Babesia isolates from an elk (Cervus elaphus canadensis) and a caribou (Rangifer tarandus caribou) with fatal infections were compared to Babesia odocoilei (Engeling isolate) from white-tailed deer (Odocoileus virginianus) by experimental infection, serologic, and small subunit ribosomal RNA (SSU rRNA) gene sequence analysis studies. Both the indirect fluorescent antibody test and immunoprecipitation assays demonstrated antigenic variation among the isolates. Experimental infection studies showed no clinical differences among the isolates. Nucleotide sequence analysis showed that the elk and caribou Babesia sp. isolates possessed SSU rRNA genes with identical sequences to that of B. odocoilei. A phylogenetic tree constructed from SSU rRNA gene sequences shows that B. odocoilei is most closely related to Babesia divergens, both of which branch together in the true babesia clade.
eThe African swine fever virus (ASFV) causes a fatal hemorrhagic disease in domestic swine, and at present no treatment or vaccine is available. Natural and gene-deleted, live attenuated strains protect against closely related virulent strains; however, they are yet to be deployed and evaluated in the field to rule out chronic persistence and a potential for reversion to virulence. Previous studies suggest that antibodies play a role in protection, but induction of cytotoxic T lymphocytes (
The systematics of benign and moderately pathogenic Theileria isolates from cattle and deer originating from different geographic regions was undertaken by small-subunit ribosomal RNA (SSU rRNA) gene nucleotide-sequence analysis. A maximum-likelihood phylogenetic tree constructed from these sequences resulted in two major divisions, each with a common ancestor. One major division branches into four relatively divergent groups, including (1) bovine Theileria sp. Type D (USA and Korea), (2) T. mutans Intona and Theileria sp. MSD (Africa), (3) T. cervi (USA), and (4) well-characterized pathogenic Theileria spp. (Africa). The other major division branches into two groups: (1) T. buffeli Warwick and T. buffeli Marula and (2) a second branch of closely related isolates with SSU rRNA gene Types B, B1, C, E, and H. Putative geographically associated diversity was noted only in the Korean bovine Theileria spp. with SSU rRNA gene types C and H and in African T. mutans Intona and Theileria sp. MSD. The current results show that the United States bovine Theileria isolates are not T. mutans because they have T. buffeli Marula (Type A) and/or Type D (species undesignated) SSU rRNA gene sequences. The taxonomic separation of T. buffeli Warwick from African T. mutans is confirmed in this study.
Although acyl-CoA binding protein (ACBP) stimulates utilization of long-chain fatty acyl-CoA by a variety of membrane-bound enzymes, it is not known whether ACBP directly interacts with membranes. To test this hypothesis, mouse recombinant (mr) ACBP was engineered to contain the native mouse ACBP amino acid sequence expressed as a fusion protein at high levels (>150 mg/L) in Escherichia coli. Purification and cleavage of the fusion tag resulted in mrACBP identical to native ACBP as shown by mass (10000.5 Da) and amino acid sequence (peptide mapping after proteolysis) determined by matrix-assisted laser desorption time of flight (MALDI-TOF) mass spectroscopy. The mrACBP was functionally active as shown by binding of cis-parinaroyl-CoA with high affinity, K(d) = 12 +/- 2 nM, at a single binding site, stimulating oleoyl-CoA utilization by microsomal glycerol-3-phosphate acyltransferase 3.2-fold and protecting oleoyl-CoA from microsomal acyl-CoA hydrolase. Direct interaction of mrACBP with membranes was demonstrated by two independent methods: (i) Circular dichroism showed an 8% increase in alpha-helix content of mrACBP in the presence of anionic phospholipid-rich, but not neutral, small unilamellar vesicles (SUV). (ii) Membrane filtration confirmed that mrACBP bound to anionic phospholipid-rich SUV but only weakly interacted with neutral SUV or large unilamellar vesicles (LUV), regardless of charge. (iii) The mrACBP-oleoyl-CoA complex transferred 2-3-fold more oleoyl-CoA to anionic phospholipid-rich SUV than to anionic phospholipid-rich LUV and neutral SUV or LUV. Conversely, mrACBP extracted less oleoyl-CoA from anionic phospholipid-rich SUV. Taken together, these data indicated for the first time that mrACBP interacted preferentially with anionic phospholipid-rich, highly curved membranes to facilitate transfer of ACBP-bound ligands.
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