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The Clostridium pasteurianum galactokinase gene was cloned by complementation, of the galK locus, into Escherichia coli. Restriction enzyme analysis subcloning and Tn5 mutagenesis indicated that the gene was located on a 1.8 X 10(3) base-pair ClaI-Sau3A fragment that encoded a polypeptide of approximately 40 Mr. Although the C. pasteurianum and the E. coli galactokinases have similar subunit molecular weights, Southern hybridization analysis indicated no strong homology between their genes. Even though this clone showed a low level of galactokinase expression, the Gal+ phenotype, provided by the clostridial galactokinase, was unstable in E. coli, and the gene was frequently inactivated by the spontaneous acquisition of insertion sequences. A second clone containing this gene on a large restriction fragment was isolated by hybridization. This clone was unable to grow on galactose-containing media due to the overproduction of galactokinase. Comparison of the plasmids from these two clones revealed that the second contained an additional 300 base-pairs located at one end of the galactokinase gene. Appropriate operon fusions with a promoter-less E. coli galactokinase gene indicated that these additional 300 base-pairs had promoter activity in E. coli. The DNA sequence of this region which lies upstream of the C. pasteurianum galactokinase gene was determined and compared with that from several clones producing high, low or undetectable amounts of galactokinase. The reasons for the high and low level expression and for the instability of the C. pasteurianum galactokinase in E. coli are discussed. The presence of the galactokinase suggests that galactose is used in C. pasteurianum through the Leloir pathway via galactose 1-phosphate.  相似文献   
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Supercoiling response of the lac ps promoter in vitro   总被引:15,自引:0,他引:15  
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A 140 base-pair DNA segment situated just upstream of the kanamycin resistance gene of transposon Tn2350, a transposon carried by the plasmid R1, was found to act as an origin of replication and allow autonomous replication of a plasmid composed only of the segment and of the tetracycline resistance gene of pBR322. This segment also promotes site-specific recombination: when cloned in pBR322 it promotes multimer formation in a recA- strain. If two copies are cloned on the same plasmid they promote either deletion or inversion of the intervening region, depending on their orientation relative to each other. DNA gyrase seems to be involved in this process since the inversion rate, in a plasmid carrying sequences in opposite orientations, varies in different nalidixic acid-resistant strains (gyr A mutants) independently isolated.  相似文献   
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We have isolated adenovirus origins of DNA replication from both the right and left ends of the genome, which are functional on linear autonomously replicating mini-chromosomes. The mini-chromosomes contain two cloned inverted adenovirus termini and require non-defective adenovirus as a helper. Replicated molecules are covalently attached to protein, and DNA synthesis is initiated at the correct nucleotide even when the origins are not located at molecular ends. The activity of embedded origins leads to the generation of linear minichromosomes from circular or linear molecules. These observations therefore suggest that sequences within the adenovirus origin of replication position the protein priming event at the adenovirus terminus. Experiments investigating the regeneration of deleted viral inverted terminal repeat sequences show a sequence-independent requirement for inverted sequences in this process. This result strongly suggests that repair results from the formation of a panhandle structure by a displaced single strand. On the basis of these observations we propose a model for the generation of adenovirus mini-chromosomes from larger molecules.  相似文献   
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Sequence-specific protein-nucleic acid recognition is determined, in part, by hydrogen bonding interactions between amino acid side-chains and nucleotide bases. To examine the repertoire of possible interactions, we have calculated geometrically plausible arrangements in which amino acids hydrogen bond to unpaired bases, such as those found in RNA bulges and loops, or to the 53 possible RNA base-pairs. We find 32 possible interactions that involve two or more hydrogen bonds to the six unpaired bases (including protonated A and C), 17 of which have been observed. We find 186 "spanning" interactions to base-pairs in which the amino acid hydrogen bonds to both bases, in principle allowing particular base-pairs to be selectively targeted, and nine of these have been observed. Four calculated interactions span the Watson-Crick pairs and 15 span the G:U wobble pair, including two interesting arrangements with three hydrogen bonds to the Arg guanidinum group that have not yet been observed. The inherent donor-acceptor arrangements of the bases support many possible interactions to Asn (or Gln) and Ser (or Thr or Tyr), few interactions to Asp (or Glu) even though several already have been observed, and interactions to U (or T) only if the base is in an unpaired context, as also observed in several cases. This study highlights how complementary arrangements of donors and acceptors can contribute to base-specific recognition of RNA, predicts interactions not yet observed, and provides tools to analyze proposed contacts or design novel interactions.  相似文献   
