Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.1.30.1 (
S1 nuclease
)
3,660
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Highly purified DNA obtained from calf thymus nuclei was found to cleave after reaction with a chelating agent and subsequent dialysis against 0.01 M phosphate. During the cleavage release of proteineous material into the dialysate was observed. By means of anion exchange resin column chromatography, this material was separated into 9 main fractions. Two of these fractions P1 and P5) were found to contain the amino acids phosphoserine, asp, thr, ser,
glu
, gly, ala, val, ile, leu, and arg, as well as metal ion complexes of phosphoserine. The complexes were dissociated by Chelex 100 treatment. The proportion of phosphoserine was much greater in P5 than in P1. P1 and P5 contained essentially no nucleotide material. All other fractions (P2, P3, P3a, P4, P5a, P6, P7, P8, P6a, P9) were found to contain ribonucleotides and deoxynucleotides. The deoxynucleotide content was about 10% of total nucleotide content. After a deionizing treatment with Chelex, the amounts of nucleotides were extensively reduced to a level corresponding to about 1 nucleotide of 10 amino acids. In separate experiments, commercial DNA (S-DNA) was ultrasonicated, and digested with pancreatic DNAase, exonuclease III, and
S1 nuclease
. From DEAE Sephacel chromatography of this material the fraction obtained having the highest proportion of protein aceous material was hydrolyzed with Pronase and again chromatographed on DEAE Sephacel. From this fractionation a single fraction containing deoxynucleotides and amino acids was found. The mixture obtained by hydrolysis of this fraction with snake venom diesterase and was again rechromatographed, which revealed two peaks, one corresponding to deoxynucleotide material and a second one to a mixture of 4 amino acids, phosphoserine, asp,
glu
, and gly. From this it was concluded that the fraction used for diesterase digestion consisted of deoxynucleotide-amino acids, with covalent diester bonds between their deoxynucleotide and amino acid portions. The results indicate that in purified S-DNA phosphopeptides are linked through covalent bonds to the terminal deoxynucleotide residues.
...
PMID:Phosphopeptides in highly purified calf thymus DNA. 282 22
lambda gt11 cDNA libraries derived from human brain were screened with oligonucleotide probes for recombinants that code for alpha subunits of G signal transduction proteins. Eleven alpha s clones were detected with both probes and characterized. Four types of alpha s cDNA were cloned that differ in nucleotide sequence in the region that corresponds to amino acid residues 71-88. The clones differ in the codon for alpha s amino acid residue 71 (
glutamic acid
or aspartic acid), the presence or absence of codons for the next 15 amino acid residues, and the presence or absence of an adjacent serine residue.
S1 nuclease
protection experiments revealed at least two forms of alpha s mRNA. A mechanism for generating four species of alpha s mRNA by alternative splicing of precursor RNA is proposed.
...
PMID:Human cDNA clones for four species of G alpha s signal transduction protein. 302 54
Highly purified DNA from calf thymus nuclei (N-DNA) was found to cleave after reaction with a chelating agent and subsequent dialysis. During the cleavage phosphopeptides (PPs) were released into the dialysates. At the end of the cleavage, approximately one half of the PP material remained with the DNA. Since it was so strongly bound, it was considered to be retained in the DNA structure by covalent bonding. In order to confirm this, a commercial DNA (S-DNA) was ultrasonicated and digested with pancreatic DNAase, exonuclease III, and
S1 nuclease
. DEAE Sephacel chromatography of the digested material yielded 5 fractions. The fraction 2, having the highest proportion of proteinaceous material, was digested with Pronase. Amino acid analysis of the hydrolysis mixture yielded phosphoserine (Pser), asp, thr, ser,
glu
, gly, ala, val, ile, leu, and arg. The mixture was chromatographed again on DEAE Sephacel. From this a single fraction, number 5, was found to contain both deoxynucleotides and the amino acids, Pser, asp, ser,
glu
, and gly in a molar ratio of greater than 7:3:2:2:5. The mixture obtained by hydrolysis of this fraction with snake venom diesterase was again chromatographed on DEAE Sephacel. This fractionation gave two main peaks, one corresponding to the same 5 amino acids and the other to deoxynucleotide material. From this it was concluded that the fraction used for diesterase digestion consisted of deoxynucleotide-amino acids, with covalent diester bonds between the deoxynucleotide and amino acid portions.
...
PMID:Evidence for covalent binding between phosphopeptides and terminal deoxynucleotides in highly purified calf thymus DNA. 347 28
We determined the complete nucleotide sequence of the RAD3 gene of Saccharomyces cerevisiae. The coding region of the gene contained 2,334 base pairs that could encode a protein with a calculated molecular weight of 89,796. Analysis of RAD3 mRNA by Northern blots and by
S1 nuclease
mapping indicated that the transcript was approximately 2.5 kilobases and did not contain intervening sequences. Fusions between the RAD3 gene and the lac'Z gene of Escherichia coli were constructed and used to demonstrate that the RAD3 gene was not inducible by DNA damage caused by UV radiation or 4-nitroquinoline-1-oxide. Two UV-sensitive chromosomal mutant alleles of RAD3, rad3-1 and rad3-2, were rescued by gap repair of a centromeric plasmid, and their sequences were determined. The rad3-1 mutation changed a
glutamic acid
to lysine, and the rad3-2 mutation changed a glycine to arginine. Previous studies have shown that disruption of the RAD3 gene results in loss of an essential function and is associated with inviability of haploid cells. In the present experiments, plasmids carrying the rad3-1 and rad3-2 mutations were introduced into haploid cells containing a disrupted RAD3 gene. These plasmids expressed the essential function of RAD3 but not its DNA repair function. A 74-base-pair deletion at the 3' end of the RAD3 coding region or a fusion of this deletion to the E. coli lac'Z gene did not affect either function of RAD3.
...
PMID:RAD3 gene of Saccharomyces cerevisiae: nucleotide sequence of wild-type and mutant alleles, transcript mapping, and aspects of gene regulation. 388 9
Mutations in the yeast gene CYH2 can lead to resistance to cycloheximide, an inhibitor of eukaryotic protein synthesis. The gene product of CYH2 is ribosomal protein L29, a component of the 60S ribosomal subunit. We have cloned the wild-type and resistance alleles of CYH2 and determined their nucleotide sequence. Transcription of CYH2 appears to initiate and terminate at multiple sites, as judged by
S1 nuclease
analysis. The gene is transcribed into an RNA molecule of about 1082 nucleotides, containing an intervening sequence of 510 nucleotides. The splice junction of the intron resides within a codon near the 5' end of the gene. In confirmation of peptide analysis by Stocklein et al. (1) we find that resistance to cycloheximide is due to a transversion mutation resulting in the replacement of a glutamine by
glutamic acid
in position 37 of L29.
...
PMID:Cycloheximide resistance in yeast: the gene and its protein. 630 24
