Gene/Protein
Disease
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Drug
Enzyme
Compound
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Gene/Protein
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Target Concepts:
Gene/Protein
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Query: EC:3.1.27.1 (
RNase
)
16,360
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The adk genes from several thermosensitive (ts) mutants of Escherichia coli were cloned and sequenced. The mutations responsible for the thermolability of the gene product, the enzyme
adenylate kinase
, were established. From five independently isolated strains analysed, two contain a CCG to TCG transition changing proline 87 to serine (P87S), another two have a TCT to TTT transition that mutates serine 129 to phenylalanine (S129F), and the last one was found not to contain a mutation in the adk gene. Overproducing strains were constructed that contain ts genes in the genome as well as in the plasmids. These strains grow at high temperature, although much slower than wild-type. Most probably, the high rate of synthesis of
adenylate kinase
compensates for the destruction of the thermolabile protein by the elevated temperature. Mutated proteins were purified. The P87S but not the S129F mutation was found to cause thermosensitivity of the
adenylate kinase
reaction. Revertants of thermosensitivity were isolated and the nature of the mutation was determined by the
RNase
digestion method of RNA-DNA hybrids and by DNA sequencing. The revertants of the P87S mutation regained the wild-type sequence, whereas the revertants of the S129F strain retained the original mutation in the
adenylate kinase
gene. These results are discussed in the light of the three-dimensional structure of the enzyme and the possible role of
adenylate kinase
in phospholipid synthesis.
...
PMID:Adenylate kinases from thermosensitive Escherichia coli strains. 254 33
Poly(A) polymerase activity is induced during vaccinia virus infection of HeLa cells. The enzyme is maximally induced at 3.5 h postinfection. Partial purification frees the preparation of
RNase
activity and RNA polymerase activity. ATP is the substrate for poly(A) synthesis. A small amount of poly(A) is produced from added adenosine diphosphate due to the production of ATP by an
adenylate kinase
present in the preparation. The incorporation of ATP into poly(A) is dependent on divalent cations (Mg(2+) or Mn(2+)) and is not inhibited by UTP, CTP, or GTP. Poly(U) stimulates ATP incorporation; poly(A) and poly(C) have little effect on ATP incorporation, and poly(dT) is extremely inhibitory. RNA prepared from HeLa cells and from the partially purified poly(A) polymerase (the enzyme preparation contains endogenous RNA [Brakel and Kates]) stimulates ATP incorporation by poly(A) polymerase which was subjected to DEAE-cellulose chromatography.
RNase
's, pancreatic and T(1), inhibit the production of poly(A). DNase has little effect. Poly(U) is able to stimulate poly(A) production in the presence of T(1)
RNase
.
...
PMID:Poly(A) polymerase from vaccinia virus-infected cells. I. Partial purification and characterization. 441 6
The substrate specificity of diadenosine 5',5"'-P1,P4-tetraphosphate pyrophosphohydrolase from Physarum polycephalum for dinucleoside polyphosphates has been determined by high-performance liquid chromatography (HP-LC). Elution of a strong anion-exchange resin with a pH and ionic strength gradient of ammonium phosphate separates a series of monoadenosine and diadenosine polyphosphates. Most of the corresponding guanine nucleotides are also resolved on this HPLC system. One mole each of Ap4A and Gp4G is symmetrically hydrolyzed to 2 mol of ADP and GDP, respectively. Ap3A, Ap5A, Ap6A, and Ap4 are hydrolyzed, and in each case ADP is one of the products. Gp3G, Gp5G, Gp6G, and Gp4 are also substrates, and in each case GDP is one of the products. AMP, ADP, ATP, Ap2A, ADPR, GMP, GDP, GTP, NAD+, and NADP+ are not substrates. No hydrolysis of the cap dinucleotides m7Gp3Am and m7Gp3Cm was detected by HPLC. Diadenosine tetraphosphate pyrophosphohydrolase preparations were also assayed for
adenylate kinase
, nucleotide diphosphate kinase, NAD(P)+ pyrophosphohydrolase, phosphodiesterase, cyclic nucleotide phosphodiesterase, phosphatase, and
ribonuclease
activities. These enzymic activities were not detectable in diadenosine tetraphosphate pyrophosphohydrolase. The symmetrical hydrolysis of Ap4A and Gp4G is an unique catalytic property that distinguishes diadenosine tetraphosphate pyrophosphohydrolase from P. polycephalum from diadenosine tetraphosphate phosphohydrolases from other organisms.
