Project description:Sperm carries information to the presumptive embryo upon fertilization in terms of epigenetic codes and transcripts along with the haploid genome. The epigenetic code includes DNA methylation and histone modifications. During spermatogenesis, the DNA of sperm undergoes overall methylation changes and this could have some role to play in fertilizing ability of the sperm. Many of the studies have shown that the altered methylation can cause sub fertility. In the present study we report the development of first comprehensive 4X180K buffalo (Bubalus bubalis) CpG island/promoter microarray for studying the global DNA methylation profile of buffalo sperm. The array has been developed by employing microarray based comparative genomic hybridization (aCGH) technique with bovine and buffalo DNA using bovine genome sequence as reference. The array represents 157084 features assembled from CDS, Promotor and CpG regions covering 2,967 unique genes. We also report the comparison of genome wide methylation differences in buffalo sperm from high fertile and sub fertile bulls which indicated profound discrepancies in their methylation status. A total of 96 individual genes along with another 55 genes covered under CpG islands were found differentially methylated and and were associated with different cellular functions and biological processes affecting germ cell development, spermatogenesis, capacitation and embryonic development.
Project description:Sperm carries information to the presumptive embryo upon fertilization in terms of epigenetic codes and transcripts along with the haploid genome. The epigenetic code includes DNA methylation and Histone modifications. During spermatogenesis the chromatin of sperm undergoes wide level of modifications and histone proteins are replaced by Protamine proteins. But some modified Histone forms still remain and they carry epigenetic codes essential for fertility and embryo development. Through this work we are trying to see the difference between H3K4me2 and H3K27me3 kind of histone modifications in spermatozoa of high and low fertility buffalo bulls.
Project description:Abstract Buffalo bulls are the backbone of Indian dairy industry, and the quality of semen donating bulls determine the overall production efficiency of buffalo dairy farms. Seminal plasma (SP) of bulls harbor millions of lipid bilayer nanovesicles known as extracellular vesicles (EVs). These EVs carry a heterogenous cargo of essential biomolecules including fertility associated proteins which contribute to the fertilizing potential of spermatozoa. In this study, we explored various parameters of EVs such as size, concentration and the complete proteome profiles of SP EVs from two distinct fertility groups in order to unravel the differentially abundant proteins that potentially affect the overall fertility of bulls. Through Dynamic Light Scattering (DLS) it was found that the purified EVs were present in 7 to 14 size exclusion chromatographic (SEC) fractions with sizes ranging from 145 to 256 nm in the high fertile (HF) and low fertile (LF) bulls. Nanoparticle Tracking Analysis (NTA) confirmed the size of seminal EVs up to 200 nm, and concentrations varying from 2.84 to 6.82 × 1011 and 3.57 to 7.74 × 1011 particles per ml in HF and LF bulls, respectively across all the fractions. No significant difference was observed in the size and concentration of seminal EVs between the HF and LF groups. We identified a total of 1862 and 1807 proteins in seminal EVs of HF and LF bulls, respectively using high throughput LC-MS/MS approach. Out of these total proteins, 1754 proteins were common in both the groups and about 87 proteins were highly abundant in HF group while 1292 were less abundant as compared to LF bulls. Gene ontology (GO) analysis, revealed that the highly abundant proteins in HF group were mainly part of the nucleus and involved in nucleosome assembly along with DNA binding. In addition, highly abundant proteins in EVs of HF group were found to be involved in spermatogenesis, motility, acrosome reaction, capacitation, gamete fusion, and cryotolerance. Two highly abundant proteins of HF EVs, namely protein disulfide-isomerase A4 (PDIA4) and gelsolin (GSN), were successfully immunolocalized on spermatozoa, indicating that these proteins might be transferred to spermatozoa through EVs. The proteins; PDIA4 and GSN are intricately associated with sperm-oocyte fusion and acrosome reaction, respectively, thus they are vital for regulating the fertilizing capacity of sperm. Our evidences clearly support that the protein repertoires in EVs and subsequently their presence on sperm, are strongly associated with sperm functions. Altogether, the current investigation clearly indicates that SPEVs possess crucial protein repertoires which are essential for enhancing the sperm fertilizing capacity.
Project description:Abstract The water buffalo (Bubalus bubalis) is an indispensable part of the Indian dairy sector and in several instances, the farmers incur economic losses due to failed pregnancy after artificial insemination (AI). One of the key factors for the failure of conception is the use of semen from the bulls of low fertilizing potential and hence, it becomes important to predict the fertility status before performing AI. In this study, the global proteomic profile of high fertile (HF) and low fertile (LF) buffalo bull spermatozoa was established using a high-throughput LC-MS/MS technique. A total of 1385 proteins (≥ 1 high-quality PSM/s, ≥ 1 unique peptides, P < 0.05, FDR < 0.01) were identified out of which, 1002 were common between both the HF and LF groups while 288 and 95 proteins were unique to HF and LF groups respectively. We observed 211 and 342 significantly upregulated (log Fc ≥2) and downregulated in HF (log Fc ≤0.5) spermatozoa (p <0.05). Gene ontology analysis revealed that the fertility associated upregulated proteins were involved in spermatogenesis, sperm motility, acrosome integrity, zona pellucida binding and other associated sperm functions. Besides this, the downregulated proteins were involved in glycolysis, fatty acid degradation and inflammation. Furthermore, fertility related differentially abundant proteins (DAPs) on sperm viz., AKAP3, Sp17 and DLD were validated through Western blotting and immunocytochemistry which was in coherence with the LC-MS/MS data. The DAPs identified in this study may be used as potential protein candidates for predicting fertility in buffaloes. Our findings provide an opportunity in mitigating the economic losses that farmers incur due to male infertility.
Project description:The aim of this study was to examine changes in the miRNA transcriptional profile of spermatozoa in Holstein-Friesian bulls. Spermatozoa from bulls divergent for feritlity status were used for this study with 10 High fertility bulls and 10 Low fertility bulls. RNA was extracted and subsequently subjected to miRNAseq analysis. 13 miRNA were identified as differentially expressed in the spermatozoa between bulls of high and low feritlity status.
Project description:The aim of this study was to examine changes in the mRNA transcriptional profile of spermatozoa in Holstein-Friesian bulls. Spermatozoa from bulls divergent for feritlity status were used for this study with 10 High fertility bulls and 10 Low fertility bulls. RNA was extracted and subsequently subjected to miRNAseq analysis. 6 miRNA were identified as differentially expressed in the spermatozoa between bulls of high and low feritlity status.