MALDI-TOF MS Biomarker Detection Models to Distinguish RTX Toxin Phenotypes of Moraxella bovoculi Strains Are Enhanced Using Calcium Chloride Supplemented Agar

Moraxella bovoculi is the bacterium most often cultured from ocular lesions of cattle with infectious bovine keratoconjunctivitis, also known as bovine pinkeye. Some strains of M. bovoculi contain operons encoding for a repeats-in-toxin (RTX) toxin, which is a known virulence factor of multiple veterinary pathogens. We explored the utility of MALDI-TOF MS and biomarker detection models to classify the presence or absence of an RTX phenotype in M. bovoculi. Ninety strains that had undergone whole genome sequencing were classified by the presence or absence of complete RTX operons and confirmed with a visual assessment of hemolysis on blood agar. Strains were grown on Tryptic Soy Agar (TSA) with 5% sheep blood, TSA with 5% bovine blood that was supplemented with 10% fetal bovine serum, 10 mmol/LCaCl2, or both. The formulations were designed to determine the influence of growth media on toxin production or activity, as calcium ions are required for toxin secretion and activity. Mass spectra were obtained for strains grown on each agar formulation and biomarker models were developed using ClinProTools 3.0 software. The most accurate model was developed using spectra from strains grown on TSA with 5% bovine blood and supplemented with CaCl2, which had a sensitivity and specificity of 93.3% and 73.3%, respectively, regarding RTX phenotype classification. The same biomarker model algorithm developed from strains grown on TSA with 5% sheep blood had a substantially lower sensitivity and specificity of 68.0% and 52.0%, respectively. Our results indicate that MALDI-TOF MS biomarker models can accurately classify strains of M. bovoculi regarding the presence or absence of RTX toxin operons and that agar media modifications improve the accuracy of these models.

IMMUNOBIOLOGICAL PROPERTIES OF AN ASSOCIATED VACCINE AGAINST IN-FECTIOUS KERATOCONJUNCTIVITIS OF CATTLE BASED ON ANTIGENS OF BACTE-RIA MORAXELLA BOVIS AND MORAXELLA BOVOCULI

An associated vaccine against infectious keratoconjunctivitis in cattle based on the antigens of the bacteria Moraxella bovis and Moraxella bovoculi is presented. As antigens, the vaccine con-tains formalin-inactivated cell suspensions of bacterial strains Moraxella bovis «G97-VNIVI» and Moraxella bovoculi «SH-CH6-DEP» taken in the same proportions and the adsorbent is 6 % alumi-num hydroxide gel. The results of studying the immunobiological properties of an associated vaccine against cat-tle ICC based on antigens of bacteria Moraxella bovis and Moraxella bovoculi are presented. The data obtained show that the associated vaccine remained sterile, harmless and antigenically active during the observation period.

Relatedness of type IV pilin PilA amongst geographically diverse Moraxella bovoculi isolated from cattle with infectious bovine keratoconjunctivitis

Introduction. Moraxella bovoculi is frequently isolated from the eyes of cattle with infectious bovine keratoconjunctivitis (IBK; pinkeye). As with M. bovis, which has been causally linked to IBK, M. bovoculi expresses an RTX (repeats in the structural toxin) cytotoxin that is related to M. bovis cytotoxin. Pilin, another pathogenic factor in M. bovis , is required for corneal attachment. Seven antigenically distinct pilin serogroups have been described in M. bovis . Hypothesis/Gap Statement. Multiple different serogroups exist amongst type IV pilin encoded by M. bovis , however, it is not known whether M. bovoculi exhibits a similar degree of diversity in type IV pilin that it encodes. Aim. This study was done to characterize a structural pilin (PilA) encoded by M. bovoculi isolated from cases of IBK to determine if diversity exists amongst PilA sequences. Methodology. Ninety-four isolates of M. bovoculi collected between 2002 and 2017 from 23 counties throughout California and from five counties in four other Western states were evaluated. Results. DNA sequencing and determination of deduced amino acid sequences revealed ten (designated groups A through J) unique PilA sequences that were ~96.1–99.3 % identical. Pilin groups A and C matched previously reported putative PilA sequences from M. bovoculi isolated from IBK-affected cattle in the USA (Virginia, Nebraska, and Kansas) and Asia (Kazakhstan). The ten pilin sequences identified were only ~74–76 % identical to deduced amino acid sequences of putative pilin proteins identified from the previously reported whole-genome sequences of M. bovoculi derived from deep nasopharyngeal swabs of IBK-asymptomatic cattle. Conclusions. Compared to the diversity reported between structural pilin proteins amongst different serogroups of M. bovis , M. bovoculi PilA from geographically diverse isolates derived from IBK-affected cattle are more conserved.

Draft Genome Sequence of Moraxella bovoculi Strain KZ-1, Isolated from Cattle in North Kazakhstan

ABSTRACT Moraxella bovoculi strain KZ-1 was isolated from cattle that had symptoms of infectious bovine keratoconjunctivitis (IBK) in northern Kazakhstan. Here, we report the draft genome sequence of this strain.

Efficient multiplex genome editing using CRISPR-Mb3Cas12a in mice

Despite many advantages over Cas9, Cas12a has not been widely used in genome editing in mammalian cells largely due to its strict requirement of the TTTV protospacer adjacent motif (PAM) sequence. Here, we report that Mb3Cas12a (Moraxella bovoculi AAX11_00205) could edit the genome in murine zygotes independent of TTTV PAM sequences and with minimal on-target mutations and close to 100% editing efficiency when crRNAs of 23nt spacers were used.Summary statementCRISPR-Mb3Cas12a can target a broader range of sequences in murine zygotes compared to AsCas12a and LbCas12a, and has lower on-target effects than Cas9 and high overall knock-in efficiency.