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)
Basal bodies, purified from Chlamydomonas and Tetrahymena, were exposed to various enzymatic treatments and then assayed for their ability to nucleate aster formation upon injection into eggs of Xenopus laevis. Untreated basal bodies injected into frog eggs act as centrioles and induce the formation of asters. The aster-inducing activity of basal bodies was eliminated by treatment with proteolytic enzymes and ribonucleases. Aster-inducing activity was not affected by DNAse and a number of other enzymes. The effect of proteolytic digestion on aster-inducing activity appeared to be directly correlated with the degree of structural damage to the basal body. Low concentrations of pancreatic ribonuclease A, ribonuclease T1, and
S1 nuclease
also completely abolished aster-inducing activity, although these enzymes had no effect on basal body structure.
Ribonuclease
-treated basal bodies remained capable of supporting microtubule elongation in vitro. Preliminary evidence indicates that basal bodies from Chlamydomonas and Tetrahymena contain about 5 x 10(-16) g of RNA which co-band with basal bodies and aster-inducing activity by equilibrium density gradient sedimentation. We conclude first, that centrioles contain RNA which is required for initiation of aster formation, and second, that the centriole activity or ability to assemble a mitotic aster is separable from the basal body activity, or ability to serve directly as a template for microtubule growth.
...
PMID:Evidence for a functional role of RNA in centrioles. 40 9
In rat liver there are two types of serine:pyruvate aminotransferase (SPT) whose natures are indistinguishable but whose subcellular localization are different. One is a mitochondrial enzyme (SPTm) and the other a peroxisomal enzyme (SPTp). We compared, in this study, the structure of mRNAs encoding SPTm and SPTp by comparison of the sizes after removal of poly(A) tail by ribonuclease H and by means of RNA blot analysis and
S1 nuclease
protection assay. No differences were detected between these two mRNAs other than that about 100 nucleotides of the 5'-terminal sequence of SPTm mRNA are lacking in SPTp mRNA, and the length of the poly(A) tail is different. Southern blot analysis of rat genomic DNA showed that the SPT gene is single. Primer extension and
S1 nuclease
mapping analyses, using a DNA fragment of a genomic clone, revealed that the SPTm and SPTp mRNAs are transcribed from different initiation sites, about 70 nucleotides apart, in the same exon, exon 1.
Ribonuclease
protection assay performed with RNA hybridization probe corresponding to 5'-terminal portion of SPTm mRNA also showed that the 5'-terminal sequence of SPTp mRNA is about 70 nucleotides shorter than that of hormone-responsive SPTm mRNA. These results indicate that the different organelle distribution of SPTm and SPTp, the products of the same SPT gene, arises from transcription from different initiation sites, conferring N-terminal extension peptide, the mitochondrial targeting signal, only on the translation product of SPTm mRNA.
...
PMID:Generation from a single gene of two mRNAs that encode the mitochondrial and peroxisomal serine:pyruvate aminotransferase of rat liver. 233 38
Alkaline phosphatase (ALP) in human choriocarcinoma cells (malignant trophoblasts) was characterized by its greater sensitivity to EDTA and L-leucine inhibition as compared with the placental isozyme. In addition, both the fully processed and the nonglycosylated forms of choriocarcinoma ALP migrated faster than the corresponding placental enzyme in sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Choriocarcinoma cells express a 2.6-kilobase (kb) ALP mRNA unlike normal human placenta which expresses a 2.8-kb ALP mRNA. Administration of sodium butyrate to choriocarcinoma cells greatly increased the steady-state levels of the 2.6-kb choriocarcinoma ALP mRNA, which resulted in an increase in enzyme activity and biosynthesis.
S1 nuclease
analysis using probes derived from a placental ALP cDNA and ribonuclease protection assays employing probes derived from the germ cell ALP gene demonstrated that choriocarcinoma cells express the germ cell ALP gene. The germ cell ALP gene encodes the placental ALP-like isozyme that is primarily expressed in the thymus, testis, and germ cell tumors. The structures of the internal exons (II-X) of the germ cell ALP gene were determined previously based on their similarity to the placental ALP gene. However, the boundaries of exons I and XI (3' exon) of the germ cell ALP gene were not defined due to sequence divergence between the two genes at the 5' and 3' regions.
