang: eng
  text: Metazoan development relies on the formation and remodeling of cell-cell contacts.
    Dynamic reorganization of adhesion receptors and the actomyosin cell cortex in
    space and time plays a central role in cell-cell contact formation and maturation.
    Nevertheless, how this process is mechanistically achieved when new contacts are
    formed remains unclear. Here, by building a biomimetic assay composed of progenitor
    cells adhering to supported lipid bilayers functionalized with E-cadherin ectodomains,
    we show that cortical F-actin flows, driven by the depletion of myosin-2 at the
    cell contact center, mediate the dynamic reorganization of adhesion receptors
    and cell cortex at the contact. E-cadherin-dependent downregulation of the small
    GTPase RhoA at the forming contact leads to both a depletion of myosin-2 and a
    decrease of F-actin at the contact center. At the contact rim, in contrast, myosin-2
    becomes enriched by the retraction of bleb-like protrusions, resulting in a cortical
    tension gradient from the contact rim to its center. This tension gradient, in
    turn, triggers centrifugal F-actin flows, leading to further accumulation of F-actin
    at the contact rim and the progressive redistribution of E-cadherin from the contact
    center to the rim. Eventually, this combination of actomyosin downregulation and
    flows at the contact determines the characteristic molecular organization, with
    E-cadherin and F-actin accumulating at the contact rim, where they are needed
    to mechanically link the contractile cortices of the adhering cells.
acknowledged_ssus:
- _id: Bio
- _id: PreCl
acknowledgement: "We are grateful to Edwin Munro for their feedback and help with
  the single particle analysis. We thank members of the Heisenberg and Loose labs
  for their help and feedback on the manuscript, notably Xin Tong for making the PCS2-mCherry-AHPH
  plasmid. Finally, we thank the Aquatics and Imaging & Optics facilities of ISTA
  for their continuous support, especially Yann Cesbron for assistance with the laser
  cutter. This work was supported by an ERC\r\nAdvanced Grant (MECSPEC) to C.-P.H."
article_processing_charge: Yes (via OA deal)
article_type: original
author:
- first_name: Feyza N
  full_name: Arslan, Feyza N
  id: 49DA7910-F248-11E8-B48F-1D18A9856A87
  last_name: Arslan
  orcid: 0000-0001-5809-9566
- first_name: Edouard B
  full_name: Hannezo, Edouard B
  id: 3A9DB764-F248-11E8-B48F-1D18A9856A87
  last_name: Hannezo
  orcid: 0000-0001-6005-1561
- first_name: Jack
  full_name: Merrin, Jack
  id: 4515C308-F248-11E8-B48F-1D18A9856A87
  last_name: Merrin
  orcid: 0000-0001-5145-4609
- first_name: Martin
  full_name: Loose, Martin
  id: 462D4284-F248-11E8-B48F-1D18A9856A87
  last_name: Loose
  orcid: 0000-0001-7309-9724
- first_name: Carl-Philipp J
  full_name: Heisenberg, Carl-Philipp J
  id: 39427864-F248-11E8-B48F-1D18A9856A87
  last_name: Heisenberg
  orcid: 0000-0002-0912-4566
citation:
  ama: Arslan FN, Hannezo EB, Merrin J, Loose M, Heisenberg C-PJ. Adhesion-induced
    cortical flows pattern E-cadherin-mediated cell contacts. <i>Current Biology</i>.
    2024;34(1):171-182.e8. doi:<a href="https://doi.org/10.1016/j.cub.2023.11.067">10.1016/j.cub.2023.11.067</a>
  apa: Arslan, F. N., Hannezo, E. B., Merrin, J., Loose, M., &#38; Heisenberg, C.-P.
    J. (2024). Adhesion-induced cortical flows pattern E-cadherin-mediated cell contacts.
    <i>Current Biology</i>. Elsevier. <a href="https://doi.org/10.1016/j.cub.2023.11.067">https://doi.org/10.1016/j.cub.2023.11.067</a>
  chicago: Arslan, Feyza N, Edouard B Hannezo, Jack Merrin, Martin Loose, and Carl-Philipp
    J Heisenberg. “Adhesion-Induced Cortical Flows Pattern E-Cadherin-Mediated Cell
    Contacts.” <i>Current Biology</i>. Elsevier, 2024. <a href="https://doi.org/10.1016/j.cub.2023.11.067">https://doi.org/10.1016/j.cub.2023.11.067</a>.
  ieee: F. N. Arslan, E. B. Hannezo, J. Merrin, M. Loose, and C.-P. J. Heisenberg,
    “Adhesion-induced cortical flows pattern E-cadherin-mediated cell contacts,” <i>Current
    Biology</i>, vol. 34, no. 1. Elsevier, p. 171–182.e8, 2024.
  ista: Arslan FN, Hannezo EB, Merrin J, Loose M, Heisenberg C-PJ. 2024. Adhesion-induced
    cortical flows pattern E-cadherin-mediated cell contacts. Current Biology. 34(1),
    171–182.e8.
  mla: Arslan, Feyza N., et al. “Adhesion-Induced Cortical Flows Pattern E-Cadherin-Mediated
    Cell Contacts.” <i>Current Biology</i>, vol. 34, no. 1, Elsevier, 2024, p. 171–182.e8,
    doi:<a href="https://doi.org/10.1016/j.cub.2023.11.067">10.1016/j.cub.2023.11.067</a>.
  short: F.N. Arslan, E.B. Hannezo, J. Merrin, M. Loose, C.-P.J. Heisenberg, Current
    Biology 34 (2024) 171–182.e8.
corr_author: '1'
date_created: 2024-01-14T23:00:56Z
date_published: 2024-01-08T00:00:00Z
date_updated: 2025-09-04T11:39:10Z
day: '08'
ddc:
- '570'
department:
- _id: CaHe
- _id: EdHa
- _id: MaLo
- _id: NanoFab
doi: 10.1016/j.cub.2023.11.067
ec_funded: 1
external_id:
  isi:
  - '001154500400001'
  pmid:
  - '38134934'
file:
- access_level: open_access
  checksum: 51220b76d72a614208f84bdbfbaf9b72
  content_type: application/pdf
  creator: dernst
  date_created: 2024-01-16T10:53:31Z
  date_updated: 2024-01-16T10:53:31Z
  file_id: '14813'
  file_name: 2024_CurrentBiology_Arslan.pdf
  file_size: 5183861
  relation: main_file
  success: 1
file_date_updated: 2024-01-16T10:53:31Z
has_accepted_license: '1'
intvolume: '        34'
isi: 1
issue: '1'
language:
- iso: eng
month: '01'
oa: 1
oa_version: Published Version
page: 171-182.e8
pmid: 1
project:
- _id: 260F1432-B435-11E9-9278-68D0E5697425
  call_identifier: H2020
  grant_number: '742573'
  name: Interaction and feedback between cell mechanics and fate specification in
    vertebrate gastrulation
publication: Current Biology
publication_identifier:
  eissn:
  - 1879-0445
  issn:
  - 0960-9822
publication_status: published
publisher: Elsevier
quality_controlled: '1'
scopus_import: '1'
status: public
title: Adhesion-induced cortical flows pattern E-cadherin-mediated cell contacts
tmp:
  image: /images/cc_by.png
  legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
  name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
  short: CC BY (4.0)
type: journal_article
user_id: 317138e5-6ab7-11ef-aa6d-ffef3953e345
volume: 34
year: '2024'
...
---
_id: '14846'
abstract:
- lang: eng
  text: Contraction and flow of the actin cell cortex have emerged as a common principle
    by which cells reorganize their cytoplasm and take shape. However, how these cortical
    flows interact with adjacent cytoplasmic components, changing their form and localization,
    and how this affects cytoplasmic organization and cell shape remains unclear.
    Here we show that in ascidian oocytes, the cooperative activities of cortical
    actomyosin flows and deformation of the adjacent mitochondria-rich myoplasm drive
    oocyte cytoplasmic reorganization and shape changes following fertilization. We
    show that vegetal-directed cortical actomyosin flows, established upon oocyte
    fertilization, lead to both the accumulation of cortical actin at the vegetal
    pole of the zygote and compression and local buckling of the adjacent elastic
    solid-like myoplasm layer due to friction forces generated at their interface.
