医学研究与教育
醫學研究與教育
의학연구여교육
MEDICAL RESEARCH AND EDUCATION
2014年
6期
95-99
,共5页
王燕%郭文龙%耿德海%王波%张建立%张艳敏%刘淑卓
王燕%郭文龍%耿德海%王波%張建立%張豔敏%劉淑卓
왕연%곽문룡%경덕해%왕파%장건립%장염민%류숙탁
调控性非编码RNAs%精子发生%基因表达%男性不育
調控性非編碼RNAs%精子髮生%基因錶達%男性不育
조공성비편마RNAs%정자발생%기인표체%남성불육
regulatory non-coding RNAs%spermatogenesis%gene expression%male infertility
精子数量下降和质量减低是全球范围内男性不育疾病增加的主要原因。因此理解精子发生及其调控的分子机制是非常必要的。精子发生主要分为有丝分裂、减数分裂和精子形成三个阶段,这些过程被阶段特异性的基因表达严格调控,而众多的调控性非编码RNAs则是基因表达的重要调控因子。飞速发展的基因组检测技术已经证实,调控性非编码RNAs在不同生物演化和疾病进程中基因表达的转录和转录后水平上发挥重要的调控作用,其包括微小RNA(miRNA)、小干扰RNA(siRNA)、与PIWI蛋白相互作用的RNAs(piRNA)和长链非编码RNA(lncRNA)。讨论这些转录本在精子发生中的功能作用,并综述其异常表达与相关疾病的关系。
精子數量下降和質量減低是全毬範圍內男性不育疾病增加的主要原因。因此理解精子髮生及其調控的分子機製是非常必要的。精子髮生主要分為有絲分裂、減數分裂和精子形成三箇階段,這些過程被階段特異性的基因錶達嚴格調控,而衆多的調控性非編碼RNAs則是基因錶達的重要調控因子。飛速髮展的基因組檢測技術已經證實,調控性非編碼RNAs在不同生物縯化和疾病進程中基因錶達的轉錄和轉錄後水平上髮揮重要的調控作用,其包括微小RNA(miRNA)、小榦擾RNA(siRNA)、與PIWI蛋白相互作用的RNAs(piRNA)和長鏈非編碼RNA(lncRNA)。討論這些轉錄本在精子髮生中的功能作用,併綜述其異常錶達與相關疾病的關繫。
정자수량하강화질량감저시전구범위내남성불육질병증가적주요원인。인차리해정자발생급기조공적분자궤제시비상필요적。정자발생주요분위유사분렬、감수분렬화정자형성삼개계단,저사과정피계단특이성적기인표체엄격조공,이음다적조공성비편마RNAs칙시기인표체적중요조공인자。비속발전적기인조검측기술이경증실,조공성비편마RNAs재불동생물연화화질병진정중기인표체적전록화전록후수평상발휘중요적조공작용,기포괄미소RNA(miRNA)、소간우RNA(siRNA)、여PIWI단백상호작용적RNAs(piRNA)화장련비편마RNA(lncRNA)。토론저사전록본재정자발생중적공능작용,병종술기이상표체여상관질병적관계。
Global rise in male infertility as a result of falling sperm count and quality has been pointed out by many investigations. Therefore, it is essential to understand the molecular mechanism of spermatogenesis and its regulation. Spermatogenesis is characterized by three phases: mitosis, meiosis and spermiogenesiss, which are strictly regulated by phase-speciifc gene expression that is controlled by myriads of regulatory non-coding RNAs. Rapid advancement in genome mining technologies has identiifed role of regulatory non-coding RNAs including microRNA(miRNA), small-interfering RNA(siRNA), PIWI-interacting RNA(piRNA) and long non-coding RNA(lncRNA) as controllers of gene expression at transcriptional as well as post-transcriptional level in different biological context and disease processes. Here, we discuss the recent advances in our understanding about the involvement of these transcripts in spermatogenesis. In addition, we review here the relationship between their abnormal experssion and associated diseases.
