Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.30.2 (endonuclease)
 18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Plasmid pWS2 is an R68.45 chimera originally isolated as an R-prime which complemented the Rhodobacter sphaeroides bch-420 allele. Our experiments have shown that pWS2 is also able to complement a wide range of R. sphaeroides pigment and photosynthetic mutants employing nitrosoquanidine, transposon or insertion-generated mutations effecting puhA, puc, puf, cycA, bch, and crt genes. A combination of orthogonal-field-alternation gel electrophoresis, transverse alternating field gel electrophoresis, and conventional electrophoresis have been used to estimate the size of pWS2 at congruent to 168.3 +/- 3.5 kb. A restriction map of the congruent to 109 kb of R. sphaeroides insert DNA was generated by partial and complete restriction endonuclease digestion coupled with Southern hybridization analysis using either gene-specific or junction fragment probes. Genes encoding bacteriochlorophyll (Bchl)-binding proteins (pufBALMX, pucBA, and puhA), cytochrome c2 (cycA), and enzymes involved in Bchl (bch) and carotenoid (crt) biosynthesis have been shown to reside within a contiguous 53-kb region of the R. sphaeroides DNA present on pWS2. The puf operon lies at one end of the 53-kb segment, while the genes puhA, cycA, and pucBA, the latter two of which are located within congruent to 12.0 kb of each other, define the other end of this 53-kb region. The genetic and physical mapping data provided in this paper are discussed in terms of the similarities and differences in the organization of the photosynthetic gene cluster between R. sphaeroides and other photosynthetic bacteria as well as highlighting the use of pWS2 in studies of photosynthetic gene structure and function.
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PMID:Genetic and physical mapping of the Rhodobacter sphaeroides photosynthetic gene cluster from R-prime pWS2. 192 54

Previous work has shown that expression of genes within the polycistronic puf operon of Rhodobacter capsulatus is regulated in part by differential degradation of segments of puf transcripts. To understand the role of ribosome coverage in the differential stability of puf mRNA segments, we have studied the effects of mutations that alter translation of specific puf transcript segments on puf mRNA decay. Our results show that stopping translation either within the light-harvesting I (LHI) genes or near the 5' end of the reaction center (RC)-coding region decreased the stability of puf transcript segments downstream from a hairpin loop structure located between the LHI and RC genes but failed to affect the upstream sequences so long as the loop was present. Mutations that allowed translation to proceed through the hairpin structure reduced its ability to protect upstream sequences from accelerated decay. Introduction of translation stops more than 107 bp into the RC-coding region, but still 5' to an mRNA segment containing decay-promoting endonuclease cleavage sites, had no effect on puf mRNA stability. The divergent and location-dependent consequences of translation stops imply that different mechanisms are responsible for the degradation of different puf mRNA segments and indicate that coverage of puf mRNA sequences by ribosomes is insufficient and may in some cases be unnecessary to protect these sequences from degradation.
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PMID:Effects of translation on degradation of mRNA segments transcribed from the polycistronic puf operon of Rhodobacter capsulatus. 199 92

Differential expression of the genes within the puf operon of Rhodobacter capsulatus is accomplished in part by differences in the rate of degradation of different segments of the puf transcript. We report here that decay of puf mRNA sequences specifying the light-harvesting I (LHI) and reaction center (RC) photosynthetic membrane peptides is initiated endoribonucleolytically within a discrete 1.4-kilobase segment of the RC-coding region. Deletion of this segment increased the half-life of the RC-coding region from 8 to 20 min while not affecting decay of LHI-coding sequences upstream from an intercistronic hairpin loop structure shown previously to impede 3'-to-5' degradation. Prolongation of RC segment half-life was dependent on the presence of other hairpin structures 3' to the RC region. Inserting the endonuclease-sensitive sites into the LHI-coding segment markedly accelerated its degradation. Our results suggest that differential degradation of the RC- and LHI-coding segments of puf mRNA is accomplished at least in part by the combined actions of RC region-specific endonuclease(s), one or more exonucleases, and several strategically located exonuclease-impeding hairpins.
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PMID:Combined actions of multiple hairpin loop structures and sites of rate-limiting endonucleolytic cleavage determine differential degradation rates of individual segments within polycistronic puf operon mRNA. 239 82

A reaction center H- strain (RCH-) of Rhodobacter sphaeroides, PUHA1, was made by in vitro deletion of an XhoI restriction endonuclease fragment from the puhA gene coupled with insertion of a kanamycin resistance gene cartridge. The resulting construct was delivered to R. sphaeroides wild-type 2.4.1, with the defective puhA gene replacing the wild-type copy by recombination, followed by selection for kanamycin resistance. When grown under conditions known to induce intracytoplasmic membrane development, PUHA1 synthesized a pigmented intracytoplasmic membrane. Spectral analysis of this membrane showed that it was deficient in B875 spectral complexes as well as functional reaction centers and that the level of B800-850 spectral complexes was greater than in the wild type. The RCH- strain was photosythetically incompetent, but photosynthetic growth was restored by complementation with a 1.45-kilobase (kb) BamHI restriction endonuclease fragment containing the puhA gene carried in trans on plasmid pRK404. B875 spectral complexes were not restored by complementation with the 1.45-kb BamHI restriction endonuclease fragment containing the puhA gene but were restored along with photosynthetic competence by complementation with DNA from a cosmid carrying the puhA gene, as well as a flanking DNA sequence. Interestingly, B875 spectral complexes, but not photosynthetic competence, were restored to PUHA1 by introduction in trans of a 13-kb BamHI restriction endonuclease fragment carrying genes encoding the puf operon region of the DNA. The effect of the puhA deletion was further investigated by an examination of the levels of specific mRNA species derived from the puf and puc operons, as well as by determinations of the relative abundances of polypeptides associated with various spectral complexes by immunological methods. The roles of puhA and other genetic components in photosynthetic gene expression and membrane assembly are discussed.
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PMID:Control of photosynthetic membrane assembly in Rhodobacter sphaeroides mediated by puhA and flanking sequences. 264