    Once cortical flows have ceased, the multiple myoplasm buckles resolve into one
    larger buckle, which again drives the formation of the contraction pole—a protuberance
    of the zygote’s vegetal pole where maternal mRNAs accumulate. Thus, our findings
    reveal a mechanism where cortical actomyosin network flows determine cytoplasmic
    reorganization and cell shape by deforming adjacent cytoplasmic components through
    friction forces.
acknowledged_ssus:
- _id: EM-Fac
- _id: Bio
- _id: NanoFab
acknowledgement: We would like to thank A. McDougall, E. Hannezo and the Heisenberg
  lab for fruitful discussions and reagents. We also thank E. Munro for the iMyo-YFP
  and Bra>iMyo-mScarlet constructs. This research was supported by the Scientific
  Service Units of the Institute of Science and Technology Austria through resources
  provided by the Electron Microscopy Facility, Imaging and Optics Facility and the
  Nanofabrication Facility. This work was supported by a Joint Project Grant from
  the FWF (I 3601-B27).
article_processing_charge: Yes (in subscription journal)
article_type: original
author:
- first_name: Silvia
  full_name: Caballero Mancebo, Silvia
  id: 2F1E1758-F248-11E8-B48F-1D18A9856A87
  last_name: Caballero Mancebo
  orcid: 0000-0002-5223-3346
- first_name: Rushikesh
  full_name: Shinde, Rushikesh
  last_name: Shinde
- first_name: Madison
  full_name: Bolger-Munro, Madison
  id: 516F03FA-93A3-11EA-A7C5-D6BE3DDC885E
  last_name: Bolger-Munro
  orcid: 0000-0002-8176-4824
- first_name: Matilda
  full_name: Peruzzo, Matilda
  id: 3F920B30-F248-11E8-B48F-1D18A9856A87
  last_name: Peruzzo
  orcid: 0000-0002-3415-4628
- first_name: Gregory
  full_name: Szep, Gregory
  id: 4BFB7762-F248-11E8-B48F-1D18A9856A87
  last_name: Szep
- first_name: Irene
  full_name: Steccari, Irene
  id: 2705C766-9FE2-11EA-B224-C6773DDC885E
  last_name: Steccari
- first_name: David
  full_name: Labrousse Arias, David
  id: CD573DF4-9ED3-11E9-9D77-3223E6697425
  last_name: Labrousse Arias
- first_name: Vanessa
  full_name: Zheden, Vanessa
  id: 39C5A68A-F248-11E8-B48F-1D18A9856A87
  last_name: Zheden
  orcid: 0000-0002-9438-4783
- first_name: Jack
  full_name: Merrin, Jack
  id: 4515C308-F248-11E8-B48F-1D18A9856A87
  last_name: Merrin
  orcid: 0000-0001-5145-4609
- first_name: Andrew
  full_name: Callan-Jones, Andrew
  last_name: Callan-Jones
- first_name: Raphaël
  full_name: Voituriez, Raphaël
  last_name: Voituriez
- first_name: Carl-Philipp J
  full_name: Heisenberg, Carl-Philipp J
  id: 39427864-F248-11E8-B48F-1D18A9856A87
  last_name: Heisenberg
  orcid: 0000-0002-0912-4566
citation:
  ama: Caballero Mancebo S, Shinde R, Bolger-Munro M, et al. Friction forces determine
    cytoplasmic reorganization and shape changes of ascidian oocytes upon fertilization.
    <i>Nature Physics</i>. 2024;20:310-321. doi:<a href="https://doi.org/10.1038/s41567-023-02302-1">10.1038/s41567-023-02302-1</a>
  apa: Caballero Mancebo, S., Shinde, R., Bolger-Munro, M., Peruzzo, M., Szep, G.,
    Steccari, I., … Heisenberg, C.-P. J. (2024). Friction forces determine cytoplasmic
    reorganization and shape changes of ascidian oocytes upon fertilization. <i>Nature
    Physics</i>. Springer Nature. <a href="https://doi.org/10.1038/s41567-023-02302-1">https://doi.org/10.1038/s41567-023-02302-1</a>
  chicago: Caballero Mancebo, Silvia, Rushikesh Shinde, Madison Bolger-Munro, Matilda
    Peruzzo, Gregory Szep, Irene Steccari, David Labrousse Arias, et al. “Friction
    Forces Determine Cytoplasmic Reorganization and Shape Changes of Ascidian Oocytes
    upon Fertilization.” <i>Nature Physics</i>. Springer Nature, 2024. <a href="https://doi.org/10.1038/s41567-023-02302-1">https://doi.org/10.1038/s41567-023-02302-1</a>.
  ieee: S. Caballero Mancebo <i>et al.</i>, “Friction forces determine cytoplasmic
    reorganization and shape changes of ascidian oocytes upon fertilization,” <i>Nature
    Physics</i>, vol. 20. Springer Nature, pp. 310–321, 2024.
  ista: Caballero Mancebo S, Shinde R, Bolger-Munro M, Peruzzo M, Szep G, Steccari
    I, Labrousse Arias D, Zheden V, Merrin J, Callan-Jones A, Voituriez R, Heisenberg
    C-PJ. 2024. Friction forces determine cytoplasmic reorganization and shape changes
    of ascidian oocytes upon fertilization. Nature Physics. 20, 310–321.
  mla: Caballero Mancebo, Silvia, et al. “Friction Forces Determine Cytoplasmic Reorganization
    and Shape Changes of Ascidian Oocytes upon Fertilization.” <i>Nature Physics</i>,
    vol. 20, Springer Nature, 2024, pp. 310–21, doi:<a href="https://doi.org/10.1038/s41567-023-02302-1">10.1038/s41567-023-02302-1</a>.
  short: S. Caballero Mancebo, R. Shinde, M. Bolger-Munro, M. Peruzzo, G. Szep, I.
    Steccari, D. Labrousse Arias, V. Zheden, J. Merrin, A. Callan-Jones, R. Voituriez,
    C.-P.J. Heisenberg, Nature Physics 20 (2024) 310–321.
corr_author: '1'
date_created: 2024-01-21T23:00:57Z
date_published: 2024-02-01T00:00:00Z
date_updated: 2025-09-04T11:48:28Z
day: '01'
ddc:
- '530'
department:
- _id: CaHe
- _id: JoFi
- _id: MiSi
- _id: EM-Fac
- _id: NanoFab
doi: 10.1038/s41567-023-02302-1
external_id:
  isi:
  - '001138880800005'
  pmid:
  - '38370025'
file:
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  checksum: 7891ebe7c900ae47469ab127031dd1ec
  content_type: application/pdf
  creator: dernst
  date_created: 2024-07-16T12:12:43Z
  date_updated: 2024-07-16T12:12:43Z
  file_id: '17267'
  file_name: 2024_NaturePhysics_CaballeroMancebo.pdf
  file_size: 9897883
  relation: main_file
  success: 1
file_date_updated: 2024-07-16T12:12:43Z
has_accepted_license: '1'
intvolume: '        20'
isi: 1
language:
- iso: eng
month: '02'
oa: 1
oa_version: Published Version
page: 310-321
pmid: 1
project:
- _id: 2646861A-B435-11E9-9278-68D0E5697425
  call_identifier: FWF
  grant_number: I03601
  name: Control of embryonic cleavage pattern
publication: Nature Physics
publication_identifier:
  eissn:
  - 1745-2481
  issn:
  - 1745-2473
publication_status: published
publisher: Springer Nature
quality_controlled: '1'
related_material:
  link:
  - description: News on ISTA Website
    relation: press_release
    url: https://ista.ac.at/en/news/stranger-than-friction-a-force-initiating-life/
scopus_import: '1'
status: public
title: Friction forces determine cytoplasmic reorganization and shape changes of ascidian
  oocytes upon fertilization
tmp:
  image: /images/cc_by.png
  legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
  name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
  short: CC BY (4.0)
type: journal_article
user_id: 317138e5-6ab7-11ef-aa6d-ffef3953e345
volume: 20
year: '2024'
...
