Berta Alsina lab's Avatar

Berta Alsina lab

@bertaalsinalab.bsky.social

Researcher and professor interested in how organs are formed. Neurobiology, morphogenesis, zebrafish and more. Working at UPF

322 Followers  |  367 Following  |  8 Posts  |  Joined: 21.11.2024  |  1.3861

Latest posts by bertaalsinalab.bsky.social on Bluesky

Em rendeixo a la Rosalia. Lux és un luxe simfònic❤️

07.11.2025 19:44 — 👍 1    🔁 0    💬 0    📌 0

I have two open positions @ALMU @crg.eu:

1. Imaging Scientist (permanent position. Deadline 11th Nov.) recruitment.crg.eu/content/jobs...

2. Entry-Level Imaging Scientist (12 months fixed-term position. Deadline 18th Nov.) recruitment.crg.eu/content/jobs...

Reposts appreciated.

03.11.2025 14:01 — 👍 5    🔁 11    💬 0    📌 0
Integrating Systems Biology: From Networks to Mechanisms to Models

The EMBO meeting on Organoids is impressive! Great speakers, great questions, great models, great advances! #EESOrgan

23.10.2025 16:16 — 👍 1    🔁 0    💬 0    📌 0
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Tribute to Alfonso Martinez Arias @amartinezarias.bsky.social by @cristinapujades.bsky.social at the meeting Of Cells and Embryos (
eventum.upf.edu/125712/progr...) with spectacular speakers.

19.09.2025 10:52 — 👍 1    🔁 0    💬 0    📌 0
Preview
Group Leader - Genome Biology Unit Are you ready to lead groundbreaking research in Genome Biology? Join us at EMBL! We are seeking a motivated scientist to lead an independent research group addressing exciting and original biological...

To all post-docs: The Genome Biology dept ‪@embl.org
has an Independent faculty position. Fantastic place to set up your lab –great package: core funding, fantastic Ph.D. students, cutting edge core facilities & great colleagues. Closing date Sept 19th
embl.wd103.myworkdayjobs.com/en-US/EMBL/j...

30.07.2025 13:41 — 👍 192    🔁 226    💬 0    📌 9

🚨🚨🚨

Please RT!

We're looking for a postdoc to join an exciting joint project between our lab @upf.edu & @crg.eu (Barcelona) and the Sander lab @mdc-berlin.bsky.social (Berlin) investigating how alternative splicing and microexons influences the maturation of pancreatic islets.

Deadline: 30/09/25👇

23.07.2025 14:27 — 👍 48    🔁 65    💬 1    📌 3
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📢 We are seeking a Head of the Human Brain Organoid Core Facility as part of our Severo Ochoa Centre of Excellence 2023–2026 program.
This is a prestigious leadership opportunity in advanced neuroscience research! 👇
in.umh-csic.es/es/ofertas/t...
@csic.es @umh.es @sommalliance.bsky.social

14.07.2025 11:59 — 👍 3    🔁 2    💬 0    📌 0
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First poster presentation from Maria Eleni Mavrogeni on the training school of ITN Provide on Vestibular disorders

21.05.2025 13:22 — 👍 0    🔁 0    💬 0    📌 0

Muchas felicidades!!!

07.05.2025 15:58 — 👍 1    🔁 0    💬 1    📌 0
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First informal meeting of spanish zebrafish PIs. Goals: create a strong spanish zf community, share protocols, lines, discuss science and more...

14.01.2025 16:48 — 👍 5    🔁 0    💬 0    📌 1
Preview
Departament | Facultat de Medicina i Ciències de la Vida - Ofertes de treball

Here a correct link
www.upf.edu/ca/web/biome...

29.12.2024 09:46 — 👍 2    🔁 0    💬 0    📌 0

Our department at UPF is hiring!

We are looking for two excellent early career candidates to join #MELISupf as Junior Group Leaders in Computational Biology, and in Quantitative Biology
More information and application links: upf.edu/web/biomed/job…
Deadline: 28 Jan 2025

28.12.2024 07:15 — 👍 8    🔁 11    💬 2    📌 0
Figure 1 Anatomy of the human inner ear. Schematic representation of the adult human inner ear. The organ has two main domains: the vestibular apparatus and the cochlea. The five vestibular sensory epithelia are depicted in red: anterior crista (AC); lateral crista (LC); posterior crista (PC); utricle (UM); and saccule (SM). The sensory epithelia (christa ampullaris and organ of Corti) are depicted in detail. The main components of the sensory epithelia are the hair cells surrounded by supporting crista. Afferent bipolar neurons (shown as nerve fibres) innervate the hair cells. Partially created in BioRender. Rumbo, M. (2024) BioRender.com/i04n369

Figure 1 Anatomy of the human inner ear. Schematic representation of the adult human inner ear. The organ has two main domains: the vestibular apparatus and the cochlea. The five vestibular sensory epithelia are depicted in red: anterior crista (AC); lateral crista (LC); posterior crista (PC); utricle (UM); and saccule (SM). The sensory epithelia (christa ampullaris and organ of Corti) are depicted in detail. The main components of the sensory epithelia are the hair cells surrounded by supporting crista. Afferent bipolar neurons (shown as nerve fibres) innervate the hair cells. Partially created in BioRender. Rumbo, M. (2024) BioRender.com/i04n369

Cellular diversity of human inner ear organoids revealed by single-cell transcriptomics

Read this Spotlight from Mireia Rumbo & Berta Alsina @bertaalsinalab.bsky.social:

https://doi.org/10.1242/dev.202524

08.12.2024 09:51 — 👍 8    🔁 3    💬 0    📌 0

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