The establishment of goat semen protein profile using a tandem mass tag-based proteomics approach

In this study, the complete proteome of goat ejaculated semen including spermatozoa and seminal plasma was established, applying a tandem mass tag (TMT) labeling together with liquid chromatography-tandem mass spectrometry (LC-MS/MS). In seminal plasma, 2299 proteins were identified and 2098 proteins were quantified. The GO analysis demonstrated that 32% proteins were involved in metabolic activities. 46% proteins are located at intracellular region, intracellular organelle, and membrane-bounded organelle. Regarding molecular function, 40% proteins are engaged on protein binding, hydrolase activity, and ion binding. The KEGG analysis indicated a primary involvement of the identified proteins in protein processing in endoplasmic reticulum, lysosome, and proteome. In spermatozoa, 2491 proteins were identified and quantified. 39% proteins are involved in metabolic activities. 48% proteins are located at intracellular region, intracellular organelle, and membrane-bounded organelle. 38% proteins are engaged on protein binding, hydrolase activity, and ion binding. The KEGG anal-ysis demonstrated their roles derived from the identified proteins in proteasome, glycolysis, pyruvate meta-bolism, and citrate cycle. Additionally, 1312 proteins were simultaneously presented in spermatozoa and seminal plasma. The involvement of 42% proteins in metabolic activities were observed. 47% proteins are located at intracellular region, intracellular organelle, and membrane-bounded organelle. The common proteins are mainly engaged on protein processing in endoplasmic reticulum, proteome, glycolysis, lysosome, and citrate cycle. Collectively, this study established the protein database of goat semen. More studies should be used to elucidate functionality of these identified proteins.