fertility factor
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Author(s):  
Mirjam I. Binner ◽  
Anna Kogan ◽  
Karin Panser ◽  
Alexander Schleiffer ◽  
Victoria E. Deneke ◽  
...  

Fertilization is a key process in all sexually reproducing species, yet the molecular mechanisms that underlie this event remain unclear. To date, only a few proteins have been shown to be essential for sperm-egg binding and fusion in mice, and only some are conserved across vertebrates. One of these conserved, testis-expressed factors is SPACA6, yet its function has not been investigated outside of mammals. Here we show that zebrafish spaca6 encodes for a sperm membrane protein which is essential for fertilization. Zebrafish spaca6 knockout males are sterile. Furthermore, Spaca6-deficient sperm have normal morphology, are motile, and can approach the egg, but fail to bind to the egg and therefore cannot complete fertilization. Interestingly, sperm lacking Spaca6 have decreased levels of another essential and conserved sperm fertility factor, Dcst2, revealing a previously unknown dependence of Dcst2 expression on Spaca6. Together, our results show that zebrafish Spaca6 regulates Dcst2 levels and is required for binding between the sperm membrane and the oolemma. This is in contrast to murine sperm lacking SPACA6, which was reported to be able to bind but unable to fuse with oocytes. These findings demonstrate that Spaca6 is essential for zebrafish fertilization and is a conserved sperm factor in vertebrate reproduction.


2021 ◽  
Author(s):  
Mirjam Isabel Binner ◽  
Anna Kogan ◽  
Karin Panser ◽  
Alexander Schleiffer ◽  
Victoria Eugenia Deneke ◽  
...  

Fertilization is a key process in all sexually reproducing species, yet the molecular mechanisms that underlie this event remain unclear. To date, only a few proteins have been shown to be essential for sperm-egg binding and fusion in mice, and only some are conserved across vertebrates. One of these conserved, testis-expressed factors is SPACA6, yet its function has not been investigated outside of mammals. Here we show that zebrafish spaca6 encodes for a sperm membrane protein which is essential for fertilization. Zebrafish spaca6 knockout males are sterile. Furthermore, Spaca6-deficient sperm have normal morphology, are motile, and can approach the egg, but fail to bind to the egg and therefore cannot complete fertilization. Interestingly, sperm lacking Spaca6 have decreased levels of another essential and conserved sperm fertility factor, Dcst2, revealing a previously unknown dependence of Dcst2 expression on Spaca6. Together, our results show that zebrafish Spaca6 regulates Dcst2 levels and is required for binding between the sperm membrane and the oolemma. This is in contrast to murine SPACA6, which was reported not to be required for sperm-egg membrane binding but necessary for fusion. These findings demonstrate that Spaca6 is essential for zebrafish fertilization and is a conserved sperm factor in vertebrate reproduction.


PLoS Genetics ◽  
2021 ◽  
Vol 17 (6) ◽  
pp. e1009655
Author(s):  
Li Zhu ◽  
Ryuya Fukunaga

During spermatogenesis, the process in which sperm for fertilization are produced from germline cells, gene expression is spatiotemporally highly regulated. In Drosophila, successful expression of extremely large male fertility factor genes on Y-chromosome spanning some megabases due to their gigantic intron sizes is crucial for spermatogenesis. Expression of such extremely large genes must be challenging, but the molecular mechanism that allows it remains unknown. Here we report that a novel RNA-binding protein Maca, which contains two RNA-recognition motifs, is crucial for this process. maca null mutant male flies exhibited a failure in the spermatid individualization process during spermatogenesis, lacked mature sperm, and were completely sterile, while maca mutant female flies were fully fertile. Proteomics and transcriptome analyses revealed that both protein and mRNA abundance of the gigantic male fertility factor genes kl-2, kl-3, and kl-5 (kl genes) are significantly decreased, where the decreases of kl-2 are particularly dramatic, in maca mutant testes. Splicing of the kl-3 transcripts was also dysregulated in maca mutant testes. All these physiological and molecular phenotypes were rescued by a maca transgene in the maca mutant background. Furthermore, we found that in the control genetic background, Maca is exclusively expressed in spermatocytes in testes and enriched at Y-loop A/C in the nucleus, where the kl-5 primary transcripts are localized. Our data suggest that Maca increases transcription processivity, promotes successful splicing of gigantic introns, and/or protects transcripts from premature degradation, of the kl genes. Our study identified a novel RNA-binding protein Maca that is crucial for successful expression of the gigantic male fertility factor genes, spermatogenesis, and male fertility.


