SIRT1全长(SIRT1-FL)及选择性剪接变异体(SIRT1-△Exon7)在大鼠海马和皮层的表达及其意义被引量：1

Expression and its significance of SIRT1-FL and its alternative splicing variant SIRT1-△Exon7 in rat hippocampus and cortex

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摘要目的明确大鼠神经系统是否存在SIRT1-△Exon7,并初步探讨SIRT1-FL和SIRT1-△Exon7对神经干细胞分化的影响。方法分别提取新生大鼠海马和皮层的mRNA,应用PCR和RT-PCR方法检测SIRT1-FL和SIRT1-△Exon7的mRNA表达水平。结果 SIRT1-△Exon7和SIRT1-FL的mRNA在大鼠海马和皮层均有表达。皮层SIRT1-FL mRNA含量比海马高5.81%(P<0.05),皮层SIRT1-△Exon7 mRNA含量比海马低56.68%(P<0.05)。结论首次发现大鼠神经系统存在SIRT1-△Exon7。SIRT1-FL可能促进了神经干细胞的分化过程,而SIRT1-△Exon7可能发挥相反的作用。 Objective To explore the expression of SIRT1- A Exon7 in rat nervous system and the effect of SIRT1-FL and SIRT1 alter- native splicing variants on neural stem cell differentiation. Methods The total RNA of newborn SD rat hippocampus and cortex was extracted, and the mRNA expression levels of SIRT1-FL and SIRT1-△Exon7 were detected in hippocampus and cortex by PCR and RT-PCR, respectively. Results The SIRT1- △ Exon7 and SIRT1-FL mRNA was expressed in both hippocampus and cortex of rats. The mRNA levels of SIRT1-FL was 5.81% higher in the cortex than that in the hippocampus （P 〈 0.05 ）, whereas the S1RT1-△ Exon7 was 56.68 % lower in the cortex than that in the hippocampus （ P 〈 0.05 ）. Conclusion The results firstly indicate that SIRT1- △ Ex- on7 exists in the nervous system of rats. SIRT1-FL may promote the differentiation of neural stem cells, while the SIRT1- △ Exon7 may play an opposite function in neural stem cells.

作者卫美辰张策杨小荣

机构地区山西医科大学基础医学院生理学系

出处《山西医科大学学报》 CAS 2015年第9期850-853,共4页 Journal of Shanxi Medical University

基金国家青年科学基金资助项目(31000481) 山西省高等学校优秀青年学术带头人支持计划资助项目(2011)

关键词选择性剪接 SIRT1-FL SIRT1-△Exon7 神经干细胞分化 alternative splicing SIRT1-FL SIRT1- △Exon7 neural stem cells differentiation

分类号 R338 [医药卫生—人体生理学]

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同被引文献19

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SIRT1全长(SIRT1-FL)及选择性剪接变异体(SIRT1-△Exon7)在大鼠海马和皮层的表达及其意义被引量：1

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SIRT1全长(SIRT1-FL)及选择性剪接变异体(SIRT1-△Exon7)在大鼠海马和皮层的表达及其意义被引量：1