In culturing early mouse embryos in vitro,liquid paraffin and alcohol exert deleterious influence on the development of embryos. Some of light liquid paraffin produced by Chinese factories have proved harmful for earl...In culturing early mouse embryos in vitro,liquid paraffin and alcohol exert deleterious influence on the development of embryos. Some of light liquid paraffin produced by Chinese factories have proved harmful for early mouse embryos. As shown by our experiments, the nitronaphthalene contained and the specific gravity of liquid paraffin were not involved in the injurious effects.However,alcohol mingled in medium had harmful effects on the development of embryos. At the 0.1% concentration of alcohol in medium the proportion of embryos developing to blastocysts decreased to 73.9%. When the concentration of alcohol was increased to 0.8%, all embryos ceased developing. In our experiments, CO_2 which contained 0.13% alcohol had no visible effects on the development of embrvos in vitro.展开更多
Aurora kinases have become a hot topic for research as they have been found to play an important role in various stages of mitotic cell division and to participate in malignant conversions of tumors. The participation...Aurora kinases have become a hot topic for research as they have been found to play an important role in various stages of mitotic cell division and to participate in malignant conversions of tumors. The participation of Aurora kinases in the regulation of oocyte meiosis has been recently reported, but their participation in mammalian early embryonic development remained unclear. The object of our study was to establish the spatio-temporal expression pattern of Aurora kinase B (AURKB) in mouse zygotes during the first cleavage, to reveal its functions in the early development of mouse zygotes, and to define the involvement of AURKB in mitogen-activated protein kinase (MAPK) signaling. Our results showed that in mouse zygotes AURKB expression increased in G1 phase and peaked in M phase. AURKB protein distribution was found to be in association with nuclei and distributed throughout the cytoplasm in a cell cycle-dependent manner. Functional disruption of AURKB resulted in abnormal division phenotypes or mitotic impairments. U0126, a specific mitogen-activated protein kinase kinase (MEK) inhibitor, caused significantly altered morphologies of early embryos together with a decrease in protein expression and kinase activity of AURKB. Our results indicated that the activity of AURKB was required for regulating multiple stages of mitotic progression in the early development of mouse zygotes and was correlated with the activation of the MAPK pathway.展开更多
Human and mouse orthologs are expected to have similar biological functions; however, many discrepancies have also been reported. We systematically compared human and mouse orthologs in terms of alternative splicing p...Human and mouse orthologs are expected to have similar biological functions; however, many discrepancies have also been reported. We systematically compared human and mouse orthologs in terms of alternative splicing patterns and expression profiles. Human-mouse orthologs are divergent in alternative splicing, as human orthologs could generally encode more isoforms than their mouse orthologs. In early embryos, exon skipping is far more common with human orthologs, whereas constitutive exons are more prevalent with mouse orthologs. This may correlate with divergence in expression of splicing regulators. Orthologous expression similarities are different in distinct embryonic stages, with the highest in morula. Expression differences for orthologous transcription factor genes could play an important role in orthologous expression discordance. We further detected largely orthologous divergence in differential expression between distinct embryonic stages. Collectively, our study uncovers significant orthologous divergence from multiple aspects, which may result in functional differences and dynamics between human-mouse orthologs during embryonic development.展开更多
文摘In culturing early mouse embryos in vitro,liquid paraffin and alcohol exert deleterious influence on the development of embryos. Some of light liquid paraffin produced by Chinese factories have proved harmful for early mouse embryos. As shown by our experiments, the nitronaphthalene contained and the specific gravity of liquid paraffin were not involved in the injurious effects.However,alcohol mingled in medium had harmful effects on the development of embryos. At the 0.1% concentration of alcohol in medium the proportion of embryos developing to blastocysts decreased to 73.9%. When the concentration of alcohol was increased to 0.8%, all embryos ceased developing. In our experiments, CO_2 which contained 0.13% alcohol had no visible effects on the development of embrvos in vitro.
基金supported by the National Natural Science Foundation of China (Grant No. 81070527)
文摘Aurora kinases have become a hot topic for research as they have been found to play an important role in various stages of mitotic cell division and to participate in malignant conversions of tumors. The participation of Aurora kinases in the regulation of oocyte meiosis has been recently reported, but their participation in mammalian early embryonic development remained unclear. The object of our study was to establish the spatio-temporal expression pattern of Aurora kinase B (AURKB) in mouse zygotes during the first cleavage, to reveal its functions in the early development of mouse zygotes, and to define the involvement of AURKB in mitogen-activated protein kinase (MAPK) signaling. Our results showed that in mouse zygotes AURKB expression increased in G1 phase and peaked in M phase. AURKB protein distribution was found to be in association with nuclei and distributed throughout the cytoplasm in a cell cycle-dependent manner. Functional disruption of AURKB resulted in abnormal division phenotypes or mitotic impairments. U0126, a specific mitogen-activated protein kinase kinase (MEK) inhibitor, caused significantly altered morphologies of early embryos together with a decrease in protein expression and kinase activity of AURKB. Our results indicated that the activity of AURKB was required for regulating multiple stages of mitotic progression in the early development of mouse zygotes and was correlated with the activation of the MAPK pathway.
基金supported by the China Human Proteomics Project (2014DFB30010)the National High Technology Research and Development Program of China (2015AA020104)+1 种基金the National Natural Science Foundation of China (31071162)the Graduate School of East China Normal University
文摘Human and mouse orthologs are expected to have similar biological functions; however, many discrepancies have also been reported. We systematically compared human and mouse orthologs in terms of alternative splicing patterns and expression profiles. Human-mouse orthologs are divergent in alternative splicing, as human orthologs could generally encode more isoforms than their mouse orthologs. In early embryos, exon skipping is far more common with human orthologs, whereas constitutive exons are more prevalent with mouse orthologs. This may correlate with divergence in expression of splicing regulators. Orthologous expression similarities are different in distinct embryonic stages, with the highest in morula. Expression differences for orthologous transcription factor genes could play an important role in orthologous expression discordance. We further detected largely orthologous divergence in differential expression between distinct embryonic stages. Collectively, our study uncovers significant orthologous divergence from multiple aspects, which may result in functional differences and dynamics between human-mouse orthologs during embryonic development.