---
_id: '14926'
author:
- first_name: Robert
  full_name: Hauschild, Robert
  id: 4E01D6B4-F248-11E8-B48F-1D18A9856A87
  last_name: Hauschild
  orcid: 0000-0001-9843-3522
citation:
  ama: Hauschild R. Matlab script for analysis of clone dispersal. 2024. doi:<a href="https://doi.org/10.15479/AT:ISTA:14926">10.15479/AT:ISTA:14926</a>
  apa: Hauschild, R. (2024). Matlab script for analysis of clone dispersal. Institute
    of Science and Technology Austria. <a href="https://doi.org/10.15479/AT:ISTA:14926">https://doi.org/10.15479/AT:ISTA:14926</a>
  chicago: Hauschild, Robert. “Matlab Script for Analysis of Clone Dispersal.” Institute
    of Science and Technology Austria, 2024. <a href="https://doi.org/10.15479/AT:ISTA:14926">https://doi.org/10.15479/AT:ISTA:14926</a>.
  ieee: R. Hauschild, “Matlab script for analysis of clone dispersal.” Institute of
    Science and Technology Austria, 2024.
  ista: Hauschild R. 2024. Matlab script for analysis of clone dispersal, Institute
    of Science and Technology Austria, <a href="https://doi.org/10.15479/AT:ISTA:14926">10.15479/AT:ISTA:14926</a>.
  mla: Hauschild, Robert. <i>Matlab Script for Analysis of Clone Dispersal</i>. Institute
    of Science and Technology Austria, 2024, doi:<a href="https://doi.org/10.15479/AT:ISTA:14926">10.15479/AT:ISTA:14926</a>.
  short: R. Hauschild, (2024).
corr_author: '1'
date_created: 2024-02-02T14:42:26Z
date_published: 2024-02-02T00:00:00Z
date_updated: 2025-09-04T12:10:39Z
day: '02'
ddc:
- '570'
department:
- _id: Bio
doi: 10.15479/AT:ISTA:14926
file:
- access_level: open_access
  checksum: df7f358ae19a176cf710c0a802ce31b1
  content_type: application/octet-stream
  creator: rhauschild
  date_created: 2024-02-02T14:40:31Z
  date_updated: 2024-02-02T14:40:31Z
  file_id: '14927'
  file_name: README.md
  file_size: 736
  relation: main_file
  success: 1
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  checksum: 10194cc11619eccd8f4b24472e465b7f
  content_type: application/x-zip-compressed
  creator: rhauschild
  date_created: 2024-02-02T14:40:31Z
  date_updated: 2024-02-02T14:40:31Z
  file_id: '14928'
  file_name: Supplementary_file_1.zip
  file_size: 3543
  relation: main_file
  success: 1
file_date_updated: 2024-02-02T14:40:31Z
has_accepted_license: '1'
license: https://opensource.org/licenses/MIT
month: '02'
oa: 1
publisher: Institute of Science and Technology Austria
related_material:
  record:
  - id: '15048'
    relation: used_in_publication
    status: public
status: public
title: Matlab script for analysis of clone dispersal
tmp:
  legal_code_url: https://opensource.org/licenses/MIT
  name: The MIT License
  short: MIT
type: software
user_id: 2DF688A6-F248-11E8-B48F-1D18A9856A87
year: '2024'
...
---
OA_place: publisher
OA_type: hybrid
_id: '15018'
abstract:
- lang: eng
  text: The epitaxial growth of a strained Ge layer, which is a promising candidate
    for the channel material of a hole spin qubit, has been demonstrated on 300 mm
    Si wafers using commercially available Si0.3Ge0.7 strain relaxed buffer (SRB)
    layers. The assessment of the layer and the interface qualities for a buried strained
    Ge layer embedded in Si0.3Ge0.7 layers is reported. The XRD reciprocal space mapping
    confirmed that the reduction of the growth temperature enables the 2-dimensional
    growth of the Ge layer fully strained with respect to the Si0.3Ge0.7. Nevertheless,
    dislocations at the top and/or bottom interface of the Ge layer were observed
    by means of electron channeling contrast imaging, suggesting the importance of
    the careful dislocation assessment. The interface abruptness does not depend on
    the selection of the precursor gases, but it is strongly influenced by the growth
    temperature which affects the coverage of the surface H-passivation. The mobility
    of 2.7 × 105 cm2/Vs is promising, while the low percolation density of 3 × 1010
    /cm2 measured with a Hall-bar device at 7 K illustrates the high quality of the
    heterostructure thanks to the high Si0.3Ge0.7 SRB quality.
acknowledgement: The Ge project received funding from the European Union's Horizon
  Europe programme under the Grant Agreement 101069515 – IGNITE. Siltronic AG is acknowledged
  for providing the SRB wafers. This work was supported by Imec's Industrial Affiliation
  Program on Quantum Computing.
article_number: '108231'
article_processing_charge: Yes (in subscription journal)
article_type: original
author:
- first_name: Yosuke
  full_name: Shimura, Yosuke
  last_name: Shimura
- first_name: Clement
  full_name: Godfrin, Clement
  last_name: Godfrin
- first_name: Andriy
  full_name: Hikavyy, Andriy
  last_name: Hikavyy
- first_name: Roy
  full_name: Li, Roy
  last_name: Li
- first_name: Juan L
  full_name: Aguilera Servin, Juan L
  id: 2A67C376-F248-11E8-B48F-1D18A9856A87
  last_name: Aguilera Servin
  orcid: 0000-0002-2862-8372
- first_name: Georgios
  full_name: Katsaros, Georgios
  id: 38DB5788-F248-11E8-B48F-1D18A9856A87
  last_name: Katsaros
  orcid: 0000-0001-8342-202X
- first_name: Paola
  full_name: Favia, Paola
  last_name: Favia
- first_name: Han
  full_name: Han, Han
  last_name: Han
- first_name: Danny
  full_name: Wan, Danny
  last_name: Wan
- first_name: Kristiaan
  full_name: de Greve, Kristiaan
  last_name: de Greve
- first_name: Roger
  full_name: Loo, Roger
  last_name: Loo
citation:
  ama: Shimura Y, Godfrin C, Hikavyy A, et al. Compressively strained epitaxial Ge
    layers for quantum computing applications. <i>Materials Science in Semiconductor
    Processing</i>. 2024;174(5). doi:<a href="https://doi.org/10.1016/j.mssp.2024.108231">10.1016/j.mssp.2024.108231</a>
  apa: Shimura, Y., Godfrin, C., Hikavyy, A., Li, R., Aguilera Servin, J. L., Katsaros,
    G., … Loo, R. (2024). Compressively strained epitaxial Ge layers for quantum computing
    applications. <i>Materials Science in Semiconductor Processing</i>. Elsevier.
    <a href="https://doi.org/10.1016/j.mssp.2024.108231">https://doi.org/10.1016/j.mssp.2024.108231</a>
  chicago: Shimura, Yosuke, Clement Godfrin, Andriy Hikavyy, Roy Li, Juan L Aguilera
    Servin, Georgios Katsaros, Paola Favia, et al. “Compressively Strained Epitaxial
    Ge Layers for Quantum Computing Applications.” <i>Materials Science in Semiconductor
    Processing</i>. Elsevier, 2024. <a href="https://doi.org/10.1016/j.mssp.2024.108231">https://doi.org/10.1016/j.mssp.2024.108231</a>.
  ieee: Y. Shimura <i>et al.</i>, “Compressively strained epitaxial Ge layers for
    quantum computing applications,” <i>Materials Science in Semiconductor Processing</i>,
    vol. 174, no. 5. Elsevier, 2024.
  ista: Shimura Y, Godfrin C, Hikavyy A, Li R, Aguilera Servin JL, Katsaros G, Favia
    P, Han H, Wan D, de Greve K, Loo R. 2024. Compressively strained epitaxial Ge
    layers for quantum computing applications. Materials Science in Semiconductor
    Processing. 174(5), 108231.
  mla: Shimura, Yosuke, et al. “Compressively Strained Epitaxial Ge Layers for Quantum
    Computing Applications.” <i>Materials Science in Semiconductor Processing</i>,
    vol. 174, no. 5, 108231, Elsevier, 2024, doi:<a href="https://doi.org/10.1016/j.mssp.2024.108231">10.1016/j.mssp.2024.108231</a>.
  short: Y. Shimura, C. Godfrin, A. Hikavyy, R. Li, J.L. Aguilera Servin, G. Katsaros,
    P. Favia, H. Han, D. Wan, K. de Greve, R. Loo, Materials Science in Semiconductor
    Processing 174 (2024).
