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Query: EC:3.4.21.4 (
trypsin
)
42,187
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Cyclic AMP mediates the hormonal stimulation of a number of eukaryotic genes by directing the protein kinase A (PK-A)-dependent phosphorylation of transcription factor CREB. We have previously determined that although phosphorylation at Ser-133 is critical for induction, this site does not appear to participate directly in transactivation. To test the hypothesis that CREB ultimately activates transcription through domains that are distinct from the PK-A site, we constructed a series of CREB mutants and evaluated them by transient assays in F9 teratocarcinoma cells. Remarkably, a glutamine-rich region near the N terminus appeared to be important for PK-A-mediated induction of CREB since removal of this domain caused a marked reduction in CREB activity. A second region consisting of a short acidic motif (DLSSD) C terminal to the PK-A site also appeared to synergize with the phosphorylation motif to permit transcriptional activation. Biochemical experiments with purified recombinant CREB protein further demonstrate that the transactivation domain is more sensitive to
trypsin
digestion than are the DNA-binding and dimerization domains, suggesting that the activator region may be structured to permit interactions with other proteins in the
RNA polymerase II
complex.
...
PMID:Characterization of motifs which are critical for activity of the cyclic AMP-responsive transcription factor CREB. 167 8
Transcription factor IID from Saccharomyces cerevisiae (YIID) binds the TATA box element present in most
RNA polymerase II
promoters. In this work, partial proteolysis was used as a biochemical probe of YIID structure. YIID consists of a protease-sensitive amino terminus and a highly stable, protease-resistant carboxy-terminal core. The cleavage sites of the predominant chymotrypsin- and
trypsin
-derived fragments were mapped to amino acid residues 40 to 41 and 48 to 49, respectively, by amino-terminal peptide sequencing. Removal of the amino terminus resulted in a dramatic increase in the ability of YIID to form a stable complex with DNA during gel electrophoresis mobility shift assays and a two- to fourfold increase in DNA-binding affinity, as assayed by DNase I footprinting analysis. The carboxy-terminal 190-amino-acid core was competent for transcription in vitro and was similar in activity to native YIID. DNA containing a TATA element induced hypersensitive sites in the amino-terminal domain and stabilized the core domain to further proteolytic attack. Native YIID did not bind to a TATA box at 0 degrees C, whereas the carboxy-terminal DNA-binding domain did. These results suggest that YIID undergoes a conformational change upon binding to a TATA box. Southern blotting showed that the carboxy-terminal domain is highly conserved, while the amino-terminal domain diverged rapidly in evolution, even between closely related budding yeasts.
...
PMID:Two distinct domains in the yeast transcription factor IID and evidence for a TATA box-induced conformational change. 198 53
When wheat-germ
RNA polymerase II
is subjected to mild proteolytic attack in the presence of
trypsin
, the resulting form of the enzyme migrates as a single species on electrophoresis in native polyacrylamide gels, with an apparent Mr significantly smaller than that of the native enzyme. Analysis by denaturing gel electrophoresis of the truncated eukaryotic polymerase revealed that the two largest subunits of the native enzyme, i.e. the 220,000-Mr and 140,000-Mr subunits, were cleaved, giving rise to shorter polypeptide chains of Mr 172,800, 155,000, 143,000, 133,800, 125,000 and 115,000. The use of affinity-purified antibodies directed against each of the two large subunits of the native enzyme allowed us to probe for possible precursor/product relationships between the 220,000-Mr and 140,000-Mr subunits of wheat-germ
RNA polymerase II
and their breakdown products generated in the presence of
trypsin
. None of the smaller subunits of the plant
RNA polymerase II
appeared to be sensitive to
trypsin
attack. The results indicate that the truncated RNA polymerase retained a multimeric structure, and therefore that the proteolyzed largest subunits of the enzyme remained associated with the smaller ones. Furthermore, in transcription of a poly[d(A-T)] template, the catalytic activity of the proteolyzed form of wheat-germ
RNA polymerase II
was identical to that of the native enzyme. Therefore, the protein domains that can be deleted by the action of
trypsin
from the two large subunits of the plant transcriptase are not involved in DNA binding and/or nucleotide binding, and do not play an important role in template-directed catalysis of phosphodiester bond formation.
