Bioinformatics analysis and the association of polymorphisms within the caprine GDF9 gene promoter with economically useful traits in Damani goats.

The blood sample from 60 Damani does were collected and genomic DNA was extracted, and DNA integrity were investigated. A 447 bp promoter fragment of the GDF9 gene was amplified and Sanger sequenced for the identification of GDF9 gene polymorphism. Three novel SNPs were identified at positions g. 97(T > A), g. 142 (G > G) and g. 313(C > T) in the promoter region of the caprine GDF9 gene which significantly (P < 0.05) influenced litter size, body measurement, and milk production traits in Damani goats. The genotype CT of SNP1 significantly (P < 0.05) improved litter size, genotype GG of SNP2 significantly (P < 0.05) enhanced milk production, while the genotypes CC of SNP3 significant (P < 0.05) increased body measurement traits in Damani goats. Moreover, in SNP1 loss of 3 transcription factors (TF) binding sites occurred, SNP2 caused loss of two TFs binding sites, and SNP3 caused loss of a single TF binding site. Similarly, SNP1 and SNP2 caused the gain of three new potential TF binding sites, and SNP3 caused gain of two new TF binding sites. It is concluded that caprine GDF9 gene could be used as a candidate gene for litter size, milk production and body measurement traits in Damani goats through marker-assisted selection for future breeding program.

Secreted MbovP0145 Promotes IL-8 Expression through Its Interactive ß-Actin and MAPK Activation and Contributes to Neutrophil Migration.

Mycoplasma bovis (M. bovis) is an important pathogen of cattle responsible for huge economic losses in the dairy and beef industries worldwide. The proteins secreted by M. bovis are mainly related to its adhesion, invasion, virulence, and intracellular survival and play a role in mycoplasma-host interactions. In our previous study, we found MbovP0145, a secreted protein present in the M. bovis secretome, but little is known about its function. In this study, we assessed the inflammatory characteristics and underlined mechanism of this inflammation of recombinant MbovP0145 (rMbovP0145). For this, bovine lung epithelial cells (EBL) were stimulated by rMbovP0145 to see the IL-8 production in a time- and dose-dependent manner. We observed that rMbovP0145 increased the production of IL-8 via ERK1/2 and P38 pathway activation. Further, the effect of the M. bovis ΔMbov_0145 mutant and its complementary strain on IL-8 mRNA expression was also confirmed. A pulldown assay of the GST-tagged MbovP0145 protein with mass spectrometry demonstrated that ß-actin could specifically interact with rMbovP0145 to mediate the IL-8 signaling. As knockdown of ß-actin expression with RNA interference in EBL cells decreased the mRNA expression of IL-8 and the phosphorylated ERK1/2 and P38 proteins, whereas disrupted actin polymerization by cytochalasin D led to a significantly higher IL-8 expression and MAPK phosphorylation in rMbovP0145-stimulated cells. Compared to M. bovis HB0801 and its complementary strain, the culture supernatant of EBL cells infected with the M. bovis ΔMbov_0145 mutant induced less neutrophil migration to the lower chamber in a transwell system. In conclusion, MbovP0145 promoted IL-8 expression by interacting with ß-actin through activation of the MAPK pathway, thus contributing to neutrophil migration.

Two dimensional gel electrophoresis (2-DE) for high-throughput proteome analyses of Mycoplasma bovis.

Expression proteomics approaches do not only directly confirm protein coding genes of sequenced genomes but also facilitate resolution of minute qualitative protein differences and improve the quality of genome annotation. Despite development of many tools, use of 2-DE coupled with MS in proteomics is not uncommon. With an accelerated trend of genome sequencing of microorganisms, proteome analysis of animal pathogens with 2-DE has gained more attention in the last decade. Therefore, in this study primarily the protein extraction, sample preparation and loading, IPG strip rehydration, IEF, and SDS-PAGE conditions were improved for high throughput resolution and reproducible 2-DE map of proteins of Mycoplasma bovis HB0801 (M. bovis HB0801- Chinese Strain), a pneumonia pathogen in feedlot cattle, and its attenuated strains. Literally, higher amount of proteins was extracted exploiting the French pressure cell coupled with TCA precipitation when compared to the sonication method. Total protein concentration was determined using a 2D quant Kit. About 330-380 µg TCA treated protein sample, solubilized in calibrated rehydration solution, loaded on 17 cm IPG gel strip (pH 3-10 NL) followed by active rehydration at 50V and isoelectric focusing at final 10 000 Volt (33 uA/gel strip) for 80kVh had revealed well resolved proteins spots on 10% gel stained by CBB R250 (0.15%), representing 83-89% of the total protein coding genes of M. bovis HB0801, estimated by PD Quest (Bio-Rad, USA). Conclusively, this effort attempted to provide more precise 2-DE platform and suitable conditions, after extensive calibration, for future comprehensive proteome and immunoproteome analyses and future research on the elucidation of factors related to pathogenesis of M. bovis in cattle.

Mycoplasma bovis NADH oxidase functions as both a NADH oxidizing and O2 reducing enzyme and an adhesin.

Mycoplasma bovis causes considerable economic losses in the cattle industry worldwide. In mycoplasmal infections, adhesion to the host cell is of the utmost importance. In this study, the amino acid sequence of NOX was predicted to have enzymatic domains. The nox gene was then cloned and expressed in Escherichia coli. The enzymatic activity of recombinant NOX (rNOX) was confirmed based on its capacity to oxidize NADH to NAD+ and reduce O2 to H2O2. The adherence of rNOX to embryonic bovine lung (EBL) cells was confirmed with confocal laser scanning microscopy, enzyme-linked immunosorbent assay, and flow cytometry. Both preblocking EBL cells with purified rNOX and preneutralizing M. bovis with polyclonal antiserum to rNOX significantly reduced the adherence of M. bovis to EBL cells. Mycoplasma bovis NOX-expressed a truncated NOX protein at a level 10-fold less than that of the wild type. The capacities of M. bovis NOX- for cell adhesion and H2O2 production were also significantly reduced. The rNOX was further used to pan phage displaying lung cDNA library and fibronectin was determined to be potential ligand. In conclusion, M. bovis NOX functions as both an active NADH oxidase and adhesin, and is therefore a potential virulence factor.