[Objective] Aim to know the whole process of embryonic development of loach. [Method] DOM + LHRH-A2 was used to induce spawning of loach,then after fertilization,the embryos were cultured into freshwater water with te...[Objective] Aim to know the whole process of embryonic development of loach. [Method] DOM + LHRH-A2 was used to induce spawning of loach,then after fertilization,the embryos were cultured into freshwater water with temperature from 24 to 26 ℃ and pH from 7.0 to 7.5. The embryonic development of loach was observed and 27 concrete morphological characteristics and development time of loach from fertilized egg to newly hatched larval period were described in detail. [Result] The embryonic development of loach could be divided into cleavage stage,blastocyst stage,gastrula stage,neurula stage and organogenesis stage. The loach embryo from fertilized egg to out membrane period was 30 h 45 min in fresh water from 24 to 26 ℃ and pH from 7.0 to 7.5. [Conclusion] It provided important reference for studying artificial propagation and genetic breeding of loach.展开更多
Neurotensin was found present in human early placenta using RIA and its release was demonstrated by in vitro perfusion experiment.Immunohistochemical staining revealed lots of NT-positive granules in early placental ...Neurotensin was found present in human early placenta using RIA and its release was demonstrated by in vitro perfusion experiment.Immunohistochemical staining revealed lots of NT-positive granules in early placental villi. Functional testing displayed NT′s inhibitory effect on release of hCG and progesterone from incubated early placenta. This result suggests the potential use of NT as an agent for terminating early pregnancy.展开更多
Mammalian cortical development is a dynamically and strictly regulated process orchestrated by extracellular signals and intracellular mechanisms. Recent studies show that epigenetic regulation serves as, at least in ...Mammalian cortical development is a dynamically and strictly regulated process orchestrated by extracellular signals and intracellular mechanisms. Recent studies show that epigenetic regulation serves as, at least in part, interfaces between genes and the environment, and also provides insight into the molecular and cellular bases of early embryonic cortical development. It is becoming increasingly clear that epigenetic regulation of cortical development occurs at multiple levels and that comprehensive knowledge of this complex regulatory landscape is essential to delineating embryonic neurogenesis.展开更多
文摘[Objective] Aim to know the whole process of embryonic development of loach. [Method] DOM + LHRH-A2 was used to induce spawning of loach,then after fertilization,the embryos were cultured into freshwater water with temperature from 24 to 26 ℃ and pH from 7.0 to 7.5. The embryonic development of loach was observed and 27 concrete morphological characteristics and development time of loach from fertilized egg to newly hatched larval period were described in detail. [Result] The embryonic development of loach could be divided into cleavage stage,blastocyst stage,gastrula stage,neurula stage and organogenesis stage. The loach embryo from fertilized egg to out membrane period was 30 h 45 min in fresh water from 24 to 26 ℃ and pH from 7.0 to 7.5. [Conclusion] It provided important reference for studying artificial propagation and genetic breeding of loach.
文摘Neurotensin was found present in human early placenta using RIA and its release was demonstrated by in vitro perfusion experiment.Immunohistochemical staining revealed lots of NT-positive granules in early placental villi. Functional testing displayed NT′s inhibitory effect on release of hCG and progesterone from incubated early placenta. This result suggests the potential use of NT as an agent for terminating early pregnancy.
基金supported by the Chinese Ministry of Science and Technology(2015CB964501 and2014CB964903)the National Natural Science Foundation of China(31371477)the Strategic Priority Research Program of the Chinese Academy of Sciences(XDA01020301)
文摘Mammalian cortical development is a dynamically and strictly regulated process orchestrated by extracellular signals and intracellular mechanisms. Recent studies show that epigenetic regulation serves as, at least in part, interfaces between genes and the environment, and also provides insight into the molecular and cellular bases of early embryonic cortical development. It is becoming increasingly clear that epigenetic regulation of cortical development occurs at multiple levels and that comprehensive knowledge of this complex regulatory landscape is essential to delineating embryonic neurogenesis.
