Structural and biophysical characterization of the major proteins from the seminal plasma of Dorper rams.

Pregnancy rates using frozen semen from rams are higher than for horses. One of the factors that positively influences this effect is the composition of low-molecular-weight proteins from seminal plasma, since the amounts of these proteins are much lower in horses. The aim of this work was to purify the major protein components from ram seminal plasma for structural and biophysical characterization. First, the ram semen was collected and the plasma separated by centrifugation. The protein fractions were isolated by gel filtration chromatography, analyzed by circular dichroism spectroscopy and the amino acid sequence identified by mass spectrometry (LC-MSE), the results of which were used to model the protein structure by bioinformatics techniques. This protein was identified by LC-MSE as a spermadhesin, being an unglycosylated monomer with Tm = 69.3 °C and ΔHm= 371 kJ mol-1 at pH 7.0. This work describes for the first time the structural characterization of a spermadhesin from seminal plasma of Dorper rams.

Purification, structural and biophysical characterisation of the major seminal plasma protein from Texel rams.

Spermadhesins are a group of low molecular weight proteins present in seminal plasma. In Texel rams, they represent more than 70% of the seminal plasma proteins. Although their functions have not yet been fully clarified, there is much discussion about the role of these proteins in maintaining sperm viability during and after the semen freezing process. This work sought to isolate the major component of the seminal plasma from rams of the Texel breed (O. aries SPD2) and to evaluate its structural and biophysical characteristics in order to better understand its role in spermatic viability. The protein was isolated by centrifugation and ion exchange chromatography and its biophysical properties were evaluated by circular dichroism spectrometry. Molecular dynamics simulations of the modelled protein compared to the homologous bovine protein were also carried out. The results showed that O. aries SPD2 has a transition temperature (Tm) of 65 °C and a ΔHm of 322.5 kJ mol-1, similar to the results for other spermadhesins described in the literature. The estimated composition of the secondary structure elements for the native protein is in agreement with that observed for the theoretical model. Its structural characteristics were preserved in simulations at temperatures of 27 °C and 40 °C, as was the case for bull spermadhesin. Taken together, these results suggest that the major component of the spermadhesins of Texel rams (O. aries SPD2) may play an important role in maintaining the viability of spermatozoa in fresh semen as well as after thawing.

Ion-exchange chromatography used to isolate a spermadhesin-related protein from domestic goat (Capra hircus) seminal plasma

Mammalian seminal plasma contains among others, proteins called spermadhesins, which are the major proteins of boar and stallion seminal plasma. These proteins appear to be involved in capacitation and sperm-egg interaction. Previously, we reported the presence of a protein related to spermadhesins in goat seminal plasma. In the present study, we have further characterized this protein, and we propose ion-exchange chromatography to isolate this seminal protein. Semen was obtained from four adult Saanen bucks. Seminal plasma was pooled, dialyzed against distilled water and freeze-dried. Lyophilized proteins were loaded onto an ion-exchange chromatography column. Dialyzed-lyophilized proteins from the main peak of DEAE-Sephacel were applied to a C2/C18 column coupled to an RP-HPLC system, and the eluted proteins were lyophilized for electrophoresis. The N-terminal was sequenced and amino acid sequence similarity was determined using CLUSTAL W. Additionally, proteins from DEAE-Sephacel chromatography step were dialyzed and submitted to a heparin-Sepharose high-performance liquid chromatography. Goat seminal plasma after ion-exchange chromatography yielded 6.47 +/- 0.63 mg (mean +/- SEM) of the major retained fraction. The protein was designated BSFP (buck seminal fluid protein). BSFP exhibited N-terminal sequence homology to boar, stallion and bull spermadhesins. BSFP showed no heparin-binding capabilities. These results together with our previous data indicate that goat seminal plasma contains a protein that is structurally related to proteins of the spermadhesin family. Finally, this protein can be efficiently isolated by ion-exchange and reverse-phase chromatography.