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Andy Cox
@DrAndyCox
London, England
Joined February 2015
324 Following
106 Followers
46 Posts
🎉Congrats to our 2025 biomedical scholars and fellows!
These 37 early-career scientists are embarking on innovative research projects in neuroscience, microbiology, cancer research, and more. https://t.co/W5zNjPA0fh
Pluripotent cell states and fates in human embryo models https://t.co/Dfvm1eYi57
Thanks to Berna and Patrick for a great effort
🍭 @DominicaCao, Jenna Bergmann (@bergmann_jenna), and a team in Dr. @BernaSozen_'s lab examined the role of glucose in #gastrulation!
Read the @Nature paper: https://t.co/CE6EDCiOga
Listen to the discussion in our latest episode: https://t.co/NLAAgAMWjl
Really enjoyed contributing to this wonderful journal club series for @NatureRevGenet - thanks for the invitation @LinkoNRG ! #metabolism #development
Who to follow
The Boroviak Lab 
@boroviak_lab
Shaping the future of human stem cell biology. Engineering embryo models. News from our Cambridge labs by Thorsten Boroviak, PhD.
Matteo A. Molè
@matteo_mole
Developmental Biologist, Human Embryo. @StanfordOBGYN, @StanfordStemCell
Liangwen Zhong
@Liangwen_Zhong
ARS @ https://t.co/J2LkRVCy3J, @YaleGenetics, Early Embryogenesis, Pluripotency and Spermatogenesis
🔥🔥🔥 new paper out from our very own @YaleMed A/Prof Berna Sozen lab @BernaSozen_ led by @DominicaCao + @bergmann_jenna shines a light on the role of metabolism in early embryonic development Beautiful work 😍😍 https://t.co/Qt8jNoTynY
📢📢📢 Hot new paper led by our very own @YaleMed A/Profs Nicole Lake @NicoleLake + Monkol Lek @theFourier2k on constraint in the mitochondrial genome. Superb work from a superb team!🤩🤩 https://t.co/0x13BZtsSW
Our latest out today @Nature!
We revisit a century-old theory and show that metabolic gradients work hand-in-hand with genetic&signalling instructions to shape the embryo. Glucose isn't just an energy source, it acts as a major conductor of the body plan🍬
https://t.co/mfx6Hk7nma
In preprints: puzzling together roles for glucose metabolism during gastrulation
Ashley Libby @AshleyLibby12 and Teresa Rayon @t_rayon discuss four recent #preprints on glucose metabolism as a possible signalling axis in the control of gastrulation:
https://t.co/7U7Ku12LKM
I am delighted to share our paper “Modeling Post-Implantation Human Development to Yolk Sac Blood Emergence,” published @Nature – our model a.k.a. heX-Embryoids https://t.co/dNIU2vLfGF
This is exciting!! So glad that quite a few of my own friends are among the pioneers who pushed the boundary to make this happen! Congratulations 🎈🍾🎊 @BernaSozen_ @fu_jianping
our lab website is now live! check it out
https://t.co/vAGwZyS7Ze
Embryoids promise to transform understanding about foetal development and health, but they also raise thorny ethical questions. How should scientists be allowed to use them? https://t.co/0VmsG8i2ox 👇
The red tape around embryonic research has birthed a whole new ethical dilemma. How can scientists navigate this ethical grey area and work out—with public input—how these models should be used? Listen to our “Babbage” podcast: https://t.co/c0TiCe0XeH 👇
Nature research paper: Self-patterning of human stem cells into post-implantation lineages https://t.co/PYHrVxu8RG
Using #pluripotent #stemcells, a research team including @YaleGenetics’ @BernaSozen_ has created a groundbreaking #organoid #model that mimics human embryos to shed new light on early #development. https://t.co/xVLbKbdckV
Congratulations! Interesting system to model interactions between epiblast, endoderm, and amnion tissues as they develop, without trophectoderm or ExEmesoderm. Great to see additional support of the amnion as a signaling center supporting gastrulation and mesoderm formation!
I spoke with @BernaSozen_ about her groundbreaking new stem cell model that will offer an unprecedented look at human embryonic development. Check out my latest story at @YaleMed
@YaleGenetics
https://t.co/jYC0P7YSxP
Elated to share my lab’s first paper just published @Nature
We present a new strategy from a single stem cell type to study events in human development.
After past weeks flurry of excitement on this topic, we hope you’ll enjoy our complementary story too.
https://t.co/844iYjQ7L7
We’re pleased to share our first publication from the Sozen lab, now out @Nature! Through our 3D strategy, we capture spontaneous emb. + exembr. lineage bifurcation to study aspects of early human embryo patterning, starting from a single stem cell type.
https://t.co/X6Vk6YrE2m
#ISSCR releases a statement on embryo models derived from human pluripotent stem cells.👇
https://t.co/am0k5Eowyu #stemcells #pluripotent
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