...
PMID:Analysis of wheat-germ RNA polymerase II by trypsin cleavage. The integrity of the two largest subunits of the enzyme is not mandatory for basal transcriptional activity. 224 2
The primary structure of the messenger RNA coding for cytosolic phosphoenolpyruvate carboxykinase was determined by sequencing cDNA and genomic DNA and by primer extension of the mRNA. The molecule is 2624 nucleotides in length; this includes 143 nontranslated nucleotides at the 5' end and 615 nontranslated nucleotides at the 3' end. The 3' nontranslated sequence contains a 102-base pair region of alternating purine-pyrimidine nucleotides (the majority of which are UpG dinucleotides), several direct repeats and palindromic sequences, and 8 CpG dinucleotides. The corresponding segment of the phosphoenolpyruvate carboxykinase gene thus has characteristics which favor the formation of Z-DNA. The amino acid sequence of phosphoenolpyruvate carboxykinase was deduced from the mRNA sequence and confirmed by fast atom bombardment mass spectrometric analysis of peptides generated with
trypsin
and Staphylococcus aureus V8 protease. The protein consists of 621 amino acids and has a molecular weight of 69,289. Charon 4A lambda bacteriophage clones containing genomic DNA coding for phosphoenolpyruvate carboxykinase were isolated from a library of partial HaeIII digests of rat liver DNA. Two clones, lambda PC112 and lambda PC103, contained the entire coding region in 15-kilobase inserts and were used to subclone the gene into pBR322 as EcoRI, BamHI, or SstI-KpnI fragments. Using these subclones, the structure of the phosphoenolpyruvate carboxykinase gene was determined by S1 nuclease mapping, R-loop analysis, and DNA sequencing. The gene is composed of 10 exons and 9 introns with a total length of 6.0 kilobases. The transcription initiation site of the gene was determined by a combination of in vitro transcription in a HeLa cell lysate system, primer extension of mRNAPEPCK, and S1 nuclease mapping. In vitro transcription of purified DNA templates revealed three
RNA polymerase II
-dependent start sites. Two sites were separated by 600 base pairs on the coding strand and the third site was on the noncoding strand. The products of S1 nuclease mapping and primer extension from a BglII site were compared in order to determine which of the coding strand initiation sites was expressed in vivo. In both cases a 69-base pair fragment was generated and the 5' end of this corresponded to a thymidine residue identified in a sequence ladder of the genomic DNA coding strand. We conclude that mRNAPEPCK synthesis initiates with an adenine residue 69 base pairs 5' of the BglII site; this corresponds to the 3' most transcription initiation site determined in vitro.
...
PMID:Rat hepatic cytosolic phosphoenolpyruvate carboxykinase (GTP). Structures of the protein, messenger RNA, and gene. 299 87
In experiments designed to study the mechanism of glucocorticoid hormone induced reductions in rat thymic transcription, adrenalectomized rats were injected with hydrocortisone (50 mg/kg) or control vehicle 12 h prior to sacrifice. Thymic nuclei were used to prepare soluble nuclear extracts containing
RNA polymerase II
. Nuclear extract RNA polymerases II were then partially purified (600-fold) on DEAE-Sephadex columns and characterized. The responses of partially purified thymic RNA polymerases II from rats treated in vivo with hydrocortisone or vehicle were similar to: pH, temperature, ionic strength,
trypsin
proteolysis, and inhibition by alpha-amanitin; however,
RNA polymerase II
from hydrocortisone treated animals was consistently reduced in activity compared to control
RNA polymerase II
. Determination of the apparent specific activities of peak
RNA polymerase II
fractions from DEAE-Sephadex columns suggested that the specific activity of RNA polymerase II from hydrocortisone treated animals was reduced compared to
RNA polymerase II
activity from control animals. The fact that both nuclear extract and partially purified RNA polymerases II from hydrocortisone treated rats were reduced in activity when assayed in reconstituted transcriptive systems suggests a denatured, defective or modified
RNA polymerase II
molecule acting as a transcription inhibitor. Thermally denatured nucleoplasmic
RNA polymerase II
fractions were shown to interfere with transcription by native nucleoplasmic
RNA polymerase II
in vitro, but did not appear to inhibit transcription to he degree observed in vitro following in vivo hydrocortisone administration.