date_created: 2024-02-22T14:10:40Z
date_published: 2024-05-20T00:00:00Z
date_updated: 2025-04-14T08:01:27Z
day: '20'
ddc:
- '530'
department:
- _id: GeKa
- _id: NanoFab
doi: 10.1016/j.mssp.2024.108231
external_id:
  isi:
  - '001188520000001'
file:
- access_level: open_access
  checksum: 62e8e9ae960387a3dca32ec7f5e413ab
  content_type: application/pdf
  creator: dernst
  date_created: 2024-07-22T11:56:08Z
  date_updated: 2024-07-22T11:56:08Z
  file_id: '17312'
  file_name: 2024_MaterialsScience_Shimura.pdf
  file_size: 4220165
  relation: main_file
  success: 1
file_date_updated: 2024-07-22T11:56:08Z
has_accepted_license: '1'
intvolume: '       174'
isi: 1
issue: '5'
keyword:
- Mechanical Engineering
- Mechanics of Materials
- Condensed Matter Physics
- General Materials Science
language:
- iso: eng
month: '05'
oa: 1
oa_version: Published Version
project:
- _id: 34c0acea-11ca-11ed-8bc3-8775e10fd452
  grant_number: '101069515'
  name: Integrated Germanium Quantum Technology
publication: Materials Science in Semiconductor Processing
publication_identifier:
  issn:
  - 1369-8001
publication_status: published
publisher: Elsevier
quality_controlled: '1'
scopus_import: '1'
status: public
title: Compressively strained epitaxial Ge layers for quantum computing applications
tmp:
  image: /images/cc_by.png
  legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
  name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
  short: CC BY (4.0)
type: journal_article
user_id: 2DF688A6-F248-11E8-B48F-1D18A9856A87
volume: 174
year: '2024'
...
---
_id: '15048'
abstract:
- lang: eng
  text: Embryogenesis results from the coordinated activities of different signaling
    pathways controlling cell fate specification and morphogenesis. In vertebrate
    gastrulation, both Nodal and BMP signaling play key roles in germ layer specification
    and morphogenesis, yet their interplay to coordinate embryo patterning with morphogenesis
    is still insufficiently understood. Here, we took a reductionist approach using
    zebrafish embryonic explants to study the coordination of Nodal and BMP signaling
    for embryo patterning and morphogenesis. We show that Nodal signaling triggers
    explant elongation by inducing mesendodermal progenitors but also suppressing
    BMP signaling activity at the site of mesendoderm induction. Consistent with this,
    ectopic BMP signaling in the mesendoderm blocks cell alignment and oriented mesendoderm
    intercalations, key processes during explant elongation. Translating these ex
    vivo observations to the intact embryo showed that, similar to explants, Nodal
    signaling suppresses the effect of BMP signaling on cell intercalations in the
    dorsal domain, thus allowing robust embryonic axis elongation. These findings
    suggest a dual function of Nodal signaling in embryonic axis elongation by both
    inducing mesendoderm and suppressing BMP effects in the dorsal portion of the
    mesendoderm.
acknowledged_ssus:
- _id: Bio
- _id: LifeSc
acknowledgement: "We thank Patrick Müller for sharing the chordintt250 mutant zebrafish
  line as well as the plasmid for chrd-GFP, Katherine Rogers for sharing the bmp2b
  plasmid and Andrea Pauli for sharing the draculin plasmid. Diana Pinheiro generated
  the MZlefty1,2;Tg(sebox::EGFP) line. We are grateful to Patrick Müller, Diana Pinheiro
  and Katherine Rogers and members of the Heisenberg lab for discussions, technical
  advice and feedback on the manuscript. We also thank Anna Kicheva and Edouard Hannezo
  for discussions. We thank the Imaging and Optics Facility as well as the Life Science
  facility at IST Austria for support with microscopy and fish maintenance.\r\nThis
  work was supported by a European Research Council Advanced Grant\r\n(MECSPEC 742573
  to C.-P.H.). A.S. is a recipient of a DOC Fellowship of the Austrian\r\nAcademy
  of Sciences at IST Austria. Open Access funding provided by Institute of\r\nScience
  and Technology Austria. "
article_processing_charge: Yes (via OA deal)
article_type: original
author:
- first_name: Alexandra
  full_name: Schauer, Alexandra
  id: 30A536BA-F248-11E8-B48F-1D18A9856A87
  last_name: Schauer
  orcid: 0000-0001-7659-9142
- first_name: Kornelija
  full_name: Pranjic-Ferscha, Kornelija
  id: 4362B3C2-F248-11E8-B48F-1D18A9856A87
  last_name: Pranjic-Ferscha
- first_name: Robert
  full_name: Hauschild, Robert
  id: 4E01D6B4-F248-11E8-B48F-1D18A9856A87
  last_name: Hauschild
  orcid: 0000-0001-9843-3522
- first_name: Carl-Philipp J
  full_name: Heisenberg, Carl-Philipp J
  id: 39427864-F248-11E8-B48F-1D18A9856A87
  last_name: Heisenberg
  orcid: 0000-0002-0912-4566
citation:
  ama: Schauer A, Pranjic-Ferscha K, Hauschild R, Heisenberg C-PJ. Robust axis elongation
    by Nodal-dependent restriction of BMP signaling. <i>Development</i>. 2024;151(4):1-18.
    doi:<a href="https://doi.org/10.1242/dev.202316">10.1242/dev.202316</a>
  apa: Schauer, A., Pranjic-Ferscha, K., Hauschild, R., &#38; Heisenberg, C.-P. J.
    (2024). Robust axis elongation by Nodal-dependent restriction of BMP signaling.
    <i>Development</i>. The Company of Biologists. <a href="https://doi.org/10.1242/dev.202316">https://doi.org/10.1242/dev.202316</a>
  chicago: Schauer, Alexandra, Kornelija Pranjic-Ferscha, Robert Hauschild, and Carl-Philipp
    J Heisenberg. “Robust Axis Elongation by Nodal-Dependent Restriction of BMP Signaling.”
    <i>Development</i>. The Company of Biologists, 2024. <a href="https://doi.org/10.1242/dev.202316">https://doi.org/10.1242/dev.202316</a>.
  ieee: A. Schauer, K. Pranjic-Ferscha, R. Hauschild, and C.-P. J. Heisenberg, “Robust
    axis elongation by Nodal-dependent restriction of BMP signaling,” <i>Development</i>,
    vol. 151, no. 4. The Company of Biologists, pp. 1–18, 2024.
  ista: Schauer A, Pranjic-Ferscha K, Hauschild R, Heisenberg C-PJ. 2024. Robust axis
    elongation by Nodal-dependent restriction of BMP signaling. Development. 151(4),
    1–18.
  mla: Schauer, Alexandra, et al. “Robust Axis Elongation by Nodal-Dependent Restriction
    of BMP Signaling.” <i>Development</i>, vol. 151, no. 4, The Company of Biologists,
    2024, pp. 1–18, doi:<a href="https://doi.org/10.1242/dev.202316">10.1242/dev.202316</a>.
  short: A. Schauer, K. Pranjic-Ferscha, R. Hauschild, C.-P.J. Heisenberg, Development
    151 (2024) 1–18.
corr_author: '1'
date_created: 2024-03-03T23:00:50Z
date_published: 2024-02-01T00:00:00Z
date_updated: 2025-09-04T12:10:40Z
day: '01'
ddc:
- '570'
department:
- _id: CaHe
- _id: Bio
doi: 10.1242/dev.202316
ec_funded: 1
external_id:
  isi:
  - '001170580200001'
  pmid:
  - '38372390'
file:
- access_level: open_access
  checksum: 6961ea10012bf0d266681f9628bb8f13
  content_type: application/pdf
  creator: dernst
  date_created: 2024-03-04T07:24:43Z
  date_updated: 2024-03-04T07:24:43Z
  file_id: '15050'
  file_name: 2024_Development_Schauer.pdf
  file_size: 14839986
  relation: main_file
  success: 1
file_date_updated: 2024-03-04T07:24:43Z
has_accepted_license: '1'
intvolume: '       151'
isi: 1
issue: '4'
language:
- iso: eng
month: '02'
oa: 1
oa_version: Published Version
page: 1-18
pmid: 1
project:
- _id: 260F1432-B435-11E9-9278-68D0E5697425
  call_identifier: H2020
  grant_number: '742573'
  name: Interaction and feedback between cell mechanics and fate specification in
    vertebrate gastrulation
- _id: 26B1E39C-B435-11E9-9278-68D0E5697425
  grant_number: '25239'
  name: 'Mesendoderm specification in zebrafish: The role of extraembryonic tissues'
publication: Development
publication_identifier:
  eissn:
  - 1477-9129
  issn:
  - 0950-1991
publication_status: published
publisher: The Company of Biologists
quality_controlled: '1'
related_material:
  record:
  - id: '14926'
    relation: research_data
    status: public
scopus_import: '1'
status: public
title: Robust axis elongation by Nodal-dependent restriction of BMP signaling
tmp:
  image: /images/cc_by.png
  legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
  name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
  short: CC BY (4.0)
type: journal_article
user_id: 317138e5-6ab7-11ef-aa6d-ffef3953e345
volume: 151
year: '2024'
...
