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Latest revision as of 16:10, 8 September 2023

News - Complete human day 14 post-implantation embryo models from naïve Embryonic Stem Cells

Carnegie Stage 6 Embryo

This recent Nature paper^[1] describes the use of naïve human Embryonic Stem Cells to recapitulate the early stages of human development.

"The ability to study human post-implantation development remains limited due to ethical and technical challenges associated with intrauterine development after implantation....only genetically unmodified human naïve human ES cells...recapitulate the organization of nearly all known lineages and compartments of post-implantation human embryos including epiblast, hypoblast, extra-embryonic mesoderm, and trophoblast surrounding the latter layers...These human complete SEMs demonstrated developmental growth dynamics that resemble key hallmarks of post-implantation stage embryogenesis up to 13-14 days post-fertilization (dpf) (Carnegie stage 6a)."

Links: stem cells | Carnegie stage 6

↑ Oldak B, Wildschutz E, Bondarenko V, Comar MY, Zhao C, Aguilera-Castrejon A, Tarazi S, Viukov S, Pham TXA, Ashouokhi S, Lokshtanov D, Roncato F, Ariel E, Rose M, Livnat N, Shani T, Joubran C, Cohen R, Addadi Y, Chemla M, Kedmi M, Keren-Shaul H, Pasque V, Petropoulos S, Lanner F, Novershtern N & Hanna JH. (2023). Complete human day 14 post-implantation embryo models from naïve ES cells. Nature , , . PMID: 37673118 DOI.

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[PMID37673118-1] Oldak B, Wildschutz E, Bondarenko V, Comar MY, Zhao C, Aguilera-Castrejon A, Tarazi S, Viukov S, Pham TXA, Ashouokhi S, Lokshtanov D, Roncato F, Ariel E, Rose M, Livnat N, Shani T, Joubran C, Cohen R, Addadi Y, Chemla M, Kedmi M, Keren-Shaul H, Pasque V, Petropoulos S, Lanner F, Novershtern N & Hanna JH. (2023). Complete human day 14 post-implantation embryo models from naïve ES cells. Nature , , . PMID: 37673118 DOI.

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-| <span style="font-size:150%">'''News - Malaria'''</span>
+| <span style="font-size:150%">'''News - Complete human day 14 post-implantation embryo models from naïve Embryonic Stem Cells'''</span>
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-| valign=top|[[File:Mouse E18 neurovasculature MicroCT.jpg|700px|alt=Mouse E18 neurovasculature MicroCT|link=Abnormal Development - Malaria]]
+| valign=top|[[File:Stage6 bf03.jpg|thumb|150px|alt=Carnegie Stage 6 Embryo|Carnegie Stage 6 Embryo]]
+This recent Nature paper{{#pmid:37673118|PMID37673118}} describes the use of naïve human Embryonic Stem Cells to recapitulate the early stages of human development.
+"The ability to study human post-implantation development remains limited due to ethical and technical challenges associated with intrauterine development after implantation....only genetically unmodified human naïve human ES cells...recapitulate the organization of nearly all known lineages and compartments of post-implantation human embryos including epiblast, hypoblast, extra-embryonic mesoderm, and trophoblast surrounding the latter layers...These human complete SEMs demonstrated developmental growth dynamics that resemble key hallmarks of post-implantation stage embryogenesis up to 13-14 days post-fertilization (dpf) (Carnegie stage 6a)."
+:'''Links:''' {{stem cells}} | Carnegie stage {{CS6}}
+<references/>
+{| class="wikitable mw-collapsible mw-collapsed"
+! Older News Articles &nbsp;
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-| [[File:Malaria plasmodium falciparum.jpg|150px|left|link=Abnormal Development - Malaria]][[Abnormal Development - Malaria|'''Malaria''']] (''plasmodium falciparum'')
+| [[Template_talk:Main_Page_News|'''Older News Articles''']] - [[Template_talk:Main_Page_News#January|Climate Change Abnormal Development]] | [[Template_talk:Main_Page_News#December|Air Pollution]] | [[Template_talk:Main_Page_News#February|Rare Sesquizygotic Twinning]] | [[Template_talk:Main_Page_News#June|Australia's mothers and babies 2017]] | [[Template_talk:Main_Page_News#October|Spinal Muscular Atrophy Screening]] | [[Template_talk:Main_Page_News#February|Australian 2018 Pregnancy Care Guidelines]] | [[Template_talk:Main_Page_News#July|CRISPR]] | [[Template_talk:Main_Page_News#June|Ronan O’Rahilly]]
-* '''Nobel Prize in Medicine 2015''' - was divided, one half to Youyou Tu "''for her discoveries concerning a novel therapy against Malaria''" and the other half jointly to William C. Campbell and Satoshi Ōmura "''for their discoveries concerning a novel therapy against infections caused by roundworm parasites''" (More? [http://www.nobelprize.org/nobel_prizes/medicine/laureates/2015/ Nobel Prize in Physiology or Medicine 2015] | PMID 22059236)
+|}
-* '''Maternal Malaria Neurovascular Development Effects''' - 125 million pregnancies worldwide are at risk of malaria infection every year. A recent mouse model of maternal infection, without embryo infection, has shown effects on neurovasular development in the exposed offspring. (More? PMID 26402732 | [[Abnormal Development - Malaria]] | [[Neural System Development|Neural]] | [[Cardiovascular System Development|Cardiovascular]])
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-:[[Template_talk:Main_Page_News|Older News Articles]] - [[Template_talk:Main_Page_News#June|Oocyte/Spermatozoa fate decision]] [[Template_talk:Main_Page_News#April|Rubella eliminated in the Americas]] | [[Template_talk:Main_Page_News#February|Three-person embryos]] | 2014 Nobel Prize in Medicine -  [http://www.nobelprize.org/nobel_prizes/medicine/laureates/2014/press.html Neural Development] | [[Neural_-_Hippocampus_Development|Hippocampus Development]] | WHO - Trends in Maternal Mortality 1990 to 2013 - [[Statistics - Maternal Mortality]] | WHO polio - [[Abnormal Development - Polio Virus|Polio Virus]] | [[Template_talk:Main_Page_News#March|Trisomy 21 - Genome-wide Effects]]
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