【摘 要】
:
The basis of life-long spermatogenesis is spermatogonial stem cells(SSCs)located at the basal membrane of the seminiferous tubules in the testis.After several rounds of proliferation and spermatogonial differentiation,the male germ cells will eventually u
【机 构】
:
Center for Reproductive Medicine,Reproductive Biology Laboratory,Amsterdam Reproduction and Developm
论文部分内容阅读
The basis of life-long spermatogenesis is spermatogonial stem cells(SSCs)located at the basal membrane of the seminiferous tubules in the testis.After several rounds of proliferation and spermatogonial differentiation,the male germ cells will eventually undergo meiosis to form haploid spermatids.Disturbance of the molecular regulation of spermatogenesis can lead to spermatogenic arrest,in humans often during meiosis,1,2 and subsequent azoospermia.Unfortunately,no treatment option enabling conception of a genetically own child is currently available for men suffering from spermatogenic arrest before spermatids are formed.
其他文献
目的 探讨羽毛球运动员足踝落地瞬间生物力学特征对运动风险的影响,为避免初学者踝关节高频次、高强度触地发生运动风险提供参考.方法 采用三维测力台和动作捕捉系统,对30名羽毛球运动初学者(实验组)和30名高水平运动员(对照组)在进行蹬转(1步)起跳动作时踝关节落地瞬间的运动学与动力学数据进行采集.结果 实验组跖屈背屈角度均显著小于对照组,实验组内翻和内旋角度均显著大于对照组,外翻和外旋角度不存在显出差异.实验组向左右方向力均显著大于对照组,实验组与对照组前后方向力和垂直方向力不存在显著性差异.实验组外翻、外旋
欧盟是全球最重要的区域一体化组织,也是西方最成熟的植物药市场,2004年《欧盟传统草药指令》(2004/24/EC)的颁布标志着欧盟草药药品注册管理制度的成熟和完善,不仅对统一监管草药具有里程碑式意义,而且为中药国际化发展提供了重要机遇.2004/24/EC法令颁布至今已有17年,已批准2000余件草药药品上市申请,而我国仅有极少数中药产品成功在欧盟成员国获批,中药欧盟注册仍然任重道远.旨在系统分析欧盟草药药品注册管理制度及其实施有关数据情况,并探索未来中药欧盟注册的思路与策略,以期为有关企业及政府部门提
骨稳态是骨的形成与吸收维持相对平衡的过程.信号转导和转录活化因子3(signal transducer and activator of transcription 3,STAT3)参与多条细胞内外的信号转导通路,与骨稳态息息相关.STAT3参与由众多因素调控的成骨细胞分化过程;也可通过调控破骨细胞的募集、分化和活性等维持骨稳态;还影响骨稳态中成骨-破骨细胞的交互通讯.STAT3突变的患者则表现出多种遗传性骨代谢疾病.此外,STAT3在机械应力介导的骨重建中也起重要作用.机械力刺激通过上调或激活STAT3
Meiosis is an essential event that generates haploid gametes from diploid progenitors in all sexually reproducing organisms.It involves a single round of DNA replication followed by two rounds of chromosome segregation:separating homologous chromosomes(ho
骨细胞是骨组织主要的力学感受及转导细胞,它们通过众多突触结构相互连接,形成庞大的骨稳态细胞调控网络,联系着成骨细胞、破骨细胞等骨基质表面细胞.骨细胞通过旁分泌途径影响成骨细胞骨形成和破骨细胞骨吸收来调节骨代谢,维持骨更新.针对骨细胞在受到力学刺激后分泌或释放的一些信号分子或蛋白因子对成骨细胞和破骨细胞生长分化的影响,本文综述近年来关于受力学刺激的骨细胞如何与成骨/破骨细胞进行通讯,为骨细胞生物力学研究提供新思路.
Meiosis is an essential step in gametogenesis which is the key process in sexually reproducing organisms as meiotic aberrations may result in infertility.In meiosis,programmed DNA double-strand break(DSB)formation is one of the fundamental processes that
钛质网笼作为颈前路椎体次全切除减压融合术(anterior cervical corpectomy and fusion,ACCF)中使用的融合器之一,不仅能够在术中即刻重建颈椎稳定性、维持椎间高度及生理曲度,而且可以避免自体取骨造成供骨区并发症的问题,故成为ACCF术中较为常用的内植物.但传统钛笼多存在应力遮挡、钛笼下沉等问题,在一定程度上影响了手术效果,甚至导致严重术后并发症,需要行翻修手术.目前已有多种新型钛笼问世,一定程度上解决了传统钛笼带来的问题.生物力学评价及其测试方法是评判一款新型脊柱融合器
Male meiosis is a complex process whereby spermatocytes undergo cell division to form haploid cells.This review focuses on the role of retinoic acid(RA)in meiosis,as well as several processes regulated by RA before cell entry into meiosis that are critica
Repairing DNA double-strand breaks(DSBs)with homologous chromosomes as templates is the hallmark of meiosis.The critical outcome of meiotic homologous recombination is crossovers,which ensure faithful chromosome segregation and promote genetic diversity o
Programmed DNA double-strand breaks(DSBs)are necessary for meiosis in mammals.A sufficient number of DSBs ensure the normal pairing/synapsis of homologous chromosomes.Abnormal DSB repair undermines meiosis,leading to sterility in mammals.The DSBs that ini