High-level synthesis of bovine growth hormone (bGH) in Escherichia coli was achieved by maximizing gene transcription and optimizing the translational efficiency of bGH mRNA. Nearly all of the recombinant hormone was found in the pellet fraction after bacterial cell lysis. This property allowed the purification of bGH nearly to homogeneity. Protein sequence analysis indicated that greater than 93% of the purified hormone had the amino-terminal methionine residue removed by E. coli, yielding mature bGH. In a hypophysectomized rat assay system, purified bacterial-produced bGH demonstrated growth-promoting activity equivalent to that of pituitary-derived bovine growth hormone.
Methionine-requiring and pantothenic acid-requiring auxotrophs of Rhizobium japonicum USDA 31, as weli as highly antibiotic-resistant mutants of R. japonicum strains USDA 31, USDA 110, USDA 138, and Webster 48, were isolated. These mutants were used to transfer the P-1 group plasmids R68.45 and RP4 within and between strains USDA 31, USDA 110, and Webster 48. Attempts to demonstrate transfer of either plasmid to strain USDA 138 were unsuccessful.
Four of five groups of Holestine by Angus calves (5 calves/group) were immunized with different formulations of a recombinant BPV-1 DNA vaccine using a BPV-1 major capsid: B-galactosidase fusion protein as the immunogen. Group 5 was not vaccinated. Vaccinated calves received the vaccine on days 0 and 21 of the trial, and calves from all five groups were challenged intradermally with 1010 BPV-1 particles at each of two different sites on day 56. All calves were bled on days 3, 24, 55, 77, and 104 of the trial, and the sera were tested for reactivity with intact and disrupted BPV-1 particles by ELISA. At the time of challenge with BPV-1 virions (day 56), 19 of 20 vaccinated calves were seropositive for disrupted BPV-1 particles; sera from 3 of 20 calves reacted with intact BPV-1 virions. By day 77,11 of 19 vaccinated calves had developed antibody titers to intact BPV-1 virions; only 1 calf in group 5 developed antibodies (transiently) against BPV-1 capsid epitopes. After challenge, 24 of 25 calves from the five groups developed intradermal fibromas, the biological end point of this study. Fibromas appeared to increase in size in group 5 (unvaccinated, inoculated controls), whereas most tumors from the four vaccinated groups (1–4) stabilized or decreased in size. Although the calves developed fibromas, 90% of calves (in groups 1–4) developed antibodies against disrupted BPV-1 capsid proteins whereas 58% developed antibodies that reacted with intact virions. The immunologic response of vaccinated calves to intact and disrupted BPV-1 particles appeared to be determined in large part by the various formulations of the vaccine, particularly the adjuvant.
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