Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.30.2 (endonuclease)
 18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Frequencies of the CIT SNP alleles at position 2403 of the human coagulation factor VIII gene intron 1, containing the AluI restriction endonuclease recognition site, were examined. Genomic DNA samples for the analysis were obtained from the consulted women and their relatives from the families with hemophilia A. A total of 221 unrelated X chromosomes were studied. The two allelic variants were found with similar frequencies of T(Alu+), 0.53 and C(Alu-), 0.47. The heterozygosity index evaluated as equal to 0.50 was correlated with the experimental heterozygote number. The absence of a tight linkage between the AluI SNP and the widely used in the hemophilia A gene diagnostics HindIII polymorphism (CIT SNP at position 103 of intron 19) was demonstrated. Summarized informativity of these two markers for obligate carriers and for those detected in this study constituted 68% (32 out of 47). At the same time using one of the markers, only 40% (HindIII) and 51% (AluI) of the consulted women were informative. The new marker was used in 13 prenatal DNA diagnostics of hemophilia A. A new deletion polymorphism (del TGA, position 2281-2283 of intron 1) was described in close proximity of the AluI SNP with the frequency of about 0.05. among the five other SNP of the factor VIII gene examined (Bme 18I, intron 1; HpaII, intron 13; MnlI, exon 14; Bst4CI, exon 25; and MseI, exon 26) no effective diagnostic markers were found. Only the MnlI polymorphism could be recommended for limited usage.
 ...
PMID:[Analysis of the AluI polymorphism in intron 1 of the human coagulation factor VIII gene: a new marker for the hemophilia A carrier detection]. 1755 34

The genome of Mycoplasma arthritidis strain 158 has modified cytosine residues at AGCT sequences that render the DNA resistant to digestion with the AluI restriction endonuclease. The DNA methyltransferase responsible for the base modification has previously been designated MarI. From the complete genome sequence of M. arthritidis, we identify Marth_orf138 as a candidate marI gene. Marth_orf138 was cloned in Escherichia coli and its TGA codons converted to TGG. DNA isolated from E. coli cells expressing the modified Marth_orf138 gene was degraded by the AluI nuclease, indicating that Marth_orf138 does not code for MarI. However, the DNA from E. coli was found to have acquired resistance to the restriction endonuclease HhaI. Genomic DNA from M. arthritidis was also found to be resistant to HhaI (recognizes GCGC). The M. arthritidis isoschizomer of the HhaI DNA methyltransferase, coded by Marth_orf138, is designated MarII. Transformation of M. arthritidis was not significantly affected by modification of plasmid at HhaI sites, indicating that the mycoplasma lacks a restriction endonuclease that recognizes GCGC sites.
 ...
PMID:Identification of an isoschizomer of the HhaI DNA methyltransferase in Mycoplasma arthritidis. 1905 74

New types of small RNAs distinct from microRNAs (miRNAs) are progressively being discovered in various organisms. In order to discover such novel small RNAs, a library of 17- to 26-base-long RNAs was created from prostate cancer cell lines and sequenced by ultra-high-throughput sequencing. A significant number of the sequences are derived from precise processing at the 5' or 3' end of mature or precursor tRNAs to form three series of tRFs (tRNA-derived RNA fragments): the tRF-5, tRF-3, and tRF-1 series. These sequences constitute a class of short RNAs that are second most abundant to miRNAs. Northern hybridization, quantitative RT-PCR, and splinted ligation assays independently measured the levels of at least 17 tRFs. To demonstrate the biological importance of tRFs, we further investigated tRF-1001, derived from the 3' end of a Ser-TGA tRNA precursor transcript that is not retained in the mature tRNA. tRF-1001 is expressed highly in a wide range of cancer cell lines but much less in tissues, and its expression in cell lines was tightly correlated with cell proliferation. siRNA-mediated knockdown of tRF-1001 impaired cell proliferation with the specific accumulation of cells in G2, phenotypes that were reversed specifically by cointroducing a synthetic 2'-O-methyl tRF-1001 oligoribonucleotide resistant to the siRNA. tRF-1001 is generated in the cytoplasm by tRNA 3'-endonuclease ELAC2, a prostate cancer susceptibility gene. Our data suggest that tRFs are not random by-products of tRNA degradation or biogenesis, but an abundant and novel class of short RNAs with precise sequence structure that have specific expression patterns and specific biological roles.
 ...
PMID:A novel class of small RNAs: tRNA-derived RNA fragments (tRFs). 1993 53


<< Previous 1 2