Evolutionary patterns of two major reproduction candidate genes (Zp2 and Zp3) reveal no contribution to reproductive isolation between bovine species

<p>Abstract</p> <p>Background</p> <p>It has been established that mammalian egg zona pellucida (ZP) glycoproteins are responsible for species-restricted binding of sperm to unfertilized eggs, inducing the sperm acrosome reaction, and preventing polyspermy. In mammals, ZP apparently represents a barrier to heterospecific fertilization and thus probably contributes to reproductive isolation between species. The evolutionary relationships between some members of the tribe Bovini are complex and highly debatable, particularly, those involving <it>Bos </it>and <it>Bison </it>species for which interspecific hybridization is extensively documented. Because reproductive isolation is known to be a major precursor of species divergence, testing evolutionary patterns of ZP glycoproteins may shed some light into the speciation process of these species. To this end, we have examined intraspecific and interspecific genetic variation of two ZP genes (<it>Zp2 </it>and <it>Zp3</it>) for seven representative species (111 individuals) from the Bovini tribe, including five species from <it>Bos </it>and <it>Bison</it>, and two species each from genera <it>Bubalus </it>and <it>Syncerus</it>.</p> <p>Results</p> <p>A pattern of low levels of intraspecific polymorphism and interspecific divergence was detected for the two sequenced fragments each for <it>Zp2 </it>and <it>Zp3</it>. At intraspecific level, none of neutrality tests detected deviations from neutral equilibrium expectations for the two genes. Several haplotypes in both genes were shared by multiple species from <it>Bos </it>and <it>Bison</it>.</p> <p>Conclusions</p> <p>Here we argue that neither ancestral polymorphism nor introgressive hybridization alone can fully account for haplotype sharing among species from <it>Bos </it>and <it>Bison</it>, and that both scenarios have contributed to such a pattern of haplotype sharing observed here. Additionally, codon-based tests revealed strong evidence for purifying selection in the <it>Zp3 </it>coding haplotype sequences and weak evidence for purifying selection in the <it>Zp2 </it>coding haplotype sequences. Contrary to a general genetic pattern that genes or genomic regions contributing to reproductive isolation between species often evolve rapidly and show little or no gene flow between species, these results demonstrate that, particularly, those sequenced exons of the <it>Zp2 </it>and the <it>Zp3 </it>did not show any contribution to reproductive isolation between the bovine species studied here.</p

Glycosylation of zona pellucida glycoprotein-3 is required for inducing acrosomal exocytosis in the bonnet monkey

To investigate the role of polypeptide backbone vis-à-vis glycosylation of the putative primary sperm receptor, the bonnet monkey (Macaca radiata) zona pellucida glycoprotein-3 (bmZP3), excluding the N-terminal signal sequence and the C-terminal transmembrane-like domain, was expressed as polyhistidine fusion protein either in Escherichia coli orusing baculovirus expression system. The recombinant bmZP3 (r-bmZP3) was purified using nickel-nitrilotriacetic acid resin and subsequently refolded in the presence of oxidized and reduced glutathione. SDS-PAGE and Western blot analysis revealed approximately 43 and approximately 52 kDa bands corresponding to E. coli and baculovirus expressed r-bmZP3, respectively. The r-bmZP3 purified from both E. coli and baculovirus binds to the principal segment of the acrosomal cap of the capacitated bonnet monkey spermatozoa as evaluated by indirect immunofluoresence assay. In a competitive inhibition assay, the binding of biotinylated baculovirus expressed r-bmZP3 to capacitated spermatozoa was inhibited not only by cold baculovirus expressed r-bmZP3 but also by E. coli expressed r-bmZP3 and vice-versa. Lectin binding studies revealed that the baculovirus r-bmZP3 has N-linked glycosylation with galactose and mannose residues. Capacitated spermatozoa, in the presence of baculovirus expressed r-bZP3, undergoes a significant increase (p &lt; 0.01) in the acrosomal exocytosis as compared to control whereas E. coli expressed r-bmZP3 failed to have a significant effect. These results suggest that though the polypeptide backbone of ZP3 is sufficient for its binding to capacitated spermatozoa, yet glycosylation is required for induction of acrosomal exocytosis

Comparative molecular biology and immunology of zona pellucida glycoproteins: fundamantals and applied aspects for contraception

This article does not have an abstract

Update on zona pellucida glycoproteins based contraceptive vaccine

Zona pellucida (ZP) glycoproteins, due to their critical role in mammalian fertilization, have been proposed as candidate immunogens for development of a contraceptive vaccine. Active immunization studies in a variety of animal species, employing either native or recombinant zona proteins, has established their contraceptive potential. Hence, ZP glycoprotein-based contraceptive vaccines have a very good potential for controlling wild life population. To make it a realistic proposition, additional research inputs are required to develop new potent adjuvants and novel practical strategies for vaccine delivery. The observed ovarian dysfunction, often associated with immunization by ZP glycoproteins, is one of the major obstacles for their application in the control of human population. Ongoing studies to delineate epitopes of ZP glycoproteins that will generate an immune response capable of inhibiting fertility without any untoward effects on ovarian functions will help in determining their feasibility for human use

How 1,n-Bis(3-alkylimidazolium-1-yl) Alkane Interacts with the Phospholipid Membrane and Impacts the Toxicity of Dicationic Ionic Liquids

Ionic liquids based on doubly charged cations, often termed dicationic ionic liquids (DILs), offer robust physicochemical properties and low toxicity than conventional monocationic ionic liquids. In this design-based study, we used solid-state NMR spectroscopy to provide the interaction mechanism of two DILs, 1,n-bis(3-alkylimidazolium-1-yl) alkane dibromide ([C2n(C7–nIM)2]2+·2Br–, n = 1, 6), with 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine (POPC) and 1-palmitoyl-2-oleoyl-sn-glycero-3-phospho-(1′-rac-glycerol) (POPG) phospholipid membranes, to explain the low toxicity of DILs toward HeLa, Escherichia coli, Bacillus subtilis, and Saccharomyces cerevisiae cell lines. Dications with a short linker and long terminal chains cause substantial perturbation to the bilayer structure, making them more membrane permeabilizing, as shown by fluorescence-based dye leakage assays. The structural perturbation is even higher than [C12(MIM)]+ monocations, which carry a single 12-carbon long chain and exhibit a much higher membrane affinity, permeability, and cytotoxicity. These structural details are a crucial contribution to the design strategies aimed at harnessing the biological activity of ionic liquids