As a simple system to study developmental rate, we used the pluripotent stem cell-based models of the mouse and human segmentation clock that we published last year [6/13] https://t.co/0EK2GJM4Sl
Big 1st day of the conference! Started by a somitogenesis masterclass from @MDiazCuadros and @PourquieOlivier from decades of embryology to the precise engineering of the in vitro human segmentation clock https://t.co/GMt8l3ohtm. 1/2
RT @cientificospe: El reloj de segmentación humano no puede ser observado directamente por motivos éticos, sin embargo Margarete desarrolló…
RT @cientificospe: El reloj de segmentación humano no puede ser observado directamente por motivos éticos, sin embargo Margarete desarrolló…
RT @cientificospe: El reloj de segmentación humano no puede ser observado directamente por motivos éticos, sin embargo Margarete desarrolló…
RT @cientificospe: El reloj de segmentación humano no puede ser observado directamente por motivos éticos, sin embargo Margarete desarrolló…
El reloj de segmentación humano no puede ser observado directamente por motivos éticos, sin embargo Margarete desarrolló un modelo basado en células madre que permite estudiar por primera vez el reloj humano. https://t.co/KSHu4mnrsR
RT @_JSDB_: 2020年前半は、体節振動に関する重要な論文がNatureに続けて発表されました。京都大学影山グループは隣接する細胞間の同期性の分子機構を明らかにしました。 https://t.co/A7qvtGbojC
RT @_JSDB_: 2020年前半は、体節振動に関する重要な論文がNatureに続けて発表されました。京都大学影山グループは隣接する細胞間の同期性の分子機構を明らかにしました。 https://t.co/A7qvtGbojC
RT @_JSDB_: 2020年前半は、体節振動に関する重要な論文がNatureに続けて発表されました。京都大学影山グループは隣接する細胞間の同期性の分子機構を明らかにしました。 https://t.co/A7qvtGbojC
urlが入れ替わってました。関係各位にお詫びします。正しくは、影山グループ論文→ https://t.co/4yyoecyQed Alev/戎家グループ論文→ https://t.co/2AwlsyjsvF Pourquiéグループ論文→ https://t.co/A7qvtGbojC
RT @_JSDB_: 2020年前半は、体節振動に関する重要な論文がNatureに続けて発表されました。京都大学影山グループは隣接する細胞間の同期性の分子機構を明らかにしました。 https://t.co/A7qvtGbojC
2020年前半は、体節振動に関する重要な論文がNatureに続けて発表されました。京都大学影山グループは隣接する細胞間の同期性の分子機構を明らかにしました。 https://t.co/A7qvtGbojC
In vitro characterization of the human segmentation clock. https://t.co/XvfOIpcxee https://t.co/6vOF04LZn1
Kumiko @KobayashiKumiko is also a co-author on the excellent and inspiring in vitro segmentation clock paper of Olivier @OlivierPourquie & Margaret @MDiazCuadros https://t.co/gHdEHrM8Su
RT @EbisuyaMiki: Similar induction protocols and recapitulation of the human segmentation clock have recently been reported by James Thomso…
Similar induction protocols and recapitulation of the human segmentation clock have recently been reported by James Thomson's group and @PourquieOlivier's group. https://t.co/EBmmQXdxJ5 https://t.co/sv6RQzAP2w 10/
@joachimgoedhart @der_bri maybe Achilles is an option? rapid folding, rapid degrad. But relatively new player, so not as well characterized as other FPs. see https://t.co/P7D6005NwK
Human developmental biology: Investigators reproduce the steps of vertebrae development in a dish, leading to a clearer understanding of human developmental biology. https://t.co/s78erfjTwu
Human developmental biology: Investigators reproduce the steps of vertebrae development in a dish, leading to a clearer understanding of human developmental biology. https://t.co/rAQp6xJaA0
Human developmental biology: Investigators reproduce the steps of vertebrae development in a dish, leading to a clearer understanding of human developmental biology. https://t.co/kDTyXiOWUC
Human developmental biology: Investigators reproduce the steps of vertebrae development in a dish, leading to a clearer understanding of human developmental biology. https://t.co/KYQH5MPwb2
Human developmental biology: Investigators reproduce the steps of vertebrae development in a dish, leading to a clearer understanding of human developmental biology. https://t.co/bEMCzqE6PX
Human developmental biology: Investigators reproduce the steps of vertebrae development in a dish, leading to a clearer understanding of human developmental biology. https://t.co/M2M71LPb0n
Human developmental biology: Investigators reproduce the steps of vertebrae development in a dish, leading to a clearer understanding of human developmental biology. https://t.co/TofDkXFw2z
Human developmental biology: Investigators reproduce the steps of vertebrae development in a dish, leading to a clearer understanding of human developmental biology. https://t.co/Vwzjkr0jeJ
Human developmental biology: Investigators reproduce the steps of vertebrae development in a dish, leading to a clearer understanding of human developmental biology. https://t.co/TAiETOQjLL
Human developmental biology: Investigators reproduce the steps of vertebrae development in a dish, leading to a clearer understanding of human developmental biology. https://t.co/AMBcuWRv9c
Human developmental biology: Investigators reproduce the steps of vertebrae development in a dish, leading to a clearer understanding of human developmental biology. https://t.co/lfsN9cmh7h
Investigators reproduce the steps of vertebrae development in a dish, leading to a clearer understanding of human developmental biology. https://t.co/c6BtRNUgpV
