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

We have isolated full-length cDNA clones for apolipoprotein AI from a human fetal liver cDNA library made in the vector lambda gt10. One such clone, pBL13AI, was 965 nucleotides long and contained the entire preproapolipoprotein AI sequence, in addition to 86 nucleotides of 5' untranslated region and 75 nucleotides of the 3' untranslated region. The complete structure of this clone is presented. Furthermore, we have obtained a 20-kb genomic fragment from a human genomic library, encompassing the entire apo AI gene. Sequence analysis of the gene shows that the coding region is interrupted by three introns of 197, 187, and 588 bp, respectively. Digestion of the DNA of various individuals with the endonuclease Msp I revealed a new restriction site polymorphism in the apo AI gene.
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PMID:Isolation and DNA sequence of full-length cDNA and of the entire gene for human apolipoprotein AI--discovery of a new genetic polymorphism in the apo AI gene. 620 99

DNA containing 5-azacytosine (azaC) has previously been shown to be a potent inhibitor of DNA-cytosine methyltransferases. In this report, we describe experiments which demonstrate that azaC-DNA forms a covalent complex with Hpa II methylase, a bacterial enzyme that methylates the internal C of C-C-G-G sequences. The complex does not undergo detectable dissociation over at least 3 days and is stable to denaturation with NaDodSO4. After extensive digestion of the complex with DNase and phosphodiesterase, gel filtration gave the methylase bound to approximately one equivalent of azaC; the digested complex had an apparent molecular weight similar to that of the native enzyme. Although prior treatment of azaC-DNA with Hpa II endonuclease had only a slight effect on binding of the methylase, treatment with Msp I endonuclease, which also cleaves at C-C-G-G sequences, resulted in a significant reduction in binding; this indicates that azaC residues in the recognition sequence of Hpa II are an important component in the covalent interaction of the methylase. However, since there was residual binding it is possible that azaC residues elsewhere in DNA also covalently bind to the methylase. These results provide an explanation of why azaC-DNA is such a potent inhibitor of cytosine methyltransferases and how the incorporation of such low levels of azaC into DNA can result in dramatic decreases in the methylation of cytosine. Finally, consideration of the probable catalytic mechanism of cytosine methylases and the chemical properties of azaC suggests that the inhibition is, at least in part, an active-site directed process and permits a proposal for the structure of the covalent complex.
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PMID:Covalent bond formation between a DNA-cytosine methyltransferase and DNA containing 5-azacytosine. 620 10

The 5-methylcytosine content of mouse mammary tumor virus (MMTV)-specific DNA sequences acquired by both milk-borne infection and genetic transmission was determined for both normal and neoplastic tissues of the mouse. Using the restriction endonuclease Msp I, which cleaves at the recognition sequence 5'-CCGG, and its isoschizomer Hpa II, which is inhibited by methylation of the cytosine base of the CpG dinucleotide, it can be demonstrated that MMTV proviruses acquired via germ line infection are extensively methylated at both the site for Msp I-Hpa II cleavage and the site for Hha I (5'-GCGC), which is also inhibited by base modification of the cytosine. The virus-specific sequences acquired via milk-borne infection, however, are not modified at these sites in DNA from either normal infected or transformed tissues. Finally, cellular sequences are nonspecifically hypomethylated in a phenomenon unique to transformed tissue and apparently unrelated to the specific hypomethylation of exogenously acquired MMTV proviruses.
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PMID:Methylation of milk-borne and genetically transmitted mouse mammary tumor virus proviral DNA. 624 94

Control and bromodeoxyuridine-containing rat-embryo-cell DNA were digested by the restriction endonucleases Hpa II and Msp I and were subsequently analyzed by agarose-gel electrophoresis as well as DNA-affinity chromatography. By the former technique, it appeared that no substantial differences existed between the two DNA samples with respect to the amount or distribution of methylcytosine. On the other hand, it was obvious following base-specific DNA chromatography that the virogenic analog was markedly concentrated in particular nucleotide sequences which demonstrated a proportionately greater affinity for the (A-T)-specific adsorbent irrespective of digestion by either restriction endonuclease.
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PMID:Isolation by restriction endonuclease digestion and base-specific affinity chromatography of rat-embryo DNA sequences disproportionately enriched in virogenic bromodeoxyuridine. 627 Dec 72

