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The quest for pluripotency: a comparative analysis across mammalian species
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Zeitschriftentitel: | Reproduction |
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Personen und Körperschaften: | , , , |
In: | Reproduction, 2019 |
Format: | E-Article |
Sprache: | Unbestimmt |
veröffentlicht: |
Bioscientifica
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Schlagwörter: |
author_facet |
Devika, A. S. Wruck, Wasco Adjaye, James Sudheer, Smita Devika, A. S. Wruck, Wasco Adjaye, James Sudheer, Smita |
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author |
Devika, A. S. Wruck, Wasco Adjaye, James Sudheer, Smita |
spellingShingle |
Devika, A. S. Wruck, Wasco Adjaye, James Sudheer, Smita Reproduction The quest for pluripotency: a comparative analysis across mammalian species Cell Biology Obstetrics and Gynecology Endocrinology Embryology Reproductive Medicine |
author_sort |
devika, a. s. |
spelling |
Devika, A. S. Wruck, Wasco Adjaye, James Sudheer, Smita 1470-1626 1741-7899 Bioscientifica Cell Biology Obstetrics and Gynecology Endocrinology Embryology Reproductive Medicine http://dx.doi.org/10.1530/rep-18-0083 <jats:p>Pluripotency is the developmental potential of a cell to give rise to all the cells in the three embryonic germ layers, including germline cells. Pluripotent Stem cells (PSCs) can be embryonic, germ cell or somatic cell in origin and can adopt alternative states of pluripotency: naïve or primed. Although several reports have described the differentiation of PSCs to extra-embryonic lineages, such as primitive endoderm and trophectoderm, this is still debated among scientists in the field. In this review, we integrate the recent findings on pluripotency among mammals, alternative states of pluripotency, signaling pathways associated with maintaining pluripotency and the nature of PSCs derived from various mammals. PSCs from humans and mouse have been the most extensively studied. In other mammalian species, more research is required for understanding the optimum in vitro conditions required for either achieving pluripotency or preservation of distinct pluripotent states. A comparative high-throughput analysis of PSCs of genes expressed in naïve or primed states of humans, non-human primates (NHP) and rodents, based on publicly available data-sets revealed the probable prominence of seven signaling pathways common among these species, irrespective of the states of pluripotency. We conclude by highlighting some of the unresolved questions and future directions of research on pluripotency in mammals.</jats:p> The quest for pluripotency: a comparative analysis across mammalian species Reproduction |
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title |
The quest for pluripotency: a comparative analysis across mammalian species |
title_unstemmed |
The quest for pluripotency: a comparative analysis across mammalian species |
title_full |
The quest for pluripotency: a comparative analysis across mammalian species |
title_fullStr |
The quest for pluripotency: a comparative analysis across mammalian species |
title_full_unstemmed |
The quest for pluripotency: a comparative analysis across mammalian species |
title_short |
The quest for pluripotency: a comparative analysis across mammalian species |
title_sort |
the quest for pluripotency: a comparative analysis across mammalian species |
topic |
Cell Biology Obstetrics and Gynecology Endocrinology Embryology Reproductive Medicine |
url |
http://dx.doi.org/10.1530/rep-18-0083 |
publishDate |
2019 |
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|
description |
<jats:p>Pluripotency is the developmental potential of a cell to give rise to all the cells in the three embryonic germ layers, including germline cells. Pluripotent Stem cells (PSCs) can be embryonic, germ cell or somatic cell in origin and can adopt alternative states of pluripotency: naïve or primed. Although several reports have described the differentiation of PSCs to extra-embryonic lineages, such as primitive endoderm and trophectoderm, this is still debated among scientists in the field. In this review, we integrate the recent findings on pluripotency among mammals, alternative states of pluripotency, signaling pathways associated with maintaining pluripotency and the nature of PSCs derived from various mammals. PSCs from humans and mouse have been the most extensively studied. In other mammalian species, more research is required for understanding the optimum in vitro conditions required for either achieving pluripotency or preservation of distinct pluripotent states. A comparative high-throughput analysis of PSCs of genes expressed in naïve or primed states of humans, non-human primates (NHP) and rodents, based on publicly available data-sets revealed the probable prominence of seven signaling pathways common among these species, irrespective of the states of pluripotency. We conclude by highlighting some of the unresolved questions and future directions of research on pluripotency in mammals.</jats:p> |