...
PMID:Diadenosine 5',5"'-P1,P4-tetraphosphate pyrophosphohydrolase from Physarum polycephalum. Substrate specificity. 629 57
Adenylate kinase (ATP:AMP transphosphorylase) is a key enzyme in energy metabolism. The activity of its isoforms is subjected to multiple regulations. It is shown here that a specific fraction consisting of all
adenylate kinase
isoforms from tobacco leaves and tissue cultures does not bind to the anionic exchange-resin Mono Q. Sample pretreatment with
ribonuclease
could restore full binding to Mono Q, suggesting an association of
adenylate kinase
with RNA similar to the enzyme of Chenopodium rubrum (J. Chromatogr. 625: 13-19). We propose here that at least in vitro
adenylate kinase
can behave as an RNA-binding protein and that RNA-binding of
adenylate kinase
isoforms may be related to regulatory mechanisms.
...
PMID:Binding of adenylate kinase to RNA. 750 29
In Scrobicularia plana testis, a nuclear acid phosphatase (ACPase) activity was detected in mid and late spermatids with the improved Gomori-chloride procedure. Lead deposits were first observed in mid spermatids at focal points over condensed chromatin strands, increasing in density as chromatin further condensated. In late spermiogenesis, lead deposits became concentrated between chromatin aggregates, and after total DNA compaction were transfered to the nuclear periphery and then shed into the cytoplasm. The specificity of the nuclear ACPase was tested against different pH values (3.9, 7.2, 7.8, 9.0), substrates (TPP, IDP, TMP, p-NCS, ATP, GTP, AMP, ADP, AMP-PNP) and inhibitors (NaF, levamisole, Zn, vanadate, theophylline). To further specify the nature of this nuclear ACPase, other enzymes were comparatively studied at their optimal pH values and at pH 5.0: nucleoside-diphosphatase, thiamin-pyrophosphatase, inorganic trimetaphosphatase, lysosomal arylsulfatases A and B, ATPase, GTPase, 5'-nucleotidase,
adenylate kinase
, and adenylate cyclase. Several other controls were introduced to exclude artefactual deposits induced by lead ions and tissue molecules. The results showed that the enzyme has an optimal pH at 5.0, a high specific affinity for beta-GP, and is inhibited by NaF, which suggests that it behaves as a type B-ACPase, and all controls demonstrated the specificity of the enzymic activity. Because lead deposits were specifically and temporally associated with spermatid chromatin condensation, when DNA and RNA synthesis, histones, phosphoproteins and RNA molecules strongly decrease, it is possible to suggest that the nuclear ACPase could be associated with DNA processing during chromatin compaction or involved in the hydrolysis of 2' and 3' nucleotides resulting from nuclear
RNase
action during RNA degradation.
...
PMID:Chromatin condensation during Scrobicularia plana spermiogenesis: a controlled and comparative enzymatic ultracytochemical study. 1079 22
Adenylate kinases modulate the three adenine nucleotide pools and were found to be localized as isoenzymes in different tissues and organelles in animals and plants. For investigations of
adenylate kinase
isoenzymes from plant tissues different plant extracts were examined by anion-exchange chromatography. During investigations with the strong anion exchanger Mono Q,
adenylate kinase
activity eluted in the void volume. This void volume activity did not always occur, but depended on the age of the plants and light treatment. The nature of the factors affecting void volume activity could only be partially resolved. It could be shown that
RNase
treatment at the beginning of extraction led to the disappearance of void volume activity, whereas an untreated extract still showed this activity.
...
PMID:Adenylate kinase from plant tissues. Influence of ribonuclease on binding properties on Mono Q. 1212 4