...
PMID:Studies on the mechanism of glucocorticoid hormone induced alterations in rat thymic transcription--II. Partial purification and characterization of RNA polymerases II from hydrocortisone and control vehicle treated animals. 362 50
Purified calf thymus
RNA polymerase II
is composed primarily of species IIA and IIB. These enzymes differ in the apparent molecular weight of their largest subunit, designated IIa and IIb for enzyme forms IIA and IIB, respectively. Both enzyme forms contain an additional high molecular weight subunit designated IIc. The structural relationship between subunits IIa, IIb, and IIc, labeled with 125I under both native and denaturing conditions, has been analyzed by two-dimensional peptide mapping. Native
RNA polymerase II
was iodinated and subunits IIa, IIb, and IIc purified by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate. The subunits were then digested with either
trypsin
or thermolysin and the 125I-labeled peptides resolved by thin layer electrophoresis in the first dimension and chromatography in the second dimension. Similar peptide maps were obtained for each of the three large subunits, suggesting that subunits IIa, IIb, and IIc are related in primary sequence. Alternatively, RNA polymerase subunits IIa, IIb, and IIc were purified by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate, eluted from the gel, and then iodinated. The use of denatured subunits as substrate for the iodination eliminates the differential reactivity of specific tyrosine residues imposed by the structure of the native protein. Under these labeling conditions, the tryptic and thermolytic peptide maps of subunits IIa and IIb are nearly identical but bear much less resemblance to the peptide maps of subunit IIc than with the previous labeling procedure. These results suggest that subunits IIa and IIb are closely related in primary sequence but cannot establish whether these subunits are the products of closely related genes or are related by processing at the level of primary transcript or primary translation product. Subunit IIc bears a more distant relationship to subunits IIa and IIb. Possible reasons why this homology is only apparent in peptide maps from subunits labeled in the native enzyme are discussed.
...
PMID:Structural relationship between the large subunits of calf thymus RNA polymerase II. 683 37
Chick embryos, chick embryo fibroblasts, and Rous sarcoma virus-transformed chick embryo fibroblasts contain a factor that preferentially blocks the accumulation of DNA-directed RNA polymerase II transcripts. The factor was detected by inhibition of transcription in a cell-free assay system utilizing partially purified
RNA polymerase II
from calf thymus, soluble factors from HeLa cells, and a purified DNA template. At low concentrations, it specifically prevents the accumulation of
RNA polymerase II
transcripts; at higher concentrations, it blocks the accumulation of other transcripts. The factor has been partially purified by sequential chromatography on BioRex 70, DNA-cellulose, Bio-Gel P-6, and HPX-87 from extracts of chicken embryos. The activity was resistant to treatment with
trypsin
, pronase, or micrococcal nuclease. A partial characterization of the molecule indicates that (i) it has an apparent molecular mass of about 200-300 daltons, (ii) it is stable at pH 2 and pH 12 and to heating at 100 degrees C, (iii) it is not extractable by ether or chloroform:methanol, (2:1, v/v), and (iv) it is labile to heating at 800 degrees C. These data suggest that it is a small, hydrolphilic compound probably organic in nature. The factor is active in a transcription assay utilizing either the Rous sarcoma virus Long Terminal Repeat promoter or the chick alpha 2 (Type I) collagen-promoter as DNA templates. The accumulation of promoter-specific transcripts is blocked in a cell-free assay utilizing either Rous sarcoma virus-chick embryo fibroblast extracts or HeLa S-100 factors and calf thymus
RNA polymerase II
. In the absence of S-100, the factor does not appreciably affect the accumulation of randomly initiated transcripts produced by calf thymus
RNA polymerase II
on a DNA template; this result indicates the factor interacts directly or indirectly with some component(s) of HeLa S-100 to prevent the accumulation of RNA.
...