Ribonuclease
protection and primer extension assays demonstrated that exon I of this gene is 119 base pairs in length and that germ cell ALP mRNA contains one major transcription initiation site. The isolation and characterization of germ cell ALP cDNA clones from a butyrate-treated choriocarcinoma cDNA library showed that the germ cell ALP mRNA is 2487 bases in length and exon XI of this gene is 1135 base pairs long.
...
PMID:Expression of the germ cell alkaline phosphatase gene in human choriocarcinoma cells. 274 60
Regenerating rat liver nuclei when sonicated and centrifuged in a Cs2SO4 gradient were fractionated into three distinct bands. These bands were designated as light band (LB), middle band (MB), and heavy band (HB) according to their density. LB and MB were shown to consist of large granular particles with varying electron densities, but LB also contained remnants of nuclear membrane. When analysed by gel electrophoresis, LB and MB displayed more than 35 bands of proteins. The third fraction, HB, consisted largely of small chromatin fibers and its proteins were predominantly the four histones of the nucleosomal core particle. Following short pulses with [3H]thymidine in vivo, the specific activity of DNA in LB and MB was significantly higher than that of bulk DNA contained in HB. DNA in all three fractions became equally labelled as the duration of the labelling interval increased beyond 30 min. Newly synthesized DNA was characterized by electrophoresis on analytical 1.7% acrylamide -0.5% agarose composite gels. After a 1-min labelling interval in vivo, 17% of the rapidly labelled DNA from LB and MB was stationary at the gel origin like replication forks from E. coli, but only 3% of HB DNA had zero mobility. Electron microscopy confirmed the presence of DNA replication forks in LB, MB, and HB. With increasing time of synthesis the proportion of labelled DNA exhibiting zero mobility decreased in all three fractions. Denaturation of DNA or digestion of single-stranded DNA with
S1 nuclease
released newly synthesized DNA from the gel origin.
Ribonuclease
was without effect. DNA recovered from LB and MB also had a higher molecular weight than the HB DNA. Together these results indicate (1) that LB and MB are enriched in newly replicated DNA; (2) that an increased proportion of newly replicated DNA in LB and MB is associated with DNA replication forks; and (3) that the replicating DNA recovered in LB and MB may be associated with other nuclear constituents in situ because this DNA appears to be protected from the more frequent chain breaks introduced into the bulk of chromatin (HB) by sonication.
...
PMID:Fractionation and characterization of DNA at sites of replication from rat liver nuclei. 687 92
The solution conformation of two variants of cucumber mosaic virus satellite RNA (CMV satRNA) was analyzed using several enzymatic and chemical probes.
Ribonuclease
T1 and
nuclease S1
were used to map unpaired nucleotides, and nuclease V1 was used to detect double-stranded, or stacked, bases. Chemical probing with dimethylsulphate and diethylpyrocarbonate also identified unpaired and unstacked nucleotides, respectively. Modified or cleaved positions were identified by direct gel electrophoresis of radioactively labeled RNA, or by analysis of DNA sequence patterns generated by primer-extension with reverse transcriptase. Additional information was obtained by a gel-fractionation method under nondenaturing conditions for the identification of base paired fragments. On these data, a model for the in vitro secondary structure of CMV satRNA is proposed. Results support the existence of a complex structure with 51% of nucleotides involved in base pairs (40 G:C, 28 G:U, and 18 A:U pairs). Several structural elements, numbered I-VI, were defined, and interactions between separate domains are suggested. Comparisons of experimental data and a formerly reported secondary structure model for CMV satRNA support the validity of the structure we propose.
...
PMID:Analysis of the in vitro secondary structure of cucumber mosaic virus satellite RNA. 929 3