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We have sequenced 11 representative mutations of the unc-54 myosin heavy chain gene of Caenorhabditis elegans that affect the synthesis, assembly or enzymatic activity of the encoded myosin heavy chain. Six of the sequenced unc-54 mutations cause premature termination of protein synthesis. Four mutations (e1092, e1115, e1213, e1328) were ochre mutations, one mutation (e903) was a frameshift, which caused premature termination at a nearby UGA terminator, and one mutation (e190) was a deletion that altered the reading frame and caused termination at an ochre codon. Two mutations (e675 and s291) were inphase deletions, which resulted in a shortened myosin rod segment. These aberrant myosins fail to assemble into normal thick filaments. The sequence alterations of the missense mutations (e1152, s74, s95) indicated amino acid residues that are critical for myosin function. The mutation e1152 causes the production of a myosin heavy chain that fails to assemble into thick filaments. It had two adjacent amino acid substitutions at the extreme amino terminus of the rod, indicating a role for subfragment-2 in thick filament assembly. Mutants homozygous for s74 or s95 are very slow-moving, although they make myosin heavy chains that assemble normally. The encoded amino acid substitutions of s95 and s74 are in the 23 X 10(3) Mr and 50 X 10(3) Mr domains of the myosin head, flanking the ATP binding site. The sequenced mutations are distributed throughout the gene in the order predicted from genetic fine-structure mapping experiments. Seven of eight point mutations isolated following ethylmethane sulphonate mutagenesis were G X C to A X T transitions. A single X-ray-induced allele proved to be a deletion of two adjacent thymidine residues. The three deletion mutations were found in a region of the myosin rod with numerous direct and inverted nucleotide sequence repeats, but their origin cannot be accounted for by homologous recombination. Instead, a comparison of the deletion junctions suggests that the deletions arose by a site-specific mechanism.  相似文献   
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The sequential arrangement of histones along DNA in nucleosomes containing all five histones and DNA about 165 and 175 base-pairs in length has been determined. The data provide evidence that core histones (H2A, H2B, H3 and H4) are arranged in nucleosomes and nucleosome core particles in a largely similar way with the following differences. (1) On nucleosomal DNA about 175 basepairs long core histones are probably shifted by 20 nucleotides on one DNA strand and by 10 nucleotides on the complementary DNA strand from the 5′ end. On nucleosomal DNA 165 base-pairs long, histones appear to be shifted by 10 nucleotides from the 5′ end of DNA on both the DNA strands. (2) Histone H3 is extended beyond core DNA and is bound to the 3′ end of DNA about 175 nucleotides long. Thus, core histones span the whole length of nucleosomal DNA. (3) Histone H2A seems to be absent from the central region of nucleosomal DNA. These results indicate that during the preparation of core particles, some rearrangement of histones or some of their regions occurs.Histone H1 has been shown to be bound mainly to the ends of nucleosomal DNA and, along the whole DNA length, to the gap regions that are free of core histones.  相似文献   
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Two new dispersed repetitive DNA sequences related to the transposable element Tyl have been isolated from the genome of Saccharomyces cerevisiae. One sequence, designated Tyl-17, is present at about six copies per haploid genome, and one copy is located approximately 1000 base-pairs from the LEU2 locus on chromosome III. Tyl-17 is about the same size as Tyl (Cameron et al., 1979) and is flanked by δ sequences, but differs from Tyl by the presence of two large substitutions representing about 50% of the sequence. Tyl and Tyl-17 are found in a ‘head-to-head’ array in at least one cloned region of the yeast genome. Another sequence, designated Tyl-161, is situated about 9000 base-pairs from the PGK locus of chromosome III, and is structurally identical to Tyl except for the presence of a 1200 base-pair insertion near one end of the sequence element.  相似文献   
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