PMID:Chicken embryo extracts contain a factor that preferentially blocks the accumulation of RNA polymerase II transcripts in a cell-free system. 713 Jan 91
A procedure is described for rapid, high-confidence identification of proteins using matrix-assisted laser desorption/ionization tandem ion trap mass spectrometry in conjunction with a genome database searching strategy. The procedure involves excision of copper-stained bands or spots from electrophoretic gels, in-gel
trypsin
digestion of the proteins, single-stage mass spectrometric analysis of the resultant mixture of tryptic peptides, followed by tandem ion trap mass spectrometric analysis of selected individual peptides, and database searching of the relevant genomic database using the program PepFrag. The scheme provides sensitive, real-time protein identification as well as facile identification of modifications. A single operator can unambiguously identify 5-10 proteins/day from an organism whose genome is known at a level of > 0.5 pmol of protein loaded on a gel. The utility of the technique was demonstrated by the identification and characterization of a band from a human HTLV-I preparation and 11 different proteins from a yeast
RNA polymerase II
C-terminal repeat domain-affinity preparation. The technology has great potential for postgenome biological science, where it promises to facilitate the dissection and anatomy of macromolecular assemblages, the definition of disease state markers, and the investigation of protein targets in biological processes such as the cell cycle and signal transduction.
...
PMID:A strategy for rapid, high-confidence protein identification. 932 36
The heterogeneous nuclear ribonucleoprotein A1 (hnRNP A1) functions in the packaging of nascent
RNA polymerase II
transcripts and participates in a variety of nuclear and cytoplasmic processes that modulate gene expression. The RNA binding characteristics of hnRNP A1 suggest that it can modulate the expression of specific genes, but little is known about its possible targets in vivo. In this article, we show that hnRNP A1 interacts with the transcript of a cytochrome P450 gene, Cyp2a5, induced by xenobiotics and during liver damage. Binding of the hnRNP A1 to CYP2A5 mRNA was demonstrated by immunoprecipitation of the xenobiotic-stimulated (37/39 kDa) CYP2A5 mRNA-protein complex with a monoclonal anti-hnRNP A1 antibody, by partial
trypsin
digestion of the complex, and by showing that the RNA-protein complex is not formed with protein extracts from cells lacking the hnRNP A1. We also show that a specific hepatotoxic inducer of the Cyp2a5 gene, pyrazole, increases the cytoplasmic levels of hnRNP A1 in vivo. Finally, we show that hnRNP A1 can be overexpressed in mouse primary hepatocytes, leading to an accumulation of the CYP2A5 mRNA. Collectively, these results indicate that the hnRNP A1 is an important regulator of the Cyp2a5 gene.
...
PMID:Heterogeneous nuclear ribonucleoprotein A1 and regulation of the xenobiotic-inducible gene Cyp2a5. 1190 Dec 18
The Spt5-Spt4 complex regulates early transcription elongation by
RNA polymerase II
and has an imputed role in pre-mRNA processing via its physical association with mRNA capping enzymes. Here we characterize the Schizosaccharomyces pombe core Spt5-Spt4 complex as a heterodimer and map a
trypsin
-resistant Spt4-binding domain within the Spt5 subunit. A genetic analysis of Spt4 in S. pombe revealed it to be inessential for growth at 25 degrees C-30 degrees C but critical at 37 degrees C. These results echo the conditional spt4Delta growth phenotype in budding yeast, where we find that Saccharomyces cerevisiae and S. pombe Spt4 are functionally interchangeable. Complementation of S. cerevisiae spt4Delta and a two-hybrid assay for Spt4-Spt5 interaction provided a readout of the effects of 33 missense and truncation mutations on S. pombe Spt4 function in vivo, which were interpreted in light of the recent crystal structure of S. cerevisiae Spt4 fused to a fragment of Spt5. Our results highlight the importance of the Spt4 Zn2+-binding residues--Cys12, Cys15, Cys29, and Asp32--and of Ser57, a conserved constituent of the Spt4-Spt5 interface. The 990-amino acid S. pombe Spt5 protein has an exceptionally regular carboxyl-terminal domain (CTD) composed of 18 nonapeptide repeats. We find that as few as three nonamer repeats sufficed for S. pombe growth, but only when Spt4 was present. Synthetic lethality of the spt5(1-835) spt4Delta double mutant at 34 degrees C suggests that interaction of Spt4 with the central domain of Spt5 overlaps functionally with the Spt5 CTD.
...
PMID:Characterization of the Schizosaccharomyces pombe Spt5-Spt4 complex. 1946 Aug 65
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