---
_id: '15146'
abstract:
- lang: eng
  text: The extracellular matrix (ECM) serves as a scaffold for cells and plays an
    essential role in regulating numerous cellular processes, including cell migration
    and proliferation. Due to limitations in specimen preparation for conventional
    room-temperature electron microscopy, we lack structural knowledge on how ECM
    components are secreted, remodeled, and interact with surrounding cells. We have
    developed a 3D-ECM platform compatible with sample thinning by cryo-focused ion
    beam milling, the lift-out extraction procedure, and cryo-electron tomography.
    Our workflow implements cell-derived matrices (CDMs) grown on EM grids, resulting
    in a versatile tool closely mimicking ECM environments. This allows us to visualize
    ECM for the first time in its hydrated, native context. Our data reveal an intricate
    network of extracellular fibers, their positioning relative to matrix-secreting
    cells, and previously unresolved structural entities. Our workflow and results
    add to the structural atlas of the ECM, providing novel insights into its secretion
    and assembly.
acknowledged_ssus:
- _id: LifeSc
- _id: ScienComp
- _id: EM-Fac
- _id: M-Shop
acknowledgement: "Open Access funding provided by IST Austria. We thank Armel Nicolas
  and his team at the ISTA proteomics facility, Alois Schloegl, Stefano Elefante,
  and colleagues at the ISTA Scientific Computing facility, Tommaso Constanzo and
  Ludek Lovicar at the Electron Microsocpy Facility (EMF), and Thomas Menner at the
  Miba Machine shop for their support. We also thank Wanda Kukulski (University of
  Bern) as well as Darío Porley, Andreas Thader, and other members of the Schur group
  for helpful discussions. Matt Swulius and Jessica Heebner provided great support
  in using Dragonfly. We thank Dorotea Fracciolla (Art & Science) for support in figure
  illustration.\r\n\r\nThis research was supported by the Scientific Service Units
  of ISTA through resources provided by Scientific Computing, the Lab Support Facility,
  and the Electron Microscopy Facility. We acknowledge funding support from the following
  sources: Austrian Science Fund (FWF) grant P33367 (to F.K.M. Schur), the Federation
  of European Biochemical Societies (to F.K.M. Schur), Niederösterreich (NÖ) Fonds
  (to B. Zens), FWF grant E435 (to J.M. Hansen), European Research Council under the
  European Union’s Horizon 2020 research (grant agreement No. 724373) (to M. Sixt),
  and Jenny and Antti Wihuri Foundation (to J. Alanko). This publication has been
  made possible in part by CZI grant DAF2021-234754 and grant DOI https://doi.org/10.37921/812628ebpcwg
  from the Chan Zuckerberg Initiative DAF, an advised fund of Silicon Valley Community
  Foundation (to F.K.M. Schur)."
article_number: e202309125
article_processing_charge: Yes (via OA deal)
article_type: original
author:
- first_name: Bettina
  full_name: Zens, Bettina
  id: 45FD126C-F248-11E8-B48F-1D18A9856A87
  last_name: Zens
  orcid: 0000-0002-9561-1239
- first_name: Florian
  full_name: Fäßler, Florian
  id: 404F5528-F248-11E8-B48F-1D18A9856A87
  last_name: Fäßler
  orcid: 0000-0001-7149-769X
- first_name: Jesse
  full_name: Hansen, Jesse
  id: 1063c618-6f9b-11ec-9123-f912fccded63
  last_name: Hansen
  orcid: 0000-0001-7967-2085
- first_name: Robert
  full_name: Hauschild, Robert
  id: 4E01D6B4-F248-11E8-B48F-1D18A9856A87
  last_name: Hauschild
  orcid: 0000-0001-9843-3522
- first_name: Julia
  full_name: Datler, Julia
  id: 3B12E2E6-F248-11E8-B48F-1D18A9856A87
  last_name: Datler
  orcid: 0000-0002-3616-8580
- first_name: Victor-Valentin
  full_name: Hodirnau, Victor-Valentin
  id: 3661B498-F248-11E8-B48F-1D18A9856A87
  last_name: Hodirnau
  orcid: 0000-0003-3904-947X
- first_name: Vanessa
  full_name: Zheden, Vanessa
  id: 39C5A68A-F248-11E8-B48F-1D18A9856A87
  last_name: Zheden
  orcid: 0000-0002-9438-4783
- first_name: Jonna H
  full_name: Alanko, Jonna H
  id: 2CC12E8C-F248-11E8-B48F-1D18A9856A87
  last_name: Alanko
  orcid: 0000-0002-7698-3061
- first_name: Michael K
  full_name: Sixt, Michael K
  id: 41E9FBEA-F248-11E8-B48F-1D18A9856A87
  last_name: Sixt
  orcid: 0000-0002-6620-9179
- first_name: Florian KM
  full_name: Schur, Florian KM
  id: 48AD8942-F248-11E8-B48F-1D18A9856A87
  last_name: Schur
  orcid: 0000-0003-4790-8078
citation:
  ama: Zens B, Fäßler F, Hansen J, et al. Lift-out cryo-FIBSEM and cryo-ET reveal
    the ultrastructural landscape of extracellular matrix. <i>Journal of Cell Biology</i>.
    2024;223(6). doi:<a href="https://doi.org/10.1083/jcb.202309125">10.1083/jcb.202309125</a>
  apa: Zens, B., Fäßler, F., Hansen, J., Hauschild, R., Datler, J., Hodirnau, V.-V.,
    … Schur, F. K. (2024). Lift-out cryo-FIBSEM and cryo-ET reveal the ultrastructural
    landscape of extracellular matrix. <i>Journal of Cell Biology</i>. Rockefeller
    University Press. <a href="https://doi.org/10.1083/jcb.202309125">https://doi.org/10.1083/jcb.202309125</a>
  chicago: Zens, Bettina, Florian Fäßler, Jesse Hansen, Robert Hauschild, Julia Datler,
    Victor-Valentin Hodirnau, Vanessa Zheden, Jonna H Alanko, Michael K Sixt, and
    Florian KM Schur. “Lift-out Cryo-FIBSEM and Cryo-ET Reveal the Ultrastructural
    Landscape of Extracellular Matrix.” <i>Journal of Cell Biology</i>. Rockefeller
    University Press, 2024. <a href="https://doi.org/10.1083/jcb.202309125">https://doi.org/10.1083/jcb.202309125</a>.
  ieee: B. Zens <i>et al.</i>, “Lift-out cryo-FIBSEM and cryo-ET reveal the ultrastructural
    landscape of extracellular matrix,” <i>Journal of Cell Biology</i>, vol. 223,
    no. 6. Rockefeller University Press, 2024.
  ista: Zens B, Fäßler F, Hansen J, Hauschild R, Datler J, Hodirnau V-V, Zheden V,
    Alanko JH, Sixt MK, Schur FK. 2024. Lift-out cryo-FIBSEM and cryo-ET reveal the
    ultrastructural landscape of extracellular matrix. Journal of Cell Biology. 223(6),
    e202309125.
  mla: Zens, Bettina, et al. “Lift-out Cryo-FIBSEM and Cryo-ET Reveal the Ultrastructural
    Landscape of Extracellular Matrix.” <i>Journal of Cell Biology</i>, vol. 223,
    no. 6, e202309125, Rockefeller University Press, 2024, doi:<a href="https://doi.org/10.1083/jcb.202309125">10.1083/jcb.202309125</a>.
  short: B. Zens, F. Fäßler, J. Hansen, R. Hauschild, J. Datler, V.-V. Hodirnau, V.
