In Taiwan, the number of infertile patients seeking for medical assistance via assisted reproductive technology (ART) increases exponentially each year. Despite ART has been used to achieve pregnancy, discrepancies between up-going demands on ART and down- going fertility rate might be explained partly by the lack of thorough evaluations on gamete quality. The commonly used sperm quality assessment systems measure sperm concentration and sperm motility-based parameters without monitoring the non-motility related factors (e.g. sperm DNA or chromosomal abnormality, sperm membrane integrity...etc.). Male infertility is the major cause of conception failure in about 25% of all infertile couples. Many proteins have been proven to be the sperm motility (e.g. spermatic protein DDX4/VASA) or quality marker within the seminal fluid or on the sperm membrane. This research focus on one of the seminal plasma enriched and epididymal segment-specific proteins namely Quiescin Q6 Sulfhydryl Oxidase (QSOX). Sulfhydryl oxidase belongs to the family of oxidoreductase, containing the sulfhydryl (- SH) functional group and can catalyze oxidation of –SH group into stable disulfides (S-S) with the reduction of hydrogen and hydrogen peroxidase (thio-disulfide exchange). There are two isoforms of QSOX express in mammalian cells: QSOX1 and QSOX2. Both QSOX1 and QSOX2 express in most tissues, but QSOX2 is much less abundant than QSOX1. QSOX2 shares 40% identity with QSOX1 having the same overall domain structure and containing a transmembrane domain that confers membrane localization. To investigate the functions of QSOXs on sperm membrane surface modifications, we first purified endogenous QSOX1C proteins from both mouse and porcine. Mouse QSOX1C was purified from seminal vesicle secretions by a series of purification steps including ion exchange chromatography on a DEAE-Sephacel column and ion exchange high- performance liquid chromatography on a sulfopropyl column. Porcine QSOX1C was purified from seminal vesicle and epididymis tissue homogenates as well as from the seminal fluids by ammonium sulfate protein precipitation in combination with antibody- affinity column. To minimize the use of animals, we also established stable cell line overexpressed polyhistidine- and V5-tagged recombinant human QSOX2 using HEK293. A 65 kDa QSOX1C was detected in mouse, while two distinct bands at 50 and 75 kDa were observed in porcine. QSOX2 presents in a vacuole-like structure at the apical region of the epithelium in the reproductive tracts and the amount varies from caput to cauda of mouse and porcine epididymis. Moreover, mouse QSOX1C increases the formation of sperm aggregates by constant recruiting surrounding free-swimming sperm. By successful establishment of stable cell line expresses recombinant human QSOX2 and the natural QSOX1C, we could have the ability to understand the interactions of QSOXs and spermatozoa in the reproductive tract.