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Enzyme
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Query: EC:3.1.27.5 (
RNase
)
17,967
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
DNA polymerase activity can be unmasked in avian myeloblastosis virus (AMV) by treatment with the nonionic detergent Nonidet P-40. Two products are formed: (1) RNA.DNA hybrid molecules and (2) duplex DNA molecules. The kinetics of dTTP incorporation into DNA are biphasic: an initial rapid reaction for 4 min at 37 degrees C with a minimal polymerization rate of 10-20 nucleotides per see, and a second reaction at about half the initial rate. Viral RNA.DNA complexes are detected as early as 30 sec after the initiation of DNA synthesis; DNA free of template is formed subsequently. Most of the free AMV DNA forms an RNA.DNA hybrid when annealed with viral RNA. Over half of the free AMV DNA product is inferred to be double-stranded, since it is retained on hydroxyapatite columns after elution with 0.12 M phosphate buffer, and is resistant to
Escherichia coli exonuclease I
. Adenovirus or calfthymus DNA added to unmasked AMV stimulates DNA synthesis 4-16 times if there is no treatment with
RNase
, and 40-130 fold if
RNase
treatment precedes the enzyme assay. It is possible that two polymerases are present, or that a single enzyme forms both the RNA.DNA hybrid and the double-stranded product.
...
PMID:Mechanism of carcinogenesis by RNA tumor viruses. 3. Formation of RNA, DNA complex and duplex DNA molecules by the DNA polymerase (s) of avian myeloblastosis virus. 432 24
Employing the recombinant runaway replication plasmid pDPK13 [sbcB+], an
exonuclease I
-overproducing derivative of Escherichia coli K12 has been constructed. The strain SK4258 has
exonuclease I
activity 140-400-fold higher than wild type control levels. A new purification procedure has been developed such that the protein can be purified to near homogeneity and is free of endonuclease and
RNase
activities. The specific activity of the purified enzyme is 10-fold higher than reported previously (Ray, R.K., Reuben, R., Molineux, I., and Gefter, M. (1974) J. Biol. Chem. 249, 5379-5381). Native
exonuclease I
is a single polypeptide having Mr = 55,000 with a Stokes radius of 3.12 nm.
...
PMID:Amplification and purification of exonuclease I from Escherichia coli K12. 634 75
Prior sequence analysis studies have suggested that bacterial
ribonuclease
(
RNase
) Ds comprise a complete domain that is found also in Homo sapiens polymyositis-scleroderma overlap syndrome 100 kDa autoantigen and Werner syndrome protein. This RNase D 3'-->5' exoribonuclease domain was predicted to have a structure and mechanism of action similar to the 3'-->5' exodeoxyibonuclease (proofreading) domain of DNA polymerases. Here, hidden Markov model (HMM) and phylogenetic studies have been used to identify and characterise other sequences that may possess this exonuclease domain. Results indicate that it is also present in the
RNase
T family; Borrelia burgdorferi P93 protein, an immunodominant antigen in Lyme disease; bacteriophage T4 dexA and
Escherichia coli exonuclease I
, processive 3'-->5' exodeoxyribonucleases that degrade single-stranded DNA; Bacillus subtilis dinG, a probable helicase involved in DNA repair and possibly replication, and peptide synthase 1; Saccharomyces cerevisiae Pab1p-dependent poly(A) nuclease PAN2 subunit, required for shortening mRNA poly(A) tails; Caenorhabditis elegans and Mus musculus CAF1, transcription factor CCR4-associated factor 1; Xenopus laevis XPMC2, prevention of mitotic catastrophe in fission yeast; Drosophila melanogaster egalitarian, oocyte specification and axis determination, and exuperantia, establishment of oocyte polarity; H.sapiens HEM45, expressed in tumour cell lines and uterus and regulated by oestrogen; and 31 open reading frames including one in Methanococcus jannaschii . Examination of a multiple sequence alignment and two three-dimensional structures of proofreading domains has allowed definition of the core sequence, structural and functional elements of this exonuclease domain.