Restriction endonucleases cut and partially removed DNA throughout fixed air-dried human metaphase chromosomes. Some enzymes produced a G-banding pattern; some revealed the presence of multiple chromosome-specific classes of highly repetitive DNA in C-band heterochromatin. Enzymes that produced the informative C-band patterns had recognition sequences that were four or five, but not six, base pairs long and did not contain a cytosine-guanine doublet. In both rat and human chromosomes, regions containing amplified ribosomal RNA genes were specifically removed by the restriction endonuclease Msp I.
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PMID:Chromosome localization of highly repetitive human DNA's and amplified ribosomal DNA with restriction enzymes. 629 32

Human mitochondrial DNA (mtDNA) restriction endonuclease fragment patterns were analyzed using total blood cell DNA isolated from 200 individuals representing five different populations. Thirty-two fragment patterns (morphs) were observed with the enzymes Hpa I, Bam HI, Hae II, Msp I and Ava II yielding thirty-five different combinations of fragment patterns (mt DNA types). The major ethnic groups exhibit quantitative as well as qualitative differences in their mtDNA types, all of which are related to each other by a tree in which the closely related mtDNA types cluster according to geographic origin. Three mtDNA types are postulated to be 'central' to ethnic radiations due to their high frequencies, their appearance in more than one ethnic group, or their presence in other primate species. Genetic distances among populations were computed and employed in construction of an average linkage tree. If one of the three central mtDNA types is the root of the tree, differences in evolutionary rates among the branches become apparent. In particular, the Bushmen appear to have a higher evolutionary rate for mtDNA than the other four populations. Comparisons with nuclear gene frequencies suggest that this higher evolutionary rate may be the product of an elevated mutation rate or fixation of mutations in mtDNA.
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PMID:Radiation of human mitochondria DNA types analyzed by restriction endonuclease cleavage patterns. 631 Jan 33

Different states of eukaryotic gene expression are often correlated with different levels of methylation of DNA sequences containing structural genes and their flanking regions. To assess the potential role of DNA methylation in the expression of immunoglobulin genes, which require complex rearrangements prior to expression, methylation patterns were examined in cell lines representing different stages of lymphocyte maturation. Methylation of the second cytosine in the sequence 5' C-C-G-G 3' was determined by using Hpa II/Msp I endonuclease digestion. Four CH genes (C mu, C delta, C gamma 2b, and C alpha), C kappa, V kappa, C lambda, and V lambda genes were analyzed. The results lead to the following conclusions: (i) transcribed immunoglobulin genes are undermethylated; (ii) the C gene allelic to an expressed C gene is always also undermethylated; and (iii) all immunoglobulin loci tend to become increasingly undermethylated as B cells mature.
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PMID:Methylation patterns of immunoglobulin genes in lymphoid cells: correlation of expression and differentiation with undermethylation. 631 34

Both the pattern and level of rRNA gene methylation vary in the rat. This variation reflects stages in the maturation process and perhaps the level of gene expression in different tissues. We studied methylation at a common site, the inner cytosine of the sequence CCGG, by hybridizing 32P-rRNA to DNA digests obtained with endonuclease Msp I (which cleaves CCGG and CMCGG) and its isochizomer, HpaII (which cleaves only CCGG). In the liver, the changing pattern of rRNA gene methylation reflected the late stages of development: the rRNA genes were mostly unmethylated at 14 days gestation; by 18 days gestation, about 30% of them were methylated, and this level persisted into adulthood. In 18-day DNA, the methylation was uniform, but in adult DNA, the methylation pattern was discontinuous, because otherwise methylated genes contained a demethylated region. Similar developmental changes were observed in brain DNA. In a tissue culture cell line, the change from the continuous to the discontinuous pattern of the methylation could be induced by transformation with Kirsten sarcoma virus. And, in adult tissues, the lowest level of rRNA gene methylation was found in rapidly growing jejunal epithelium, and the highest level, in non-growing spermatozoa.
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PMID:Variable methylation of the ribosomal RNA genes of the rat. 711 Oct 24

