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31.
Nucleotide sequence and gene organization of ColE1 DNA 总被引:48,自引:0,他引:48
The primary structure of the plasmid ColE1 DNA has been determined. The plasmid DNA consists of 6646 base pairs (molecular mass of 4.43 MDa) and is 48.46% in GC content. The phi 80 trp insert of the composite plasmid of ColE1, pVH51, has also been determined. The determination of the nucleotide sequence of ColE1 DNA provides the basis for examining the relationships between the DNA sequence and the gene organization of the plasmid. The focus of this paper is to use this sequence data coupled with a review of the literature and our own work to examine the nine known functional regions of ColE1: imm (colicin E1 immunity), rep (replication function), inc (plasmid incompatibility and copy number control), bom (basis of mobility), rom (modulator of inhibition of primer formation by RNA I), mob (plasmid mobilization), cer (determinant for conversion of plasmid multimers to monomers), exc (plasmid entry exclusion), cea (structural gene for colicin E1), and kil (structural gene for the Kil protein). 相似文献
32.
Insertion of a foreign nucleotide sequence into mitochondrial DNA causes senescence in Neurospora intermedia 总被引:9,自引:0,他引:9
The kalilo variants of Neurospora contain a cytoplasmic genetic factor that causes senescence. This factor is a 9.0 kb transposable element (kalDNA) that lacks nucleotide sequence homology with mtDNA and is inserted into the mitochondrial chromosome, often at sites located within the open reading frame in the intron-DNA of the mitochondrial 25S-rRNA gene. Genomes containing the "foreign" DNA insert accumulate during growth, and death occurs as the cells become deficient in functional large and small subunits of mitochondrial ribosomes. The kalDNA transposon may be an "activator" element that causes breaks in mtDNA. Nonsenescing [+] strains of Neurospora do not contain kalDNA. 相似文献
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34.
Sharrock RA Rubinstein S Chan M Leighton T 《Molecular & general genetics : MGG》1984,194(1-2):260-264
Summary A collection of intergenic suppressors of the Bacillus subtilis spoOF221 mutation has been isolated. One of these suppressors, rvtA, has been mapped between lys-1 and aroD. The rvtA suppressor restores spoOF sporulation to wild type levels and substantially improves the sporulation efficiencies of spoOB and spoOE strains. The rvtA gene does not affect the Spo phenotype of spoOH, spoOJ or spoOK mutants. The rvtA gene also prevents the induction by aliphatic alcohols of SpoO phenocopies in wild type B. subtilis cells. 相似文献
35.
Hardies SC; Martin SL; Voliva CF; Hutchison CA d; Edgell MH 《Molecular biology and evolution》1986,3(2):109-125
36.
The sequence of the nucleotides at the alpha-sarcin cleavage site in rat 28 S ribosomal ribonucleic acid 总被引:7,自引:0,他引:7
The sequence of the 521 nucleotides at the 3' end of a rat 28 S rRNA gene was determined. The region encompasses the site of cleavage of 28 S rRNA by the cytotoxin alpha-sarcin. The toxin hydrolyzes a phosphodiester bond on the 3' side of a guanine residue 393 nucleotides from the 3' end. The alpha-sarcin domain is composed of a purine-rich sequence of 14 highly conserved nucleotides. 相似文献
37.
Complexation and phase transfer of nucleotides by gramicidin S 总被引:1,自引:0,他引:1
Gramicidin S (GrS), an amphiphilic cyclosymmetric decapeptide produced by Bacillus brevis G-B and Nagano, binds nucleotides in water to yield a complex which partitions into organic solvents. The observed phase-transfer efficiencies at a given pH increase in the order AMP less than ADP less than ATP. The lipophilic complexes have well-defined stoichiometries, which were determined to be 1:1 for ADP-GrS at pH 7 and ATP-GrS at pH 3 and 1:2 for ATP-GrS at pH 7. The interaction is primarily ionic, involving coordination of the ornithine N delta H3+ groups of the peptide and the phosphoryl groups of the nucleotide, with little contribution from the nucleoside moiety. Exchange of organic and inorganic phosphates was also found to be mediated by GrS. The nucleotide complexes are sparingly soluble in water and self-associate extensively in CHCl3, most likely by cross-beta-aggregation, to yield large, ribbonlike aggregates which give rise to broad NMR resonances. Structures for the 1:1 and 1:2 complexes are proposed. In the latter, two GrS molecules envelop the nucleotide, orienting their apolar faces externally in opposite directions, while the lateral faces retain considerable polar character and direct aggregation in organic media. The 1:1 complex possesses a single apolar face and is less lipophilic. Binding constants were estimated by simulation of the extraction data. For the 1:1 complexes, K1:1 congruent to 4 X 10(4) M-1 for either ADP or ATP. Phase transfer of the ATP complex at pH 7 could be modeled either by stochastically independent binding to two noninteracting sites on the nucleotide with K1 approximately K2 approximately K1:1 or by a sequential process with K1 approximately K1:1 and K2/K1 less than 100. It is concluded that the apparent selectivity of GrS for ATP over ADP is a consequence of the greater lipophilicity and tendency to aggregate of the 1:2 complex, rather than an intrinsically higher binding affinity for triphosphates. GrS is, to our knowledge, the first peptide known to possess phase-transfer activity toward nucleotides; this is, in addition, the first molecular recognition process in which GrS is demonstrated to participate in vitro at physiologically active concentrations. 相似文献
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Discrete fluctuations in conductance of lipid bilayer membranes may be observed during the initial stages of membrane interaction with EIM ("excitability inducing material"), during destruction of the EIM conductance by proteolysis, and during the potential-dependent transitions between low and high conductance states in the "excitable" membranes. The discrete conductance steps observed during the initial reaction of EIM with the lipid membranes are remarkably uniform, even in membranes of widely varying lipid composition. They range only from 2 to 6 x 10-10 ohm-1 and average 4 x 10-10 ohm-1. Steps found during destruction of the EIM conductance by proteolysis are somewhat smaller. The transition between high conductance and low conductance states may involve steps as small as 0.5 x 10-10 ohm-1. These phenomena are consistent with the formation of a stable protein bridge across the lipid membrane to provide a polar channel for the transport of cations. T6he uniform conductance fluctuations observed during the formation of these macromolecular channels may indicate that the ions in a conductive channel, in its open state, are largely protected from the influence of the polar groups of the membrane lipids. Potential-dependent changes in conductance may be due to configurational or positional changes in the protein channel. Differences in lipid-lipid and lipid-macromolecule interactions may account for the variations in switching kinetics in various membrane systems. 相似文献
40.