Binbin Shao scite author profile

Binbin Shao

4Publications

101Citation Statements Received

198Citation Statements Given

How they've been cited

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186

192

Affiliations

Nanjing Maternity and Child Health Care Hospital, Nanjing Medical University, Nathan Kline Institute for Psychiatric Research

Publications

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Lamin A/C proteins in the spermatid acroplaxome are essential in mouse spermiogenesis

Shen¹,

Chen²,

Shao³

et al. 2014

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Spermiogenesis is a complex process of terminal differentiation that is necessary to produce mature sperm. Using protein expression profiles of mouse and human testes generated from our previous studies, we chose to examine the actions of lamin A/C in the current investigation. Lamin A and lamin C are isoforms of the A-type lamins that are encoded by the LMNA gene. Our results showed that lamin A/C was expressed in the mouse testis throughout the different stages of spermatogenesis and in mature sperm. Lamin A/C was also expressed in mouse haploid germ cells and was found to be localized to the acroplaxome in spermiogenesis, from round spermatids until mature spermatozoa. The decreased expression of lamin A/C following injections of siRNA against Lmna caused a significant increase in caudal sperm head abnormalities when compared with negative controls. These abnormalities were characterized by increased fragmentation of the acrosome and abnormal vesicles, which failed to fuse to the developing acrosome. This fragmentation also caused significant alterations in nuclear elongation and acrosome formation. Furthermore, we found that lamin A/C interacted with the microtubule plus-end-tracking protein CLIP170. These results suggest that lamin A/C is critical for proper structural and functional development of the sperm acrosome and head shape.

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Establishment of a proteomic profile associated with gonocyte and spermatogonial stem cell maturation and differentiation in neonatal mice

et al. 2014

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Initiation of the first wave of spermatogenesis in the neonatal mouse testis is characterized by differentiation of a transient population of germ cells called gonocytes in the center of the seminiferous tubules. After resuming mitotic activity, gonocytes relocate on the basement membrane, giving rise to spermatogonial stem cells (SSCs). These processes begin from birth in mice, and differentiated type A spermatogonia first appear by day 6 postpartum. During these processes, Sertoli cells within the seminiferous tubules and Leydig cells in the interstitial tissue form the stem cell "niche," and influence SSC fate decisions. Thus, we collected whole mouse testis tissues during the first wave of spermatogenesis at specific time points (days 0.5, 1.5, 2.5, 3.5, 4.5, and 5.5 postpartum) and constructed a comparative proteomic profile. We identified 252 differentially expressed proteins classified into three clusters based on expression, and bioinformatics analysis correlated each protein pattern to specific cell processes. Expression patterns of nine selected proteins were verified via Western blot, and cellular localizations of three proteins with little known information in testes were further investigated during spermatogenesis. Taken together, the results provide an important reference profile of a functional proteome during neonatal mouse gonocyte and SSC maturation and differentiation.

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Establishment of a proteome profile and identification of molecular markers for mouse spermatogonial stem cells

Zhou

Guo

Zheng

et al. 2014

J Cellular Molecular Medi

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Spermatogonial stem cells (SSCs) are undifferentiated cells that are required to maintain spermatogenesis throughout the reproductive life of mammals. Although SSC transplantation and culture provide a powerful tool to identify the mechanisms regulating SSC function, the precise signalling mechanisms governing SSC self-renewal and specific surface markers for purifying SSCs remain to be clearly determined. In the present study, we established a steady SSC culture according to the method described by Shinohara's lab. Fertile progeny was produced after transplantation of cultured SSCs into infertile mouse testis, and the red fluorescence exhibited by the culture cell membranes was stably and continuously transmitted to the offspring. Next, via advanced mass spectrometry and an optimized proteomics platform, we constructed the proteome profile, with 682 proteins expressed in SSCs. Furthermore bioinformatics analysis showed that the list contained several known molecules that are regulated in SSCs. Several nucleoproteins and membrane proteins were chosen for further exploration using immunofluorescence and RT-PCR. The results showed that SALL1, EZH2, and RCOR2 are possibly involved in the self-renewal mechanism of SSCs. Furthermore, the results of tissue-specific expression analysis showed that Gpat2 and Pld6 were uniquely and highly expressed in mouse testes and cultured SSCs. The cellular localization of PLD6 was further explored and the results showed it was primarily expressed in the spermatogonial membrane of mouse testes and cultured SSCs. The proteins identified in this study form the basis for further exploring the molecular mechanism of self-renewal in SSCs and for identifying specific surface markers of SSCs.

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Effects of golden shiner ( Notemigonuscrysoleucas ) nest association on host pumpkinseeds ( Lepomisgibbosus ): evidence for a non-parasitic relationship

Shao

1997

Behavioral Ecology and Sociobiology

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Binbin Shao

Lamin A/C proteins in the spermatid acroplaxome are essential in mouse spermiogenesis

Establishment of a proteomic profile associated with gonocyte and spermatogonial stem cell maturation and differentiation in neonatal mice

Establishment of a proteome profile and identification of molecular markers for mouse spermatogonial stem cells

Effects of golden shiner ( Notemigonuscrysoleucas ) nest association on host pumpkinseeds ( Lepomisgibbosus ): evidence for a non-parasitic relationship

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