Structural organization of the beta-globin locus of B-haplotype sheep

Goats and some sheep synthesize a juvenile hemoglobin, Hb C (alpha 2 beta C2), at birth and produce this hemoglobin exclusively during severe anemia. Sheep that synthesize this juvenile hemoglobin are of the A haplotype. Other sheep, belonging to a separate group, the B haplotype, do not synthesize hemoglobin C and during anemia continue to produce their adult hemoglobin. To understand the basis for this difference we have determined the structural organization of the beta- globin locus of B-type sheep by constructing and isolating overlapping genomic clones. These clones have allowed us to establish the linkage map 5' epsilon I-epsilon II-psi beta I-beta B-epsilon III-epsilon IV- psi beta II-beta F3' in this haplotype. Thus, B sheep lack four genes, including the BC gene, and have only eight genes, compared with the 12 found in the goat globin locus. The goat beta-globin locus is as follows: 5' epsilon I-epsilon II-psi beta X-beta C-epsilon III-epsilon IV-psi beta Z-beta A-epsilon V-epsilon VI-psi beta Y-beta F3'. Southern blot analysis of A-type sheep reveals that these animals have a beta- globin locus similar to that of goat, i.e., 12 globin genes. Thus, the beta-globin locus of B-haplotype sheep resembles that of cows and may have retained the duplicated locus of the ancestor of cows and sheep. Alternatively, the B-sheep locus arrangement may be the result of a deletion of a four-gene set from the triplicated locus.      

Purification and characterization of catabolic mannopine cyclase encoded by the Agrobacterium tumefaciens Ti plasmid pTi15955.

Catabolic mannopine (MOP) cyclase encoded by certain Agrobacterium Ti and Ri plasmids lactonizes MOP to agropine (AGR). The enzyme, purified to homogeneity from a recombinant clone, has a molecular mass of 45 kDa as measured by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and size exclusion chromatography. The enzyme catalyzed the lactonization of MOP to AGR without the need for any cofactors. The enzyme also converted AGR to MOP with the lactonizing activity being predominant over the reverse reaction. MOP cyclase is specific for imine conjugates of D-hexose and L-glutamine and was not inhibited by sugars or amino acids. The enzyme lactonized deoxyfructosyl glutamine, a natural intermediate of MOP synthesis and catabolism, to a product indistinguishable from chrysopine, a newly discovered crown gall opine. The enzyme also lactonized N-l-(1,2-dideoxy-D-mannityl)-L-glutamine, indicating that a hydroxyl group at carbon atom 2 of the sugar moiety is not required for the enzymatic reaction.     

Altruism,tit for tat and ‘outlaw’ genes

Summary In a prior study we combined game theory and inclusive fitness models to examine whether the guarded altruism that can evolve among non-relatives (tit for tat, TFT) might also evolve among close relatives, supplanting unconditional altruism. In most cases, TFT replaced unconditional altruism in family-structured models. Even when TFT is selected at a single locus, however, by withholding altruism from non-reciprocating relatives it may qualify as an outlaw from the standpoint of modifier genes at other loci. Here we examine this possibility with a series of haploid, two-locus models in which a modifier gene transforms TFT into unconditional altruism. The modifier allele spreads to fixation whenever Hamilton's Rule is satisfied, resulting in an unconditional altruist replacing the TFT strategy. As such, TFT may be regarded as an outlaw vulnerable to suppression by alleles at other loci.     

A novel gene tag for identifying microorganisms released into the environment.

