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Summary The product of the dye gene of Escherichia coli, mapping at 99–100 min, is required for expression of the sex factor F, and also appears to be involved in the regulation of envelope proteins. Mutation of dye thus results in loss of expression of the F-factor (Fex–, i.e. male sterility, and dye sensitivity (Dyes). We have isolated a plasmid, pRB38, in which a 6 kb SalI fragment carrying the dye
+ gene was cloned into the plasmid pACYC184. This 6 kb SalI fragment also carries two nearby markers, chlG, involved in the synthesis of the molybdenum cofactor, and phoM, required for constitutive expression of alkaline phosphatase.Some of the polypeptides synthesised by pRB38 were identified using the maxi-cell procedure. The product of the dye gene was found to be a polypeptide of Mr=29,000. Thus derivatives of pRB38 in which the transposon was inserted into dye, resulting in a DyeS Fex– phenotype when these plasmids were in a dye strain, failed to produce this polypeptide and in some cases produced a truncated product. Such insertions also resulted in a Chlr and Pho– phenotype when the plasmid was in a (dye-chlG-phoM) phoR strain, although complementation tests suggested that the phoM
+ and chlG
+ genes were still intact. Insertions of into the promoter distal end of dye did not result in a DyeS Fex– phenotype, although a truncated Dye protein was synthesised, and a Chlr Pho– phenotype was produced.It has been suggested (Gaffney et al. 1983) that the dye (=sfrA) gene product is necessary for F-factor expression because it is required for translocation of the F-factor TraJ protein to the outer membrane. Our results suggest that the Dye protein is also required for expression of the molybdenum cofactor and of alkaline phosphatase, and could perhaps be involved in the translocation of these proteins to the membrane. 相似文献
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J Drury 《BMJ (Clinical research ed.)》1983,287(6395):815-819
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P L Drury S Ratter S Tomlin J Williams J E Dacie L H Rees G M Besser 《BMJ (Clinical research ed.)》1982,284(6308):9-12
Twenty-three patients with adrenocorticotrophic hormone-(ACTH)-dependent Cushing''s syndrome were subjected to selective venous catheterisation and sampling for ACTH on a total of 26 occasions. Out of 10 patients with pituitary-dependent disease, nine had raised ACTH concentrations in one or both high internal jugular vein samples. Eight patients had 11 proved sites of ectopic hormone production: of these, six were correctly identified by the sampling technique, and in four of them this was the only accurate method of localisation. The results of one catheterisation were misleading, and on 10 occasions they were inconclusive; five patients remained undiagnosed by any method. Overall, 15 of the 26 catheterisations provided diagnostically valuable information. Selective venous catheterisation and sampling for ACTH is effective in confirming a pituitary source of the hormone and may be valuable in locating the source of ectopic ACTH production in some cases. 相似文献
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Crawford Drury 《Molecular ecology》2020,29(3):448-465
Coral reefs are under extreme threat due to a number of stressors, but temperature increases due to changing climate are the most severe. Rising ocean temperatures coupled with local extremes lead to extensive bleaching, where the coral‐algal symbiosis breaks down and corals may die, compromising the structure and function of reefs. Although the symbiotic nature of the coral colony has historically been a focus of research on coral resilience, the host itself is a foundational component in the response to thermal stress. Fixed effects in the coral host set trait baselines through evolutionary processes, acting on many loci of small effect to create mosaics of thermal tolerance across latitudes and individual coral reefs. These genomic differences can be strongly heritable, producing wide variation among clones of different genotypes or families of a specific larval cross. Phenotypic plasticity is overlaid on these baselines and a growing body of knowledge demonstrates the potential for acclimatization of reef‐building corals through a variety of mechanisms that promote resilience and stress tolerance. The long‐term persistence of coral reefs will require many of these mechanisms to adjust to warmer temperatures within a generation, bridging the gap to reproductive events that allow recombination of standing diversity and adaptive change. Business‐as‐usual climate scenarios will probably lead to the loss of some coral populations or species in the future, so the interaction between intragenerational effects and evolutionary pressure is critical for the survival of reefs. 相似文献
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Miriam E. Koome Joanne O. Davidson Paul P. Drury Sam Mathai Lindsea C. Booth Alistair Jan Gunn Laura Bennet 《PloS one》2013,8(10)