...
PMID:The proofreading domain of Escherichia coli DNA polymerase I and other DNA and/or RNA exonuclease domains. 939 23
RNase
T was first identified as an enzyme responsible for end turnover of tRNA in Escherichia coli. Its activity, specific for tRNA-C-C-A, catalyzes the release of tRNA-C-C and AMP.
RNase
T, along with several other RNases, plays a role in maturation of several other RNA species by a similar limited nuclease activity. In previous work, we identified the gene for
RNase
T, rnt, as a high copy suppressor of the UV sensitivity conferred by deficiency in three single-strand DNA-specific exonucleases, RecJ,
exonuclease I
, and exonuclease VII. This suggested that
RNase
T may process DNA substrates as well. In this work, we show that purified
RNase
T possesses a potent 3' to 5' single-strand DNA-specific exonucleolytic activity. Its Km for single-strand DNA substrates is many orders of magnitude lower than that for tRNA, suggesting that single-strand DNA may be a natural biological substrate for
RNase
T. We suggest that the DNase activity of
RNase
T may play a role in end trimming reactions during DNA recombination and/or DNA repair.
...
PMID:Identification of a potent DNase activity associated with RNase T of Escherichia coli. 985 48
There are three known single-strand DNA-specific exonucleases in Escherichia coli: RecJ,
exonuclease I
(ExoI), and exonuclease VII (ExoVII). E. coli that are deficient in all three exonucleases are abnormally sensitive to UV irradiation, most likely because of their inability to repair lesions that block replication. We have performed an iterative screen to uncover genes capable of ameliorating the UV repair defect of xonA (ExoI-) xseA (ExoVII-) recJ triple mutants. In this screen, exonuclease-deficient cells were transformed with a high-copy E. coli genomic library and then irradiated; plasmids harvested from surviving cells were used to seed subsequent rounds of transformation and selection. After several rounds of selection, multiple plasmids containing the rnt gene, which encodes
RNase
T, were found. An rnt plasmid increased the UV resistance of a xonA xseA recJ mutant and uvrA and uvrC mutants; however, it did not alter the survival of xseA recJ or recA mutants.
RNase
T also has amino acid sequence similarity to other 3' DNA exonucleases, including ExoI. These results suggest that
RNase
T may possess a 3' DNase activity capable of substituting for ExoI in the recombinational repair of UV-induced lesions.
...
PMID:Identification of RNase T as a high-copy suppressor of the UV sensitivity associated with single-strand DNA exonuclease deficiency in Escherichia coli. 1004 12
DNA exonucleases are critical for DNA replication, repair, and recombination. In the bacterium Escherichia coli there are 14 DNA exonucleases including exonucleases I-IX (including the two DNA polymerase I exonucleases), RecJ exonuclease, SbcCD exonuclease,
RNase
T, and the exonuclease domains of DNA polymerase II and III. Here we report the discovery and characterization of a new E. coli exonuclease, exonuclease X. Exonuclease X is a member of a superfamily of proteins that have homology to the 3'-5' exonuclease proofreading subunit (DnaQ) of E. coli DNA polymerase III. We have engineered and purified a (His)(6)-exonuclease X fusion protein and characterized its activity. Exonuclease X is a potent distributive exonuclease, capable of degrading both single-stranded and duplex DNA with 3'-5' polarity. Its high affinity for single-strand DNA and its rapid catalytic rate are similar to the processive exonucleases RecJ and
exonuclease I
. Deletion of the exoX gene exacerbated the UV sensitivity of a strain lacking RecJ,
exonuclease I
, and exonuclease VII. When overexpressed, exonuclease X is capable of substituting for
exonuclease I
in UV repair. As we have proposed for the other single-strand DNA exonucleases, exonuclease X may facilitate recombinational repair by pre-synaptic and/or post-synaptic DNA degradation.
...
PMID:Exonuclease X of Escherichia coli. A novel 3'-5' DNase and Dnaq superfamily member involved in DNA repair. 1051 96
