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1.
Indian J Biochem Biophys ; 2022 Aug; 59(8): 854-859
Artigo | IMSEAR | ID: sea-221567

RESUMO

It is vital to identify the ejaculate with good freezability by determining the biochemical makeup of the ejaculate at the pre-freeze stage. The present study targeted to assess the use of the protein estimates and profiles at the pre-freeze stage as markers of freezability in Frieswal populations. Storing the proteins for proteomic studies is always tricky in the case of animal studies, where accessibility to liquid nitrogen is limited. Hence alternative storing approaches need to be optimized. The second part of this study examined the protein concentration and protein profiles of RNALater and frozen stored sperm cells to assess the use of RNALater preservation in sperm proteomic studies. Sperm and seminal plasma protein concentrations were quantified using Bradford assay, and total protein quantities were derived. The seminal plasma and sperm protein profiles were generated with SDS-PAGE. The protein estimates and SDS-PAGE profiles of good and poor freeze-groups were similar. Also, sperm and seminal plasma protein concentration were not correlated with the semen volume and sperm count. Even though the yield was comparatively less, the protein profiles of sperm preserved by RNALater were similar to that of frozen sperms. The present study results indicate that the protein estimates and qualitative profiles of sperm and seminal plasma proteins may not be sufficient to reveal the differences in the proteome of good and poor freezable bulls at the macro level. Hence, the protein estimates and profiles of neat semen may not be helpful for the prediction of freezability at the pre-freeze stage. Secondly, this study indicates that RNALater preservation helps store sperms for proteome analysis studies.

2.
Arq. bras. med. vet. zootec ; 63(3): 535-543, June 2011. ilus
Artigo em Inglês | LILACS | ID: lil-595566

RESUMO

The present study was designed to investigate the topographical distribution of seminal plasma (SP) proteins on epididymal and ejaculated bovine sperm. Using immunocytochemistry and confocal microscopy the binding patterns of bovine SP proteins BSP-A3, albumin, transferrin, prostaglandin D-synthase (PGDS) and nucleobindin in ejaculated and cauda epididymal sperm from adult bulls were evaluated. Experiments were performed using sperm from 5 males. Data showed a positive signal, only detected for anti-PGDS, in the acrosomal cap of epididymal and ejaculated sperm. In ejaculated sperm, a very weak signal for nucleobindin 2 in the midpiece and equatorial regions was detected, using the anti-rat nucleobindin. BSP-A3 was detected on all sperm regions studied, with a more evidenced signal in acrosome and midpiece. However, no binding was detected for albumin or transferrin in neither epididymal nor ejaculated sperm. In conclusion, PGDS, BSP-A3 and nucleobindin interact directly with bovine sperm, with specific topographic distribution. These findings may add to the knowledge of how these proteins modulate sperm functions, thus providing fundamental support for studies designed to evaluate how they influence sperm functions.


Investigou-se a distribuição topográfica da ligação de proteínas seminais à membrana de espermatozoides bovinos epididimários e ejaculados. Utilizando imunocitoquímica e microscopia confocal, avaliaram-se a topografia de ligação das proteínas BSP-A3, albumina, transferrina, prostaglandina D sintetase (PGDS) e nucleobindina 2 (NUC2) à membrana espermática. Os experimentos foram realizados utilizando espermatozoides de cinco touros. Os resultados mostraram que, para espermatozoides epididimários, somente detectou-se a PGDS na crista do acrossomo. Nos espermatozoides ejaculados, a PGDS ligou-se de forma mais intensa à crista acrossômica, enquanto a NUC2 apresentou sinal bastante fraco na peça intermediária e região equatorial. A BSP-A3 ligou-se a todas as regiões estudadas, de forma mais intensa na peça intermediária e acrossomo. Nenhum sinal foi detectado para albumina ou transferrina, seja em espermatozoides epididimários ou ejaculados. Concluiu-se que PGDS, BSP-A3 e NUC2 interagem diretamente com espermatozoides bovinos, e mostrou distribuição topográfica específica. Estes achados permitem melhor compreensão sobre o papel desempenhado por essas proteínas na regulação da função espermática e da fertilidade.


Assuntos
Animais , Bovinos , Imuno-Histoquímica , Proteínas Secretadas pelo Epidídimo/análise , Proteínas de Plasma Seminal/análise , Espermatozoides , Topografia , Acrossomo , Fertilidade
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