date: 2021-08-05T09:54:21Z
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pdf:docinfo:title: Molecular Regulation of Paused Pluripotency in Early Mammalian Embryos and Stem Cells
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subject: The energetically costly mammalian investment in gestation and lactation requires plentiful nutritional sources and thus links the environmental conditions to reproductive success.
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dc:title: Molecular Regulation of Paused Pluripotency in Early Mammalian Embryos and Stem Cells
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cp:subject: The energetically costly mammalian investment in gestation and lactation requires plentiful nutritional sources and thus links the environmental conditions to reproductive success.
pdf:docinfo:subject: The energetically costly mammalian investment in gestation and lactation requires plentiful nutritional sources and thus links the environmental conditions to reproductive success.
pdf:docinfo:creator: Aydan Bulut-Karslioglu
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dc:description: The energetically costly mammalian investment in gestation and lactation requires plentiful nutritional sources and thus links the environmental conditions to reproductive success.
Keywords: embryonic diapause, pluripotency, dormancy, metabolism, transcription, miRNA, signaling pathways, stem cells
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dc:creator: Aydan Bulut-Karslioglu
description: The energetically costly mammalian investment in gestation and lactation requires plentiful nutritional sources and thus links the environmental conditions to reproductive success.
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Last-Modified: 2021-08-05T09:54:21Z
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title: Molecular Regulation of Paused Pluripotency in Early Mammalian Embryos and Stem Cells
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dc:subject: embryonic diapause, pluripotency, dormancy, metabolism, transcription, miRNA, signaling pathways, stem cells
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