A novel method using a moc (mannityl opine catabolism) region from the Agrobacterium tumefaciens Ti plasmid pTi15955 was developed as a tag to identify genetically modified microorganisms released into the environment. Pseudomonas fluorescens 1855.344, a plant-growth-promoting rhizosphere bacterium, was chosen as the organism in which to develop and test the system. moc genes carried by pYDH208, a cosmid clone containing a 20-kb segment of the octopine-mannityl opine-type Ti plasmid, conferred on P. fluorescens strains the capacity to utilize mannopine and agropine (AGR) as a sole source of carbon and energy. Modified P. fluorescens strains containing moc or moc::nptII inserted into a chromosomal site were constructed by marker exchange. One such modified strain, PF5MT12, utilized AGR as a sole carbon source and contained detectable levels of mannopine cyclase, an easily assayable enzyme encoded by the moc region. Catabolism of AGR could be used to recover selectively the marked strain from mixed populations containing a large excess of closely related bacteria. Nucleic acid-based detection strategies were developed on the basis of the unique fusion region between Agrobacterium DNA and Pseudomonas DNA in strain PF5MT12. The specificity and sensitivity of detection of PF5MT12 were enhanced by amplifying the fused DNA region by using PCR. The target fragment could be detected at levels of sensitivity comparable to those of other described PCR-based gene tags, even in the presence of high levels of Agrobacterium, Pseudomonas, or Escherichia coli DNA. This gene tag strategy gives a method for direct selection and enumeration of the marked strain from mixtures containing a large excess of closely related bacteria and a sensitive and highly specific system for detection by PCR amplification of the target fragment even in the presence of large amounts of DNA from related or unrelated organisms.     

Spontaneous mutation conferring the ability to catabolize mannopine in Agrobacterium tumefaciens.

Two nopaline-type strains of Agrobacterium tumefaciens, C58 and T37, as well as strain A136, which is a Ti plasmid-cured derivative of strain C58, gave rise to spontaneous mutants that were able to grow on mannopine. The observation of mutagenesis with strain A136 demonstrated that the ability to acquire this new catabolic potential was independent of the presence of a Ti plasmid. The mutants were isolated after 4 weeks of incubation on minimal medium containing mannopine as the sole carbon source. They also utilized mannopinic acid, but not agropine or agropinic acid. In addition, the spontaneous mutant LM136, but not its parent strain A136, degraded many mannityl opine analogs. [14C]mannopine disappeared in the presence of LM136 cells which had been pregrown on opine or nonopine substrates. These results suggested that the catabolic system of this mutant was not subject to a stringent regulation. A clone conferring the ability to utilize mannopine on a recipient pseudomonad was selected from a genomic library from both the mutant LM136 and its parent strain. Only the LM136 clone was expressed in the parent Agrobacterium strain A136. Southern analysis showed that the genes for mannopine catabolism in the spontaneous mutants differed from the corresponding Ti plasmid-encoded genes of octopine-type or agropine-type Agrobacterium strains. Cells of LM136 utilized [14C]mannopine without generating detectable amounts of intracellular agropine. In contrast, a major fraction of the radioactivity recovered from cells of the octopine-type strain Ach5, after incubation on [14C]mannopine, was in the form of agropine.     

Suppression of tumorigenicity by the IncW R plasmid pSa in Agrobacterium tumefaciens

Summary The effect of the IncW R plasmid, pSa, on tumorigenicity and on the expression and maintenance of the Ti plasmid in tumorigenic strains of A. tumefaciens was determined. Plasmid pSa could be transferred into and stably maintained by both octopine-and nopaline-utilizing A. tumefaciens strains. The R plasmid had no effect on Ti plasmid maintenance or on Ti plasmid functions, such as octopine utilization or conjugal bacterial transfer. However, A. tumefaciens strains harboring both the R plasmid and the Ti plasmid in most instances failed to induce tumors on a number of plant species. This effect on tumorigenicity is specific to pSa. When pSa is cured from the A. tumefaciens transconjugants or when their Ti plasmids are genetically transferred to an appropriate recipient, the resultant strains lacking the R plasmid regain tumorigenicity. Restriction endonuclease analysis of plasmid DNA isolated from transconjugants harboring pSa showed no difference in Ti plasmid cleavage patterns when compared to plasmid DNA isolated from the tumorigenic parent strain. These results indicate that pSa does not induce detectable permanent genetic alteration of the Ti plasmid. Rather, it appears that the R plasmid suppresses some Ti plasmid function(s) necessary for tumorigenicity.     

Selective inhibition of prostaglandin biosynthesis by gold salts and phenylbutazone

Gold salts and phenylbutazone selectively inhibit the synthesis of PGF_2α and PGE₂ respectively. Lowered production of one prostaglandin species is accompanied by an increased production of the other. Selective inhibition by these drugs was observed in the presence of adrenaline, reduced glutathione and copper sulphate under conditions when most anti-inflammatory compounds inhibited PGE₂ and PGF_2α syntheses equally. It is postulated that selective inhibitors may have a different mode of action and beneficial effects may be related to the endogenous ratio of PGE to PGF required for normal function.