    Zheden, J.H. Alanko, M.K. Sixt, F.K. Schur, Journal of Cell Biology 223 (2024).
corr_author: '1'
date_created: 2024-03-21T06:45:51Z
date_published: 2024-03-20T00:00:00Z
date_updated: 2025-09-04T13:17:16Z
day: '20'
ddc:
- '570'
department:
- _id: FlSc
- _id: MiSi
- _id: Bio
- _id: EM-Fac
doi: 10.1083/jcb.202309125
ec_funded: 1
external_id:
  isi:
  - '001264190100001'
  pmid:
  - '38506714'
file:
- access_level: open_access
  checksum: 90d1984a93660735e506c2a304bc3f73
  content_type: application/pdf
  creator: dernst
  date_created: 2024-03-25T12:52:04Z
  date_updated: 2024-03-25T12:52:04Z
  file_id: '15188'
  file_name: 2024_JCB_Zens.pdf
  file_size: 11907016
  relation: main_file
  success: 1
file_date_updated: 2024-03-25T12:52:04Z
has_accepted_license: '1'
intvolume: '       223'
isi: 1
issue: '6'
language:
- iso: eng
month: '03'
oa: 1
oa_version: Published Version
pmid: 1
project:
- _id: 9B954C5C-BA93-11EA-9121-9846C619BF3A
  grant_number: P33367
  name: Structure and isoform diversity of the Arp2/3 complex
- _id: 7bd318a1-9f16-11ee-852c-cc9217763180
  grant_number: E435
  name: In Situ Actin Structures via Hybrid Cryo-electron Microscopy
- _id: 25FE9508-B435-11E9-9278-68D0E5697425
  call_identifier: H2020
  grant_number: '724373'
  name: Cellular Navigation Along Spatial Gradients
- _id: 059B463C-7A3F-11EA-A408-12923DDC885E
  name: "NÃ\x96-Fonds Preis für die Jungforscherin des Jahres am IST Austria"
- _id: 2615199A-B435-11E9-9278-68D0E5697425
  grant_number: '21317'
  name: Spatiotemporal regulation of chemokine-induced signalling in leukocyte chemotaxis
- _id: 62909c6f-2b32-11ec-9570-e1476aab5308
  grant_number: CZI01
  name: CryoMinflux-guided in-situ visual proteomics and structure determination
publication: Journal of Cell Biology
publication_identifier:
  eissn:
  - 1540-8140
  issn:
  - 0021-9525
publication_status: published
publisher: Rockefeller University Press
quality_controlled: '1'
scopus_import: '1'
status: public
title: Lift-out cryo-FIBSEM and cryo-ET reveal the ultrastructural landscape of extracellular
  matrix
tmp:
  image: /images/cc_by.png
  legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
  name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
  short: CC BY (4.0)
type: journal_article
user_id: 317138e5-6ab7-11ef-aa6d-ffef3953e345
volume: 223
year: '2024'
...
---
_id: '15164'
abstract:
- lang: eng
  text: Primary implant stability, which refers to the stability of the implant during
    the initial healing period is a crucial factor in determining the long-term success
    of the implant and lays the foundation for secondary implant stability achieved
    through osseointegration. Factors affecting primary stability include implant
    design, surgical technique, and patient-specific factors like bone quality and
    morphology. In vivo, the cyclic nature of anatomical loading puts osteosynthesis
    locking screws under dynamic loads, which can lead to the formation of micro cracks
    and defects that slowly degrade the mechanical connection between the bone and
    screw, thus compromising the initial stability and secondary stability of the
    implant. Monotonic quasi-static loading used for testing the holding capacity
    of implanted screws is not well suited to capture this behavior since it cannot
    capture the progressive deterioration of peri‑implant bone at small displacements.
    In order to address this issue, this study aims to determine a critical point
    of loss of primary implant stability in osteosynthesis locking screws under cyclic
    overloading by investigating the evolution of damage, dissipated energy, and permanent
    deformation. A custom-made test setup was used to test implanted 2.5 mm locking
    screws under cyclic overloading test. For each loading cycle, maximum forces and
    displacement were recorded as well as initial and final cycle displacements and
    used to calculate damage and energy dissipation evolution. The results of this
    study demonstrate that for axial, shear, and mixed loading significant damage
    and energy dissipation can be observed at approximately 20 % of the failure force.
    Additionally, at this load level, permanent deformations on the screw-bone interface
    were found to be in the range of 50 to 150 mm which promotes osseointegration
    and secondary implant stability. This research can assist surgeons in making informed
    preoperative decisions by providing a better understanding of the critical point
    of loss of primary implant stability, thus improving the long-term success of
    the implant and overall patient satisfaction.
acknowledgement: The authors declare no conflict of interest related to this study.
  This project was funded by the Gesellschaft fuer Forschungsfoerderung Niederoesterreich
  m.b.H. Life Science Call 2017 Grant No. LS17004 and Science call 2019 Dissertationen
  Grant No. SC19014. No ethical approval was required for this study.
article_number: '104143'
article_processing_charge: Yes (in subscription journal)
article_type: original
author:
- first_name: Juan D.
  full_name: Silva-Henao, Juan D.
  last_name: Silva-Henao
- first_name: Sophie
  full_name: Schober, Sophie
  id: 80b0a0ef-4b9f-11ec-b119-8d9d94c4a1d8
  last_name: Schober
- first_name: Dieter H.
  full_name: Pahr, Dieter H.
  last_name: Pahr
- first_name: Andreas G.
  full_name: Reisinger, Andreas G.
  last_name: Reisinger
citation:
  ama: Silva-Henao JD, Schober S, Pahr DH, Reisinger AG. Critical loss of primary
    implant stability in osteosynthesis locking screws under cyclic overloading. <i>Medical
    Engineering and Physics</i>. 2024;126. doi:<a href="https://doi.org/10.1016/j.medengphy.2024.104143">10.1016/j.medengphy.2024.104143</a>
  apa: Silva-Henao, J. D., Schober, S., Pahr, D. H., &#38; Reisinger, A. G. (2024).
    Critical loss of primary implant stability in osteosynthesis locking screws under
    cyclic overloading. <i>Medical Engineering and Physics</i>. Elsevier. <a href="https://doi.org/10.1016/j.medengphy.2024.104143">https://doi.org/10.1016/j.medengphy.2024.104143</a>
  chicago: Silva-Henao, Juan D., Sophie Schober, Dieter H. Pahr, and Andreas G. Reisinger.
    “Critical Loss of Primary Implant Stability in Osteosynthesis Locking Screws under
    Cyclic Overloading.” <i>Medical Engineering and Physics</i>. Elsevier, 2024. <a
    href="https://doi.org/10.1016/j.medengphy.2024.104143">https://doi.org/10.1016/j.medengphy.2024.104143</a>.
  ieee: J. D. Silva-Henao, S. Schober, D. H. Pahr, and A. G. Reisinger, “Critical
    loss of primary implant stability in osteosynthesis locking screws under cyclic
    overloading,” <i>Medical Engineering and Physics</i>, vol. 126. Elsevier, 2024.
  ista: Silva-Henao JD, Schober S, Pahr DH, Reisinger AG. 2024. Critical loss of primary
    implant stability in osteosynthesis locking screws under cyclic overloading. Medical
    Engineering and Physics. 126, 104143.
  mla: Silva-Henao, Juan D., et al. “Critical Loss of Primary Implant Stability in
    Osteosynthesis Locking Screws under Cyclic Overloading.” <i>Medical Engineering
    and Physics</i>, vol. 126, 104143, Elsevier, 2024, doi:<a href="https://doi.org/10.1016/j.medengphy.2024.104143">10.1016/j.medengphy.2024.104143</a>.
  short: J.D. Silva-Henao, S. Schober, D.H. Pahr, A.G. Reisinger, Medical Engineering
    and Physics 126 (2024).