We report a factor VII (FVII) variant, FVIIShinjo, characterized by normal FVII antigen levels and variable procoagulant activity using tissue thromboplastin from different sources. Normal FVII activity is obtained using human placenta thromboplastin but low activity using rabbit or bovine brain thromboplastin. Exons 2-8 and the intron-exon junctions of the FVII genes of the propositus were amplified by PCR from DNA extracted from peripheral white blood cells, and screened by single-strand conformational polymorphism (SSCP) analysis. DNA fragments showing aberrant mobility were cloned and sequenced. We detected a single-point mutation, a homozygous G to A transition at nucleotide position 6,055 in exon 4, which results in the substitution of Arg 79 by Gln in the first EGF-like domain. This mutation results in a loss of a site for the restriction endonuclease MspI. The Msp I digestion pattern of the PCR-amplified exon 3+4 fragments from each member of the family was determined. The Msp I haplotypes were consistent with this G to A transition being associated with reduced FVII activity as detected using thromboplastins from various species. We conclude that the Arg 79 to Gln substitution in the first EGF-like domain of FVII identified in the propositus is responsible for the inherited FVII abnormality in this Japanese family. We postulate that one of the sites of interaction between FVII and tissue thromboplastin includes Arg 79 in the first EGF-like domain of factor VII.
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PMID:Factor VIIShinjo: a dysfunctional factor VII variant homozygous for the substitution Gln for Arg at position 79. 760 84

Transcobalamin II (TCII) is a plasma protein that binds vitamin B12 (cobalamin; Cbl) and facilitates the cellular uptake of the vitamin by receptor-mediated endocytosis. In genetic disorders that are characterized by congenital deficiency of TCII, intracellular Cbl deficiency occurs, resulting in an early onset of megaloblastic anemia that is sometimes accompanied by a neurologic disorder. To define the genetic basis for TCII deficiency, we have cloned and characterized the human gene that encodes this protein. The gene spans a minimum of 18 kbp and contains nine exons and eight introns, with a polyadenylation signal sequence located 509 bp downstream from the termination codon and a transcription initiation site beginning 158 bp upstream from the ATG translation start site. The 5' flanking DNA does not have a TATA or CCAAT regulatory element, but a 34-nucleotide stretch beginning just upstream of the CAP site contains four tandemly organized 5'-CCCC-3' tetramers. This sequence is a motif for a trans-active transcription factor (ETF) that regulates expression of the epidermal growth factor receptor gene (EGFR), which also lacks TATA and CCAAT regulatory elements. A GC-rich sequence that binds the SP1 protein is located 356 nucleotides upstream from the first of the series of CCCC tetramers. Although this GC sequence is at an unusual location with respect to the CAP site, a 507-bp fragment containing this GC box drives the chloramphenicol acetyltransferase (CAT) reporter gene after transient transfection into NIH 3T3 cells. No CAT activity was observed when a 420-bp fragment lacking this GC box but containing the ETF-binding domains was similarly transfected into this cell line. One consensus and two atypical motifs for the c-myc ligand are located downstream and upstream, respectively, of the GC box, and this could explain the elevated plasma TCII observed in some patients with multiple myeloma, as the c-myc product is overexpressed in some myeloma cells. Restriction endonuclease digestion of genomic DNA from eight normal subjects with Taq I, Hinfl, Msp I, and Bgl I identified three patterns of restriction fragment length polymorphism (RFLP). A number of the exon/intron splice junctions of human TCII, TCI, and IF genes are located in homologous regions of these proteins, providing evidence that these genes have evolved by duplication of an ancestral gene. This characterization of the TCII gene and the RFLP should facilitate the identification of the mutation(s) responsible for the genetic abnormalities of TCII expression.
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PMID:The cloning and characterization of the human transcobalamin II gene. 774 31


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