@pastorparejalab.bsky.social
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reposted by
Nature Reviews Molecular Cell Biology
1 day ago
New Online! Towards a unified framework for the function of endoplasmic reticulum exit sites
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Towards a unified framework for the function of endoplasmic reticulum exit sites
Nature Reviews Molecular Cell Biology, Published online: 29 September 2025; doi:10.1038/s41580-025-00899-0Endoplasmic reticulum exit sites (ERES) are specialized ER subdomains that regulate the export of secreted cargo. This Roadmap explores how ERES integrate biochemical and mechanical signals to coordinate trafficking and proposes a multidisciplinary strategy to investigate their function, including in disease.
https://bit.ly/4nRmf9B
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reposted by
Instituto de Neurociencias CSIC-UMH
1 day ago
馃 More than 750 scientists from 40+ countries gathered in Alicante for the XXVIII European Drosophila Research Conference
#EDRC2025
. For 4 days, the fruit fly took center stage as a model to study health, aging, and disease馃憦
@edrc2025.bsky.social
@csic.es
@dicv.csic.es
@umh.es
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reposted by
EDRC2025
4 days ago
This is the organizing team behind
#EDRC2025
Mar铆a Dominguez, Javier Morante
@morantelab.bsky.social
, Juan Sanchez-Alcaniz
@sanchezalcaniz.bsky.social
, Pepe Pastor-Pareja
@pastorparejalab.bsky.social
and Ana Carmena
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reposted by
Science X / Phys.org
4 months ago
New findings detail how internal cellular connections and extracellular matrix remodeling shape the fly haltere, a key organ for flight stability, offering broader insights into organ development.
doi.org/g9qbxm
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How flies grow their gyroscopes: Study reveals how flight stabilizers take shape
A team from the Institute for Neurosciences (IN), a joint center of the Spanish National Research Council (CSIC) and the Miguel Hern谩ndez University (UMH) in Elche, has revealed how a structure essential for fly flight, the haltere, is formed.
https://phys.org/news/2025-06-flies-gyroscopes-reveals-flight-stabilizers.html?utm_source=bsky.app&utm_medium=social&utm_campaign=v2
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reposted by
Ara煤jo Lab
4 months ago
Great story from
@pastorparejalab.bsky.social
@incuab.bsky.social
on how the
#Drosophila
haltere gets its shape!
#morphogenesis
#tissuearchitecture
#cytoskeleton
add a skeleton here at some point
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reposted by
CSIC
4 months ago
馃懇鈥嶐煍琔n estudio de聽
@neuroalc.bsky.social
聽descubre c贸mo se genera el ala que permite a las moscas estabilizarse en el aire 馃敩El halterio es un 贸rgano que act煤a como un giroscopio biol贸gico聽 馃El trabajo aporta nuevas ideas sobre c贸mo se forman los 贸rganos en animales 馃憠
http://tiny.cc/5jqm001
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reposted by
Instituto de Neurociencias CSIC-UMH
4 months ago
馃敟A new study led by Pastor Pareja at
@neuroalc.bsky.social
is now published on
@currentbiology.bsky.social
馃檶 Researchers have uncovered how the haltere, the flight stabilizer in flies, is shaped 馃 More info 馃憞
in.umh-csic.es/en/articulos...
@csic.es
@dicv.csic.es
@umh.es
@cellpress.bsky.social
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reposted by
Drosophila Spain
4 months ago
A new study led by
#DrosoSpain
researcher Jose Pastor-Pareja at
@neuroalc.bsky.social
is now published on
@currentbiology.bsky.social
In this work the authors have uncovered how the haltere, the flight stabilizer in flies, is shaped 馃憞馃徎馃憞馃徎馃憞馃徎
doi.org/10.1016/j.cu...
youtu.be/2YA-UcFqtbo?...
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Descubren c贸mo se moldea el halterio, el estabilizador de vuelo de las moscas
YouTube video by INSTITUTO DE NEUROCIENCIAS UMH-CSIC
https://youtu.be/2YA-UcFqtbo?feature=shared
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reposted by
SEBD
4 months ago
#SEBD
member Jos茅 Pastor-Pareja research group has published a new article in
@currentbiology.bsky.social
馃憞馃徎馃憞馃徎馃憞馃徎
add a skeleton here at some point
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