date_created: 2024-03-24T23:00:58Z
date_published: 2024-04-01T00:00:00Z
date_updated: 2025-09-04T13:11:03Z
day: '01'
ddc:
- '610'
department:
- _id: PreCl
doi: 10.1016/j.medengphy.2024.104143
external_id:
  isi:
  - '001219145400001'
  pmid:
  - '38621845'
file:
- access_level: open_access
  checksum: 974acbf2731e7382dcf5920ac762e551
  content_type: application/pdf
  creator: dernst
  date_created: 2024-03-25T08:29:52Z
  date_updated: 2024-03-25T08:29:52Z
  file_id: '15177'
  file_name: 2024_MedEngineeringPhysics_SilvaHenao.pdf
  file_size: 10039402
  relation: main_file
  success: 1
file_date_updated: 2024-03-25T08:29:52Z
has_accepted_license: '1'
intvolume: '       126'
isi: 1
language:
- iso: eng
month: '04'
oa: 1
oa_version: Published Version
pmid: 1
publication: Medical Engineering and Physics
publication_identifier:
  eissn:
  - 1873-4030
  issn:
  - 1350-4533
publication_status: published
publisher: Elsevier
quality_controlled: '1'
scopus_import: '1'
status: public
title: Critical loss of primary implant stability in osteosynthesis locking screws
  under cyclic overloading
tmp:
  image: /images/cc_by.png
  legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
  name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
  short: CC BY (4.0)
type: journal_article
user_id: 317138e5-6ab7-11ef-aa6d-ffef3953e345
volume: 126
year: '2024'
...
---
_id: '15182'
abstract:
- lang: eng
  text: Thermoelectric materials convert heat into electricity, with a broad range
    of applications near room temperature (RT). However, the library of RT high-performance
    materials is limited. Traditional high-temperature synthetic methods constrain
    the range of materials achievable, hindering the ability to surpass crystal structure
    limitations and engineer defects. Here, a solution-based synthetic approach is
    introduced, enabling RT synthesis of powders and exploration of densification
    at lower temperatures to influence the material's microstructure. The approach
    is exemplified by Ag2Se, an n-type alternative to bismuth telluride. It is demonstrated
    that the concentration of Ag interstitials, grain boundaries, and dislocations
    are directly correlated to the sintering temperature, and achieve a figure of
    merit of 1.1 from RT to 100 °C after optimization. Moreover, insights into and
    resolve Ag2Se's challenges are provided, including stoichiometry issues leading
    to irreproducible performances. This work highlights the potential of RT solution
    synthesis in expanding the repertoire of high-performance thermoelectric materials
    for practical applications.
acknowledged_ssus:
- _id: EM-Fac
- _id: LifeSc
- _id: NanoFab
acknowledgement: This work was supported by the Scientific Service Units (SSU) of
  ISTA through resources provided by the Electron Microscopy Facility (EMF), the Lab
  Support Facility (LSF), and the Nanofabrication Facility (NNF). This work was financially
  supported by ISTA and the Werner Siemens Foundation. The USTEM Service Unit of the
  Technical University of Vienna is acknowledged for EBSD sample preparation and analysis.
  R.L.B. acknowledges the National Science Foundation for funding the mass spectrometry
  analysis under award DMR 1904719. J.L. is a Serra Húnter Fellow and is grateful
  to the ICREA Academia program and projects MICINN/FEDER PID2021-124572OB-C31 and
  GC 2021 SGR 01061.
article_number: '2400408'
article_processing_charge: Yes (via OA deal)
article_type: original
author:
- first_name: Tobias
  full_name: Kleinhanns, Tobias
  id: 8BD9DE16-AB3C-11E9-9C8C-2A03E6697425
  last_name: Kleinhanns
- first_name: Francesco
  full_name: Milillo, Francesco
  id: 38b830db-ea88-11ee-bf9b-929beaf79054
  last_name: Milillo
- first_name: Mariano
  full_name: Calcabrini, Mariano
  id: 45D7531A-F248-11E8-B48F-1D18A9856A87
  last_name: Calcabrini
  orcid: 0000-0003-4566-5877
- first_name: Christine
  full_name: Fiedler, Christine
  id: bd3fceba-dc74-11ea-a0a7-c17f71817366
  last_name: Fiedler
- first_name: Sharona
  full_name: Horta, Sharona
  id: 03a7e858-01b1-11ec-8b71-99ae6c4a05bc
  last_name: Horta
- first_name: Daniel
  full_name: Balazs, Daniel
  id: 302BADF6-85FC-11EA-9E3B-B9493DDC885E
  last_name: Balazs
  orcid: 0000-0001-7597-043X
- first_name: Marissa J.
  full_name: Strumolo, Marissa J.
  last_name: Strumolo
- first_name: Roger
  full_name: Hasler, Roger
  last_name: Hasler
- first_name: Jordi
  full_name: Llorca, Jordi
  last_name: Llorca
- first_name: Michael
  full_name: Tkadletz, Michael
  last_name: Tkadletz
- first_name: Richard L.
  full_name: Brutchey, Richard L.
  last_name: Brutchey
- first_name: Maria
  full_name: Ibáñez, Maria
  id: 43C61214-F248-11E8-B48F-1D18A9856A87
  last_name: Ibáñez
  orcid: 0000-0001-5013-2843
citation:
  ama: 'Kleinhanns T, Milillo F, Calcabrini M, et al. A route to high thermoelectric
    performance: Solution‐based control of microstructure and composition in Ag2Se.
    <i>Advanced Energy Materials</i>. 2024;14(22). doi:<a href="https://doi.org/10.1002/aenm.202400408">10.1002/aenm.202400408</a>'
  apa: 'Kleinhanns, T., Milillo, F., Calcabrini, M., Fiedler, C., Horta, S., Balazs,
    D., … Ibáñez, M. (2024). A route to high thermoelectric performance: Solution‐based
    control of microstructure and composition in Ag2Se. <i>Advanced Energy Materials</i>.
    Wiley. <a href="https://doi.org/10.1002/aenm.202400408">https://doi.org/10.1002/aenm.202400408</a>'
  chicago: 'Kleinhanns, Tobias, Francesco Milillo, Mariano Calcabrini, Christine Fiedler,
    Sharona Horta, Daniel Balazs, Marissa J. Strumolo, et al. “A Route to High Thermoelectric
    Performance: Solution‐based Control of Microstructure and Composition in Ag2Se.”
    <i>Advanced Energy Materials</i>. Wiley, 2024. <a href="https://doi.org/10.1002/aenm.202400408">https://doi.org/10.1002/aenm.202400408</a>.'
  ieee: 'T. Kleinhanns <i>et al.</i>, “A route to high thermoelectric performance:
    Solution‐based control of microstructure and composition in Ag2Se,” <i>Advanced
    Energy Materials</i>, vol. 14, no. 22. Wiley, 2024.'
  ista: 'Kleinhanns T, Milillo F, Calcabrini M, Fiedler C, Horta S, Balazs D, Strumolo
    MJ, Hasler R, Llorca J, Tkadletz M, Brutchey RL, Ibáñez M. 2024. A route to high
    thermoelectric performance: Solution‐based control of microstructure and composition
    in Ag2Se. Advanced Energy Materials. 14(22), 2400408.'
  mla: 'Kleinhanns, Tobias, et al. “A Route to High Thermoelectric Performance: Solution‐based
    Control of Microstructure and Composition in Ag2Se.” <i>Advanced Energy Materials</i>,
    vol. 14, no. 22, 2400408, Wiley, 2024, doi:<a href="https://doi.org/10.1002/aenm.202400408">10.1002/aenm.202400408</a>.'
  short: T. Kleinhanns, F. Milillo, M. Calcabrini, C. Fiedler, S. Horta, D. Balazs,
    M.J. Strumolo, R. Hasler, J. Llorca, M. Tkadletz, R.L. Brutchey, M. Ibáñez, Advanced
    Energy Materials 14 (2024).