The puf photosynthesis operon of Rhodobacter capsulatus encodes two major classes of mRNA: operon-length pufBALMX transcripts and short pufBA messages. The pufBA messages, which end in a large intercistronic stem-loop structure, are long-lived processing products of the puf operon transcripts. Decay of the labile pufLMX segment of the operon-length transcripts begins with non-random endonucleolytic cleavage well downstream of the intercistronic hairpin structure. This hairpin, which is necessary but insufficient for the stability of the RNA segment upstream of it, appears to function as an mRNA decay terminator that protects the upstream pufBA segment from 3' exonucleolytic propagation of the initial degradative event. The comparative stability of the pufBA mRNA segment depends not only on the presence of this stem-loop structure, but also on the relative resistance of the pufBA segment to endonuclease attack.
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PMID:Mechanism of puf mRNA degradation: the role of an intercistronic stem-loop structure. 324 29

A Puf- strain of Rhodobacter sphaeroides (PUFB1) was constructed by deleting a portion of the proximal region of the puf operon and inserting a kanamycin resistance gene cartridge. Southern blot analysis demonstrated that in PUFB1, the defective copy of the puf operon had replaced, through homologous recombination, the normal chromosomal copy. The Puf- phenotype was characterized by the inability of PUFB1 to grow photoheterotrophically (PS-), the lack of detectable puf-specific transcripts, the absence of the light-harvesting I complex and, by inference, the reaction center spectral complex, and greatly reduced levels of the light-harvesting II complex. The PS+ phenotype was restored to PUFB1 when a 13-kilobase BamHI restriction endonuclease fragment containing the entire puf operon and flanking regions was cloned into the broad-host-range plasmid vector RK2 derivative pRK404 and introduced by conjugation into PUFB1. In these complemented strains, there was an increased number of copies of the puf operon (four to six copies per defective chromosomal copy) as the result of plasmid copy number. However, there was no concomitant increase in either the specific bacteriochlorophyll content or the level of puf-specific transcripts when these strains were grown photoheterotrophically.
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PMID:Construction, characterization, and complementation of a Puf- mutant of Rhodobacter sphaeroides. 325 9

Escherichia coli nucleoside diphosphate kinase (eNDK) is an XTP:XDP phosphotransferase that plays an important role in the regulation of cellular nucleoside triphosphate concentrations. It is also one of several recently discovered DNases belonging to the NM23/NDK family. E. coli cells disrupted in the ndk gene display a spontaneous mutator phenotype, which has been attributed to the mutagenic effects of imbalanced nucleotide pools and errors made by replicative DNA polymerases. Another explanation for the increased mutation rates is that endk- cells lack the nuclease activity of the NDK protein that is essential for a DNA repair pathway. Here, we show that purified, cloned endk is a DNA repair nuclease whose substrate is uracil misincorporated into DNA. We have identified three new catalytic activities in eNDK that act sequentially to repair the uracil lesion: (i) uracil-DNA glycosylase that excises uracil from single-stranded and from U/A and U/G mispairs in double-stranded DNA; (ii) apyrimidinic endonuclease that cleaves double-stranded DNA as a lyase by forming a covalent enzyme-DNA intermediate complex with the apyrimidinic site created by the glycosylase; and (iii) DNA repair phosphodiesterase that removes 3'-blocking residues from the ends of duplex DNA. All three of these activities, as well as the nucleoside-diphosphate kinase, reside in the same protein. Based on these findings, we propose an editing function for eNDK as a mechanism by which the enzyme prevents mutations in DNA.
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PMID:Escherichia coli nucleoside diphosphate kinase is a uracil-processing DNA repair nuclease. 1458 34

RpS3 is a component of the 40S ribosomal subunit of eukaryotes and also plays a role as a base damage endonuclease. Nm23-H1 encodes nucleoside diphosphate kinase A and acts as a suppressor of metastasis in certain human tumors. RpS3 interacted with nm23-H1, and the two proteins were colocalized in the cell periphery and cytoplasm. The 190th leucine of rpS3, and the 118th histidine and the 120th serine of nm23-H1 play key roles in the interaction of two proteins, respectively. The expression of rpS3 reduced the secretion of MMP-9 and the invasive potential in HT1080 cells. Additionally, the phosphorylated ERK was reduced by the expression of rpS3. In MCF7 cells, where the ERK pathway is inactivated and MMPs are not secreted and the ERK pathway can be activated by PMA, the PMA-induced ERK phosphorylation was reduced by the expression of rpS3. However, the L190A mutant of rpS3, which did not interact with nm23-H1, did not inhibit the invasive potential, the secretion of MMP-9, and the activation of the ERK pathway in HT1080 cells and PMA-activated MCF7 cells. These results suggest that rpS3 inhibits invasion via blocking the ERK pathway and MMP-9 secretion; the results also suggest that the interaction of rpS3 and nm23-H1 appears to be critical in this inhibition.
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PMID:Reduction of invasion in human fibrosarcoma cells by ribosomal protein S3 in conjunction with Nm23-H1 and ERK. 1681 9