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Query: EC:3.6.1.25 (
triphosphatase
)
1,529
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Human platelets diadenosine
triphosphatase
was characterised and compared with the Fhit protein, a human tumour suppressor with diadenosine
triphosphatase
activity. Both enzymes exhibit similar Km, are similarly activated by Mg2+, Ca2+ and Mn2+, and inhibited by Zn2+ and suramin. However, they are differentially inhibited by Fhit antibodies and exhibit differences in gel-filtration behaviour.
Acta Biochim
Pol
2000
PMID:Human diadenosine triphosphate hydrolase: preliminary characterisation and comparison with the Fhit protein, a human tumour suppressor. 1105 Dec 8
The Saccharomyces cerevisiae mRNA capping enzyme consists of two subunits: an RNA 5'-
triphosphatase
(Cet1) and an mRNA guanylyltransferase (Ceg1). In yeast, the capping enzyme is recruited to the RNA polymerase II (
Pol
II) transcription complex via an interaction between Ceg1 and the phosphorylated carboxy-terminal domain of the
Pol
II largest subunit. Previous in vitro experiments showed that the Cet1 carboxy-terminal region (amino acids 265 to 549) carries RNA
triphosphatase
activity, while the region containing amino acids 205 to 265 of Cet1 has two functions: it mediates dimerization with Ceg1, but it also allosterically activates Ceg1 guanylyltransferase activity in the context of
Pol
II binding. Here we characterize several Cet1 mutants in vivo. Mutations or deletions of Cet1 that disrupt interaction with Ceg1 are lethal, showing that this interaction is essential for proper capping enzyme function in vivo. Remarkably, the interaction region of Ceg1 becomes completely dispensable when Ceg1 is substituted by the mouse guanylyltransferase, which does not require allosteric activation by Cet1. Although no interaction between Cet1 and mouse guanylyltransferase is detectable, both proteins are present at yeast promoters in vivo. These results strongly suggest that the primary physiological role of the Ceg1-Cet1 interaction is to allosterically activate Ceg1, rather than to recruit Cet1 to the
Pol
II complex.
...
PMID:The essential interaction between yeast mRNA capping enzyme subunits is not required for triphosphatase function in vivo. 1109 81
HIV gene expression is subject to a transcriptional checkpoint, whereby negative transcription elongation factors induce an elongation block that is overcome by HIV Tat protein in conjunction with P-TEFb. P-TEFb is a cyclin-dependent kinase that catalyzes Tat-dependent phosphorylation of Ser-5 of the
Pol
II C-terminal domain (CTD). Ser-5 phosphorylation confers on the CTD the ability to recruit the mammalian mRNA capping enzyme (Mce1) and stimulate its guanylyltransferase activity. Here we show that Tat spearheads a second and novel pathway of capping enzyme recruitment and activation via a direct physical interaction between the C-terminal domain of Tat and Mce1. Tat stimulates the guanylyltransferase and
triphosphatase
activities of Mce1 and thereby enhances the otherwise low efficiency of cap formation on a TAR stem-loop RNA. Our findings suggest that multiple mechanisms exist for coupling transcription elongation and mRNA processing.
...
PMID:HIV-1 Tat protein interacts with mammalian capping enzyme and stimulates capping of TAR RNA. 1127 68
Elongating RNA polymerase II is targeted by macromolecular assemblies that regulate mRNA synthesis and processing. The capping apparatus is the first of the assemblies to act on the nascent pre-mRNA. Although recruitment of the capping enzymes to the transcription complex is dependent on phosphorylation of the C-terminal domain of the Rpb1 subunit of polymerase II (Pol-II), there may be additional levels of control that coordinate capping with elongation. Here we show that the
triphosphatase
(Pct1) and guanylyltransferase (Pce1) enzymes of the fission yeast capping apparatus bind independently to the elongation factor Spt5. The C-terminal domain of the 990-amino acid Schizosaccharomyces pombe Spt5 protein, composed of repeats of a nonapeptide motif (consensus sequence TPAWNSGSK), is necessary and sufficient for binding to the capping enzymes in vivo (in a two-hybrid assay) and in vitro. As few as four nonamer repeats suffice for Spt5 binding to Pct1 in vitro, whereas six repeats are required for Spt5 binding to Pce1. A 116-amino acid fragment of the guanylyltransferase Pce1 suffices for binding to the Spt5 C-terminal domain (CTD) but not for binding to the
Pol
-II CTD. Pct1 and Pce1 can bind simultaneously to the Spt5 CTD in vitro. We find that Spt5 is essential for viability of S. pombe and that it interacts in vivo with S. pombe Spt4 via a central domain distinct from the Spt5 CTD. We suggest that Spt5-induced arrest of elongation at promoter proximal positions ensures a temporal window for recruitment of the capping enzymes.
...
PMID:Interactions between fission yeast mRNA capping enzymes and elongation factor Spt5. 1189 40
A membranous fraction that could synthesize viral RNA in vitro in the presence of magnesium salt, ribonucleotides, and an ATP-regenerating system was isolated from feline calicivirus (FCV)-infected cells. The enzymatically active component of this fraction was designated FCV replication complexes (RCs), by analogy to other positive-strand RNA viruses. The newly synthesized RNA was characterized by Northern blot analysis, which demonstrated the production of both full-length (8.0-kb) and subgenomic-length (2.5-kb) RNA molecules similar to those synthesized in FCV-infected cells. The identity of the viral proteins associated with the fraction was investigated. The 60-kDa VP1 major capsid protein was the most abundant viral protein detected. VP2, a minor structural protein encoded by open reading frame 3 (ORF3), was also present. Nonstructural proteins associated with the fraction included the precursor polypeptides Pro-
Pol
(76 kDa) and p30-VPg (43 kDa), as well as the mature nonstructural proteins p32 (derived from the N-terminal region of the ORF1 polyprotein), p30 (the putative "3A-like" protein), and p39 (the putative nucleoside
triphosphatase
). The isolation of enzymatically active RCs containing both viral and cellular proteins should facilitate efforts to dissect the contributions of the virus and the host to FCV RNA replication.