Investigators reproduce the steps of vertebrae development in a dish, leading to a clearer understanding of human developmental biology. https://t.co/XJireVnFXB
So, this is cool. Somite formation data from human patient cells “Human PSM cells oscillate with a period two times longer than that of mouse cells (5 h versus 2.5 h), but are similarly regulated by FGF, WNT, Notch and YAP signalling” https://t.co/mVpcYHD
Investigators reproduce the steps of vertebrae development in a dish, leading to a clearer understanding of human developmental biology. https://t.co/LaBvaQtJB2
Investigators reproduce the steps of vertebrae development in a dish, leading to a clearer understanding of human developmental biology. https://t.co/M7MiejblvU
In vitro characterization of the human segmentation clock. https://t.co/IykJRcgr9m https://t.co/BcHA9WkyRn
RT @nature: Researchers developed a model in a dish to reproduce the molecular steps that lead to the formation of the human spine, allowin…
RT @nature: Researchers developed a model in a dish to reproduce the molecular steps that lead to the formation of the human spine, allowin…
RT @moorejh: In vitro characterization of the human segmentation clock https://t.co/Si4AIhLQ10 #chronobiology #biology #development #cell…
In vitro characterization of the human segmentation clock https://t.co/Si4AIhLQ10 #chronobiology #biology #development #cellbiology https://t.co/gAuOLt297B
RT @nature: Researchers developed a model in a dish to reproduce the molecular steps that lead to the formation of the human spine, allowin…
RT @briscoejames: Beautiful work from @PourquieOlivier & co characterising the human segmentation clock using human ESCs: https://t.co/VLS…
Beautiful work from @PourquieOlivier & co characterising the human segmentation clock using human ESCs: https://t.co/VLSgKvI1K0 And if you want to know why it’s 2x slower than the mouse clock, check out @EbisuyaMiki & co’s preprint: https://t.co
Cellular clock regulating human spine development: https://t.co/IykJRcgr9m https://t.co/AEReI6jDlf
RT @nature: Researchers developed a model in a dish to reproduce the molecular steps that lead to the formation of the human spine, allowin…
RT @nature: Researchers developed a model in a dish to reproduce the molecular steps that lead to the formation of the human spine, allowin…
RT @nature: Researchers developed a model in a dish to reproduce the molecular steps that lead to the formation of the human spine, allowin…
RT @nature: Researchers developed a model in a dish to reproduce the molecular steps that lead to the formation of the human spine, allowin…
RT @nature: Researchers developed a model in a dish to reproduce the molecular steps that lead to the formation of the human spine, allowin…
RT @nature: Researchers developed a model in a dish to reproduce the molecular steps that lead to the formation of the human spine, allowin…
RT @nature: Researchers developed a model in a dish to reproduce the molecular steps that lead to the formation of the human spine, allowin…
RT @nature: Researchers developed a model in a dish to reproduce the molecular steps that lead to the formation of the human spine, allowin…
RT @nature: Researchers developed a model in a dish to reproduce the molecular steps that lead to the formation of the human spine, allowin…
RT @nature: Researchers developed a model in a dish to reproduce the molecular steps that lead to the formation of the human spine, allowin…
RT @nature: Researchers developed a model in a dish to reproduce the molecular steps that lead to the formation of the human spine, allowin…
RT @nature: Researchers developed a model in a dish to reproduce the molecular steps that lead to the formation of the human spine, allowin…
RT @nature: Researchers developed a model in a dish to reproduce the molecular steps that lead to the formation of the human spine, allowin…
RT @nature: Researchers developed a model in a dish to reproduce the molecular steps that lead to the formation of the human spine, allowin…
RT @nature: Researchers developed a model in a dish to reproduce the molecular steps that lead to the formation of the human spine, allowin…
RT @nature: Researchers developed a model in a dish to reproduce the molecular steps that lead to the formation of the human spine, allowin…
Researchers developed a model in a dish to reproduce the molecular steps that lead to the formation of the human spine, allowing them to study what makes the human segmentation clock tick, according to a Nature paper. https://t.co/vkuTdQsfnq https://t.co/U
RT @DeepakNModi: The vertebral column has to undergo segmentation. In this study @PourquieOlivier and his team show how this is regulated i…
@JindraBrejcha @yoginho I second Kondo's models. This one looks great but I didn't get the chance to scrutinize it yet: https://t.co/v2ek3YaeMw
In vitro characterization of the human segmentation clock. https://t.co/6OyYzNKAbs
Wonderful news!! Congrats @PourquieOlivier and @MDiazCuadros and all other co-authors & collaborators on this landmark study!! I learned so much and thoroughly enjoyed working with you all.