corr_author: '1'
date_created: 2024-03-25T08:57:40Z
date_published: 2024-06-12T00:00:00Z
date_updated: 2025-09-04T13:14:27Z
day: '12'
ddc:
- '530'
department:
- _id: MaIb
- _id: LifeSc
doi: 10.1002/aenm.202400408
external_id:
  isi:
  - '001184300200001'
file:
- access_level: open_access
  checksum: 86b26430e00d5f43ea19e9b610692ab7
  content_type: application/pdf
  creator: dernst
  date_created: 2024-07-22T12:07:56Z
  date_updated: 2024-07-22T12:07:56Z
  file_id: '17314'
  file_name: 2024_AdvancedEnergyMaterials_Kleinhanns.pdf
  file_size: 8824301
  relation: main_file
  success: 1
file_date_updated: 2024-07-22T12:07:56Z
has_accepted_license: '1'
intvolume: '        14'
isi: 1
issue: '22'
language:
- iso: eng
month: '06'
oa: 1
oa_version: Published Version
project:
- _id: 9B8F7476-BA93-11EA-9121-9846C619BF3A
  name: 'HighTE: The Werner Siemens Laboratory for the High Throughput Discovery of
    Semiconductors for Waste Heat Recovery'
publication: Advanced Energy Materials
publication_identifier:
  eissn:
  - 1614-6840
  issn:
  - 1614-6832
publication_status: published
publisher: Wiley
quality_controlled: '1'
scopus_import: '1'
status: public
title: 'A route to high thermoelectric performance: Solution‐based control of microstructure
  and composition in Ag2Se'
tmp:
  image: /images/cc_by_nc_nd.png
  legal_code_url: https://creativecommons.org/licenses/by-nc-nd/4.0/legalcode
  name: Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International
    (CC BY-NC-ND 4.0)
  short: CC BY-NC-ND (4.0)
type: journal_article
user_id: 317138e5-6ab7-11ef-aa6d-ffef3953e345
volume: 14
year: '2024'
...
---
_id: '15385'
abstract:
- lang: eng
  text: "Relevant information about the data can be found in the 'Readme_Data.txt'
    file. \r\nA previous version of the publication can be found on BioRxiv: https://www.biorxiv.org/content/10.1101/2022.10.11.511691v4\r\nand
    published in Plos Biology (2024)"
acknowledged_ssus:
- _id: PreCl
- _id: M-Shop
- _id: LifeSc
- _id: Bio
acknowledgement: 'We thank Armel Nicolas, Bella Bruszel and Ewelina Dutkiewicz from
  the ISTA Mass Spectrometry Service (Lab Services Facilities) for all Proteomics
  work, including samples preparation, LC/MS data acquisition, searches and data evaluation.
  We thank Prof. Peter Jonas for his suggestion on the involvement of potassium channels
  and members of the Neuroethology group for their comments on the manuscript. Katalin
  Szigeti and Julie Murmann for experimental help. This research was supported by
  the Scientific Service Units of ISTA through resources provided by the Lab Support
  Facility, the Imaging and Optics Facility, the Machine Shop Unit and the Preclinical
  Facility, especially Freyja Langer and Michael Schunn. '
article_processing_charge: No
author:
- first_name: Laura
  full_name: Burnett, Laura
  id: 3B717F68-F248-11E8-B48F-1D18A9856A87
  last_name: Burnett
  orcid: 0000-0002-8937-410X
- first_name: Peter
  full_name: Koppensteiner, Peter
  id: 3B8B25A8-F248-11E8-B48F-1D18A9856A87
  last_name: Koppensteiner
  orcid: 0000-0002-3509-1948
- first_name: Olga
  full_name: Symonova, Olga
  id: 3C0C7BC6-F248-11E8-B48F-1D18A9856A87
  last_name: Symonova
  orcid: 0000-0003-2012-9947
- first_name: Tomas
  full_name: Masson, Tomas
  id: 93ac43e8-8599-11eb-9b86-f6efb0a4c207
  last_name: Masson
  orcid: 0000-0002-2634-6283
- first_name: Tomas A
  full_name: Vega Zuniga, Tomas A
  id: 2E7C4E78-F248-11E8-B48F-1D18A9856A87
  last_name: Vega Zuniga
- first_name: Ximena
  full_name: Contreras, Ximena
  id: 475990FE-F248-11E8-B48F-1D18A9856A87
  last_name: Contreras
- first_name: Thomas
  full_name: Rülicke, Thomas
  last_name: Rülicke
- first_name: Ryuichi
  full_name: Shigemoto, Ryuichi
  id: 499F3ABC-F248-11E8-B48F-1D18A9856A87
  last_name: Shigemoto
  orcid: 0000-0001-8761-9444
- first_name: Gaia
  full_name: Novarino, Gaia
  id: 3E57A680-F248-11E8-B48F-1D18A9856A87
  last_name: Novarino
  orcid: 0000-0002-7673-7178
- first_name: Maximilian A
  full_name: Jösch, Maximilian A
  id: 2BD278E6-F248-11E8-B48F-1D18A9856A87
  last_name: Jösch
  orcid: 0000-0002-3937-1330
citation:
  ama: Burnett L, Koppensteiner P, Symonova O, et al. Shared behavioural impairments
    in visual perception and place avoidance across different autism models are driven
    by periaqueductal grey hypoexcitability in Setd5 haploinsufficient mice. 2024.
    doi:<a href="https://doi.org/10.15479/AT:ISTA:15385">10.15479/AT:ISTA:15385</a>
  apa: Burnett, L., Koppensteiner, P., Symonova, O., Masson, T., Vega Zuniga, T. A.,
    Contreras, X., … Jösch, M. A. (2024). Shared behavioural impairments in visual
    perception and place avoidance across different autism models are driven by periaqueductal
    grey hypoexcitability in Setd5 haploinsufficient mice. Institute of Science and
    Technology Austria. <a href="https://doi.org/10.15479/AT:ISTA:15385">https://doi.org/10.15479/AT:ISTA:15385</a>
  chicago: Burnett, Laura, Peter Koppensteiner, Olga Symonova, Tomas Masson, Tomas
    A Vega Zuniga, Ximena Contreras, Thomas Rülicke, Ryuichi Shigemoto, Gaia Novarino,
    and Maximilian A Jösch. “Shared Behavioural Impairments in Visual Perception and
    Place Avoidance across Different Autism Models Are Driven by Periaqueductal Grey
    Hypoexcitability in Setd5 Haploinsufficient Mice.” Institute of Science and Technology
    Austria, 2024. <a href="https://doi.org/10.15479/AT:ISTA:15385">https://doi.org/10.15479/AT:ISTA:15385</a>.
  ieee: L. Burnett <i>et al.</i>, “Shared behavioural impairments in visual perception
    and place avoidance across different autism models are driven by periaqueductal
    grey hypoexcitability in Setd5 haploinsufficient mice.” Institute of Science and
    Technology Austria, 2024.
  ista: Burnett L, Koppensteiner P, Symonova O, Masson T, Vega Zuniga TA, Contreras
    X, Rülicke T, Shigemoto R, Novarino G, Jösch MA. 2024. Shared behavioural impairments
    in visual perception and place avoidance across different autism models are driven
    by periaqueductal grey hypoexcitability in Setd5 haploinsufficient mice, Institute
    of Science and Technology Austria, <a href="https://doi.org/10.15479/AT:ISTA:15385">10.15479/AT:ISTA:15385</a>.
  mla: Burnett, Laura, et al. <i>Shared Behavioural Impairments in Visual Perception
    and Place Avoidance across Different Autism Models Are Driven by Periaqueductal
    Grey Hypoexcitability in Setd5 Haploinsufficient Mice</i>. Institute of Science
    and Technology Austria, 2024, doi:<a href="https://doi.org/10.15479/AT:ISTA:15385">10.15479/AT:ISTA:15385</a>.
  short: L. Burnett, P. Koppensteiner, O. Symonova, T. Masson, T.A. Vega Zuniga, X.
    Contreras, T. Rülicke, R. Shigemoto, G. Novarino, M.A. Jösch, (2024).
corr_author: '1'
date_created: 2024-05-13T15:04:04Z
date_published: 2024-05-15T00:00:00Z
date_updated: 2025-09-08T07:57:11Z
day: '15'
ddc:
- '570'
department:
- _id: MaJö
- _id: PreCl
- _id: SiHi
- _id: RySh
- _id: GaNo
doi: 10.15479/AT:ISTA:15385
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keyword:
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title: Shared behavioural impairments in visual perception and place avoidance across
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