...
PMID:Isolation of enzymatically active replication complexes from feline calicivirus-infected cells. 1216 78
Cyclin-dependent kinase 9 (Cdk9) of fission yeast is an essential ortholog of metazoan positive transcription elongation factor b (P-TEFb), which is proposed to coordinate capping and elongation of RNA polymerase II (
Pol
II) transcripts. Here we show that Cdk9 is activated to phosphorylate
Pol
II and the elongation factor Spt5 by Csk1, one of two fission yeast CDK-activating kinases (CAKs). Activation depends on Cdk9 T-loop residue Thr-212. The other CAK-Mcs6, the kinase component of transcription factor IIH (TFIIH)-cannot activate Cdk9. Consistent with the specificities of the two CAKs in vitro, the kinase activity of Cdk9 is reduced approximately 10-fold by csk1 deletion, and Cdk9 complexes from csk1Delta but not csk1+ cells can be activated by Csk1 in vitro. A cdk9(T212A) mutant is viable but phenocopies conditional growth defects of csk1Delta strains, indicating a role for Csk1-dependent activation of Cdk9 in vivo. A cdk9(T212A) mcs6(S165A) strain, in which neither Cdk9 nor Mcs6 can be activated by CAK, has a synthetic growth defect, implying functional overlap between the two CDKs, which have distinct but overlapping substrate specificities. Cdk9 forms complexes in vivo with the essential cyclin Pch1 and with Pcm1, the mRNA cap methyltransferase. The carboxyl-terminal region of Cdk9, through which it interacts with another capping enzyme, the RNA
triphosphatase
Pct1, is essential. Together, the data support a proposed model whereby Cdk9/Pch1-the third essential CDK-cyclin complex described in fission yeast-helps to target the capping apparatus to the transcriptional elongation complex.
...
PMID:Cyclin-dependent kinase 9 (Cdk9) of fission yeast is activated by the CDK-activating kinase Csk1, overlaps functionally with the TFIIH-associated kinase Mcs6, and associates with the mRNA cap methyltransferase Pcm1 in vivo. 1642 35
An interaction network connecting mRNA capping enzymes, the RNA polymerase II (
Pol
II) carboxyl-terminal domain (CTD), elongation factor Spt5, and the Cdk7 and Cdk9 protein kinases is thought to comprise a transcription elongation checkpoint. A crux of this network is Spt5, which regulates early transcription elongation and has an imputed role in pre-mRNA processing via its physical association with capping enzymes. Schizosaccharomyces pombe Spt5 has a distinctive CTD composed of tandem nonapeptide repeats of the consensus sequence (1)TPAWNSGSK(9). The Spt5 CTD binds the capping enzymes and is a substrate for threonine phosphorylation by the Cdk9 kinase. Here we report that deletion of the S. pombe Spt5 CTD results in slow growth and aberrant cell morphology. The severity of the spt5-DeltaCTD phenotype is exacerbated by truncation of the
Pol
II CTD and ameliorated by overexpression of the capping enzymes RNA
triphosphatase
and RNA guanylyltransferase. These results suggest that the Spt5 and
Pol
II CTDs play functionally overlapping roles in capping enzyme recruitment. We probed structure-activity relations of the Spt5 CTD by alanine scanning of the consensus nonapeptide. The T1A change abolished CTD phosphorylation by Cdk9 but did not affect CTD binding to the capping enzymes. The T1A and P2A mutations elicited cold-sensitive (cs) and temperature-sensitive (ts) growth defects and conferred sensitivity to growth inhibition by 6-azauracil that was exacerbated by partial truncations of the
Pol
II CTD. The T1A phenotypes were rescued by a phosphomimetic T1E change but not by capping enzyme overexpression. These results imply a positive role for Spt5 CTD phosphorylation in
Pol
Il transcription elongation in fission yeast, distinct from its capping enzyme interactions. Viability of yeast cells bearing both Spt5 CTD T1A and
Pol
II CTD S2A mutations heralds that the Cdk9 kinase has an essential target other than Spt5 and
Pol
II CTD-Ser2.
...
PMID:Separable functions of the fission yeast Spt5 carboxyl-terminal domain (CTD) in capping enzyme binding and transcription elongation overlap with those of the RNA polymerase II CTD. 2023 61
Capping of nascent RNA polymerase II (
Pol
II) transcripts is required for gene expression and the first two steps are catalyzed by separate 5'
triphosphatase
and guanylyltransferase activities of the human capping enzyme (HCE). The cap is added co-transcriptionally, but how the two activities are coordinated is unclear. Our previous in vitro work has suggested that an unidentified factor modulates the minimum length at which nascent transcripts can be capped. Using the same well-established in vitro system with hydrogen peroxide as a capping inhibitor, we show that this unidentified factor targets the guanylyltransferase activity of HCE. We also uncover the mechanism of HCE inhibition by hydrogen peroxide, and by using mass spectrometry demonstrate that the active site cysteine residue of the HCE
triphosphatase
domain becomes oxidized. Using recombinant proteins for the two separated HCE domains, we provide evidence that the
triphosphatase
normally acts on transcripts shorter than can be acted upon by the guanylyltransferase. Our further characterization of the capping reaction dependence on transcript length and its interaction with the unidentified modulator of capping raises the interesting possibility that the capping reaction could be regulated.
...
PMID:Hydrogen peroxide yields mechanistic insights into human mRNA capping enzyme function. 2902 35