. @PourquieOlivier and team at @harvardstemcell, @BrighamWomens and @harvardmed have developed a new #stemcell model of human #spinal development that enables further investigation of the underlying segmentation clock. https://t.co/rxhmaXQUZK https://t.co/
In @nature: Investigators reproduce the steps of vertebrae development in a dish, leading to a clearer understanding of human developmental biology https://t.co/SUDnw3FWCi
RT @DeepakNModi: The vertebral column has to undergo segmentation. In this study @PourquieOlivier and his team show how this is regulated i…
RT @ScienceStowers: New work out from Olivier Pourquie, PhD, one of the keynote speakers at the upcoming SRC Developmental Cell Biology mee…
New work out from Olivier Pourquie, PhD, one of the keynote speakers at the upcoming SRC Developmental Cell Biology meeting. Don't miss his talk, or the other two keynote lectures--register now: https://t.co/ZgYBmzfXe8 #SRCDB2020 #devbio
In vitro characterization of the human segmentation clock. https://t.co/ff08eHUhGZ
In vitro characterization of the human segmentation clock.: In vitro characterization of the human segmentation clock. Nature. 2020 Jan 08;: Authors: Diaz-Cuadros M, Wagner DE, Budjan C, Hubaud A, Tarazona OA, Donelly S, Michaut A, Al Tanoury Z,… https://t
RT @DeepakNModi: The vertebral column has to undergo segmentation. In this study @PourquieOlivier and his team show how this is regulated i…
👏👏👏👏👏
Wow beautiful
RT @DeepakNModi: The vertebral column has to undergo segmentation. In this study @PourquieOlivier and his team show how this is regulated i…
RT @MDiazCuadros: So happy that my very first first-author paper is now published! In vitro models of the mouse and human segmentation cloc…
RT @josh_brickman: Nice to see this work finally see the light of day complete with species specific timing...look forward to hearing more…
RT @PourquieOlivier: Our paper on the human segmentation clock is out! 10 years in the making! Amazing work from my great PhD student Marga…
Uau!
RT @CircadianClocks: In vitro characterization of the human segmentation clock | Nature https://t.co/XIJ2ss3H5s
In vitro characterization of the human segmentation clock | Nature https://t.co/XIJ2ss3H5s
Human and mice #iPSCells can modeI the segmentation clock that control somite formation. Impressive work by the team of @PourquieOlivier In vitro characterization of the human segmentation clock https://t.co/oDIKklerTd https://t.co/w3Slayba92
Segmentation clock in human has now been deciphered! Congratulations! Great work from @PourquieOlivier lab
RT @PourquieOlivier: Our paper on the human segmentation clock is out! 10 years in the making! Amazing work from my great PhD student Marga…
RT @PourquieOlivier: Our paper on the human segmentation clock is out! 10 years in the making! Amazing work from my great PhD student Marga…
The vertebral column has to undergo segmentation. In this study @PourquieOlivier and his team show how this is regulated in humans. An important milestone in understanding human development. https://t.co/EAiOtO35Ce
RT @benoitbruneau: human segmentation clock! Awesome work @PourquieOlivier et al! https://t.co/xviEru2BuQ
Nice to see this work finally see the light of day complete with species specific timing...look forward to hearing more about it @cphbioconf stem cell niche meeting - https://t.co/TrYn2z18Od
RT @recherche_anima: #Embryogénèse👶: on a pu identifier #invitro🧫 l'horloge de segmentation de la colonne vertébrale chez l'embryon humain…
RT @PourquieOlivier: Our paper on the human segmentation clock is out! 10 years in the making! Amazing work from my great PhD student Marga…
Anyone looking for #Development #JournalClub ideas? @dave_matus @Martin_Lab_SBU @m_a_q_martinez @radikes @TMedwigKinney @JayJavSmith
#Embryogénèse👶: on a pu identifier #invitro🧫 l'horloge de segmentation de la colonne vertébrale chez l'embryon humain et la comparer à celle de la #souris🐁. Sa période est de 5 heures contre 2,5 heures pour la souris https://t.co/2AS7o2WaE4 https://t.co/Ke
RT @PourquieOlivier: Our paper on the human segmentation clock is out! 10 years in the making! Amazing work from my great PhD student Marga…
RT @MDiazCuadros: So happy that my very first first-author paper is now published! In vitro models of the mouse and human segmentation cloc…
RT @PourquieOlivier: Our paper on the human segmentation clock is out! 10 years in the making! Amazing work from my great PhD student Marga…
RT @PourquieOlivier: Our paper on the human segmentation clock is out! 10 years in the making! Amazing work from my great PhD student Marga…
RT @PourquieOlivier: Our paper on the human segmentation clock is out! 10 years in the making! Amazing work from my great PhD student Marga…