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A temperature-sensitive mutant of Saccharomyces cerevisiae (DAM303) is described that exhibits an early defect in lipid biosynthesis at the restrictive growth temperature, 37 degrees C. This strain rapidly lost viability after 1 h of incubation at 37 degrees C, and this was accompanied by a significantly reduced incorporation of 32Pi into cellular lipid and an accumulation of [1-14C]acetate into the free fatty acid fraction. The temperature-sensitive DAM303 mutation failed to complement the sec13 mutation described by Novick et al. (Cell 21:205-215, 1980), and from analysis of invertase secretion in the temperature-sensitive DAM303 strain, it is clear that the loss of invertase secretion in the mutant occurs after the loss of phospholipid synthesis. Although the precise nature of the temperature-sensitive lesion in the DAM303 strain has still to be identified, the results from the study of this mutant indicate that a defect in lipid biosynthesis can be correlated with subsequent alterations in extracellular protein secretion and loss of other macromolecular functions including DNA, RNA, and protein syntheses. From studies of this mutant, two procedures of enriching for other temperature-sensitive mutants with defects in lipid biosynthesis have emerged: inositol overproduction and screening for increased buoyant densities. 相似文献
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Of 48 temperature-sensitive mutants of Saccharomyces cerevisiae examined, five belonging to the same complementation group were found to undergo extensive loss of viability at the restrictive temperature. These mutants were protected from the lethal effects of exposure to a non-permissive temperature by starving for an auxotrophic requirement. By analogy with the method described by Littlewood [6] for selecting antibiotic-sensitive mutants, these temperature-sensitive mutants were found suitable in enriching for specific auxotrophs. Optimal conditions have been determined for selecting specific auxotrophs after mutagenesis by N-methyl-N'-nitro-N-nitrosoguanidine. These enable 20-fold enrichment and at least in the case of mutation to adenine dependence the method does not appear to favour mutations at any particular locus. 相似文献
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Restriction endonuclease analysis for the identification of baculovirus pesticides. 总被引:10,自引:4,他引:6
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Gel electrophoresis of deoxyribonucleic acid (DNA) fragments generated by digesting the DNA genomes of nuclear polyhedrosis viruses (NPV) with restriction endonucleases provides DNA fragment patterns that may be used to identify different viruses of this group. Characteristic fragment patterns were obtained for three NPVs, which are important as biological pesticides (Autographa californica NPV, Orgyia pseudotsugata NPV, and Heliothis zea NPV). The DNA fragment patterns of the A. californica NPV genoms did not change with passage through the alternate insect host, Trichoplusia ni. Heterogeneity in one preparation of O. pseudotsugata NPV was observed. The identification procedure is direct and precise. Applications of this procedure include quality control of commercial preparations of viral pesticides and screening for genetic alterations in the viruses. 相似文献
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The narrow sheath mutant of maize displays a leaf and plant stature phenotype controlled by the duplicate factor mutations narrow sheath1 and narrow sheath2. Mutant leaves fail to develop a lateral domain that includes the leaf margins. Genetic data are presented to show that the narrow sheath mutations map to duplicated chromosomal regions, reflecting an ancestral duplication of the maize genome. Genetic and cytogenetic evidence indicates that the original mutation at narrow sheath2 is associated with a chromosomal inversion on the long arm of chromosome 4. Meristematic sectors of dual aneuploidy were generated, producing plants genetically mosaic for NARROW SHEATH function. These mosaic plants exhibited characteristic half-plant phenotypes, in which leaves from one side of the plant were of nonmutant morphology and leaves from the opposite side were of narrow sheath mutant phenotype. The data suggest that the narrow sheath duplicate genes may perform ancestrally conserved, redundant functions in the development of a lateral domain in the maize leaf. 相似文献
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