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author | Devika, A. S., Wruck, Wasco, Adjaye, James, Sudheer, Smita |
author_facet | Devika, A. S., Wruck, Wasco, Adjaye, James, Sudheer, Smita, Devika, A. S., Wruck, Wasco, Adjaye, James, Sudheer, Smita |
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description | <jats:p>Pluripotency is the developmental potential of a cell to give rise to all the cells in the three embryonic germ layers, including germline cells. Pluripotent Stem cells (PSCs) can be embryonic, germ cell or somatic cell in origin and can adopt alternative states of pluripotency: naïve or primed. Although several reports have described the differentiation of PSCs to extra-embryonic lineages, such as primitive endoderm and trophectoderm, this is still debated among scientists in the field. In this review, we integrate the recent findings on pluripotency among mammals, alternative states of pluripotency, signaling pathways associated with maintaining pluripotency and the nature of PSCs derived from various mammals. PSCs from humans and mouse have been the most extensively studied. In other mammalian species, more research is required for understanding the optimum in vitro conditions required for either achieving pluripotency or preservation of distinct pluripotent states. A comparative high-throughput analysis of PSCs of genes expressed in naïve or primed states of humans, non-human primates (NHP) and rodents, based on publicly available data-sets revealed the probable prominence of seven signaling pathways common among these species, irrespective of the states of pluripotency. We conclude by highlighting some of the unresolved questions and future directions of research on pluripotency in mammals.</jats:p> |
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spelling | Devika, A. S. Wruck, Wasco Adjaye, James Sudheer, Smita 1470-1626 1741-7899 Bioscientifica Cell Biology Obstetrics and Gynecology Endocrinology Embryology Reproductive Medicine http://dx.doi.org/10.1530/rep-18-0083 <jats:p>Pluripotency is the developmental potential of a cell to give rise to all the cells in the three embryonic germ layers, including germline cells. Pluripotent Stem cells (PSCs) can be embryonic, germ cell or somatic cell in origin and can adopt alternative states of pluripotency: naïve or primed. Although several reports have described the differentiation of PSCs to extra-embryonic lineages, such as primitive endoderm and trophectoderm, this is still debated among scientists in the field. In this review, we integrate the recent findings on pluripotency among mammals, alternative states of pluripotency, signaling pathways associated with maintaining pluripotency and the nature of PSCs derived from various mammals. PSCs from humans and mouse have been the most extensively studied. In other mammalian species, more research is required for understanding the optimum in vitro conditions required for either achieving pluripotency or preservation of distinct pluripotent states. A comparative high-throughput analysis of PSCs of genes expressed in naïve or primed states of humans, non-human primates (NHP) and rodents, based on publicly available data-sets revealed the probable prominence of seven signaling pathways common among these species, irrespective of the states of pluripotency. We conclude by highlighting some of the unresolved questions and future directions of research on pluripotency in mammals.</jats:p> The quest for pluripotency: a comparative analysis across mammalian species Reproduction |
spellingShingle | Devika, A. S., Wruck, Wasco, Adjaye, James, Sudheer, Smita, Reproduction, The quest for pluripotency: a comparative analysis across mammalian species, Cell Biology, Obstetrics and Gynecology, Endocrinology, Embryology, Reproductive Medicine |
title | The quest for pluripotency: a comparative analysis across mammalian species |
title_full | The quest for pluripotency: a comparative analysis across mammalian species |
title_fullStr | The quest for pluripotency: a comparative analysis across mammalian species |
title_full_unstemmed | The quest for pluripotency: a comparative analysis across mammalian species |
title_short | The quest for pluripotency: a comparative analysis across mammalian species |
title_sort | the quest for pluripotency: a comparative analysis across mammalian species |
title_unstemmed | The quest for pluripotency: a comparative analysis across mammalian species |
topic | Cell Biology, Obstetrics and Gynecology, Endocrinology, Embryology, Reproductive Medicine |
url | http://dx.doi.org/10.1530/rep-18-0083 |