2021 ◽  
Author(s):  
Sudam Bag ◽  
Shama Ansari ◽  
Alka Alka Turuk ◽  
Nimai Charan Mahanandia ◽  
Sikander Saini ◽  
...  

Objective: To understand the effect of recombinant BSP1 (rec-BSP1) on in vitro capacitation of sperm and fertilization study Method(s): Articles were screened for reports including rec-BSP1, Capacitation, in vitro fertilization Intervention: None Main Outcome Measure(s): Reproductive outcomes, effect on gametes and embryos Result(s): Here we report an optimization of condition for rec-BSP1 production which was used for in vitro capacitation and enhancement of buffalo embryo production. The sequence of the protein was used for multiple sequence alignment which has 99% similarity with PDC 109 protein. The expression of rec-BSP1 was carried out successfully with 1 mM IPTG at 160 C for 22 hrs and purified it in soluble form. The structure of rec-BSP1 was generated using 3D modelling and analysed its mode of binding with heparin and PC by molecular docking and the structural stability of rec-BSP1-PC and rec-BSP1-heparin complexes by using molecular dynamic (MD) simulation. The effect of rec-BSP1 was observed on in vitro capacitation of spermatozoa and buffalo blastocyst production. It was found that the rec-BSP1 enhanced the sperm motility at a concentration of 50 microg/ml for 1 h of incubation without having any detrimental effect on the sperm morphology and a significant (P<0001) increase in blastocyst production at a concentration of 50 microg/ml rec-BSP1. Hence this finding represents a new insight and advance the prospective approach to developing a potential fertility factor in reproduction. Conclusion(s): The purified rec-BSP1 may affect on male fertility and mediated its effect on in vitro embryo production


Genetics ◽  
2020 ◽  
Vol 215 (3) ◽  
pp. 623-633 ◽  
Author(s):  
Jiaying Zhang ◽  
Junjie Luo ◽  
Jieyan Chen ◽  
Junbiao Dai ◽  
Craig Montell

The Y chromosome of Drosophila melanogaster is pivotal for male fertility. Yet, only 16 protein-coding genes reside on this chromosome. The Y chromosome is comprised primarily of heterochromatic sequences, including DNA repeats and satellite DNA, and most of the Y chromosome is still missing from the genome sequence. Furthermore, the functions of the majority of genes on the Y chromosome remain elusive. Through multiple genetic strategies, six distinct segments on the Y chromosome have been identified as “male fertility factors,” and candidate gene sequences corresponding to each of these loci have been ascribed. In one case, kl-3, a specific protein coding sequence for a fertility factor has been confirmed molecularly. Here, we employed CRISPR/Cas9 to generate mutations, and RNAi, to interrogate the requirements of protein coding sequences on the Y chromosome for male fertility. We show that CRISPR/Cas9-mediated editing of kl-2 and kl-5 causes male sterility, supporting the model that these gene sequences correspond to the cognate fertility factors. We show that another gene, CCY, also functions in male fertility and may be the ks-2 fertility factor. We demonstrate that editing of kl-2, kl-3, and kl-5, and RNAi knockdown of CCY, disrupts nuclear elongation, and leads to defects in sperm individualization, including impairments in the individualization complex (IC) and synchronization. However, CRISPR/Cas9 mediated knockout of some genes on the Y chromosome, such as FDY, Ppr-Y, and Pp1-Y2 do not cause sterility, indicating that not all Y chromosome genes are essential for male fertility.


2020 ◽  
Vol 53 (3) ◽  
Author(s):  
Rui‐Rui Peng ◽  
Li‐Li Wang ◽  
Wen‐Yi Gao ◽  
Feng‐Yu Zhu ◽  
Fan Hu ◽  
...  

2020 ◽  
Vol 6 (2) ◽  
pp. 143-150
Author(s):  
S. Mamedova

Ecological monitoring of soil fertility in the Lenkoranchay basin shows that the fertility factor is decreasing both on watershed and transit soils, and on accumulative soils of the ecological region. However, soil fertility indicators in this ecological region were lower than in previous ones. This is due to the fact that scrubber materials delivered through Lenkoranchay are partially collected on the soils of an accumulative ecological region.


2017 ◽  
Vol 17 (1) ◽  
pp. 3-10 ◽  
Author(s):  
Ferheen Abbasi ◽  
Haruhiko Miyata ◽  
Masahito Ikawa

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