Evolution of the Group 1 late embryogenesis abundant (Lea) genes: analysis of the Lea B19 gene family in barley

The highly conserved Group 1 late embryogenesis abundant (Lea) genes are present in the genome of most plants as a gene family. Family members are conserved along the entire coding region, especially within the extremely hydrophilic internal 20 amino acid motif, which may be repeated. Cloning of Lea Group 1 genes from barley resulted in the characterization of four family members named B19.1, B19.1b, B19.3 and B19.4 after the presence of this motif 1, 1, 3 and 4 times in each gene, respectively. We present here the results of comparative and evolutionary analyses of the barley Group 1 Lea gene family (B19). The most important findings resulting from this work are (1) the tandem clustering of B19.3 and B19.4, (2) the spatial conservation of putative regulatory elements between the four B19 gene promoters, (3) the determination of the relative age of the gene family members and (4) the chimeric nature of B19.3 and B19.4, reflecting a cross-over or gene-conversion event in their common ancestor. We also show evidence for the presence of one or two additional expressed B19 genes in the barley genome. Based on our results, we present a model for the evolution of the family in barley, including the 20 amino acid motif. Comparisons of the relatedness between the barley family and all other known Group 1 Lea genes using maximum parsimony (PAUP) analysis provide evidence for the time of divergence between the barley genes containing the internal motif as a single copy and as a repeat. The PAUP analyses also provide evidence for independent duplications of Group 1 genes containing the internal motif as a repeat in both monocots and dicots.     

Serological diagnostic potential of recombinant outer membrane protein (Omp31) from Brucella melitensis in goat and sheep brucellosis

Outer membrane proteins of Brucella have been classified as group 1 (94 or 88 kDa), group 2 (36–38 kDa), and group 3 (31–34 and 25–27 kDa). Two proteins of 25 and 31 kDa with only 34% of identity are included in group 3 and they are coded for by the omp25 and omp31 genes. Proposed study planned to detect antibodies to Brucella melitensis Omp31 in farm goats having history of B. melitensis induced abortions, in B. melitensis-infected goats and sheep. By enzyme-linked immunosorbent assay (ELISA), using recombinant Omp31 as antigen, of 872 farm goats antibodies to Omp31 were detected in 112 (12.8%) cases. Out of 14 naturally infected goats infected with B. melitensis 12 (85.7%) showed anti Omp31 antibodies. Out of 10 naturally infected sheep with Brucella ovis, antibodies to Omp31 were detected only in 6 (60%) cases and in 18 (81.8%) out of 22 cases infected with B. melitensis. Obtained results were also compared with the rose Bengal plate test (RBPT). In controlled experiments, sensitivity and specificity of recombinant Omp31 (rOmp31) ELISA and RBPT were also evaluated and it was found that former test is 100% specific though RBPT has slightly higher sensitivity. In this study, we found a significant difference between the two groups (B. melitensis and B. ovis infected) in terms of the percentage of positive reactions or signal level by an ELISA. The reactivity of the positive sera against the purified rOmp31 was also tested by Western blotting. Sera from B. melitensis-infected animals showed a strong reactivity in comparison to sera from B. ovis-infected animals. The potential diagnostic usefulness of this antigen in combination with other recombinant proteins from B. melitensis would be of great importance in future in eradication of brucellosis.