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)

The nucleotide sequence of the entire 5' untranslated region of human gamma-globin mRNA has been determined. This was accomplished by analyzing complementary DNA (cRNA) synthesized from the mRNA with reverse transcriptase. The CDNA was labeled at its 3' end with 32"p using terminal deoxynucleotidyl transferase, digested with the restriction endonuclease Hae III and the end-labeled fragment isolated ans sequenced by the method of Maxam and Gilbert. Including the initiation codon AUG, the 5' untranslated region of human gamma-globin mRNA contains 57 nucleotides, compared to 41 in alpha- and 54 in beta-globin mRNA. There is very little homology between alpha and gamma sequences in the 5' region. There is considerable homology between beta- and gamma-globin mRNAs in the regions proximal and distal to the initiation codon, but the entire sequence shows less homology than the human and rabbit beta-globin mRNAs. The hexanucleotide sequence CUUCUG is found near the 5' ends of all three human globin mRNAs, suggesting a possible role of this sequence or ribosomal binding. Both guanosine and cytidine were found at the 19th nucleotide position from the 5' end of the gamma mRNA. We believe this heterogeneity arises from the difference in nucleotide sequence between the A gamma and G gamma loci.
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PMID:The nucleotide sequence of the 5' untranslated region of human gamma-globin mRNA. 31 62

Synthetic double-stranded DNAs (sDNAs) were prepared from sheep globin mRNA templates isolated from reticulocytes producing either hemoglobin B (HbB) (alpha 2 beta B2), HbC (alpha 2 beta C2), or HbF (alpha 2 gamma 2). These DNAs were inserted into the Eco RI site of plasmid pMB9 by the homopolymer tailing method and used to transform Escherichia coli X1776 to tetracycline resistance. Recombinant clones were identified by colony hybridization and further characterized by molecular hybridization and restriction endonuclease analysis. All plasmids analyzed thus far contained either beta- or gamma-globin DNA sequences. Moreover, sDNAs used for cloning yielded restriction endonuclease fragments consistent with the presence of predominantly beta- or gamma-sDNA, indicating that formation of double-stranded alpha-sDNA proceeds much less efficiently under our conditions than the formation of non-alpha-sDNAs. Three recombinant plasmids, pS beta B2, pS beta C69, and pS gamma 56, were selected for detailed study. These were shown to contain, respectively, beta B-, beta C-, and gamma-DNA sequences by molecular hybridization and by protection of the appropriate cDNAs from S1 nuclease digestion. Each contained all of the restriction endonuclease sites defined for the synthetic sDNAs and protected at least 90% of the sequence length of homologous cDNA. Restriction endonuclease maps of the beta B- and beta C-globin genes were identical at all 12 sites that were mapped, whereas four differences were identified in the gamma gene compared to the two others; three of these corresponded to differences in amino acid sequence of the globins. A method was developed to isolate the anti-mRNA strand of the insert for use as a specific molecular hybridization probe analogous to complementary DNA.
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PMID:Hemoglobin switching in sheep. Synthesis, cloning, and characterization of DNA sequences coding for the beta B, beta C, and gamma-globin mRNAs. 37 94

Deletions in the DNA of individuals with hereditary persistence of fetal haemoglobin (HPFH) and 8 beta-thalassaemia have been mapped as a means of identifying regulatory sequences involved in the switch from fetal to adult globin gene expression. The end points of these deletions have been precisely located with respect to restriction endonuclease cleavage sites within and surrounding the gamma-, delta- and beta-globin genes in normal human DNA and the deletion maps were used to obtain definitive evidence for the physical linkage of the fetal and adult beta-like globin genes in the order 5'Ggamma-Agamma-delta-beta 3'. Correlation of haematological data and the location of deletions in two cases of HPFH and one case of deltabeta-thalassaemia suggest that a region of DNA located near the 5'-end of the delta-globin gene may be involved in the suppression in cis of gamma-globin gene expression in adults. The interpretation of a second case of deltabeta-thalassaemia is complicated by the fact that the deletion removes the Agamma-gene in addition to the region near the 5'-end of the delta-globin gene.
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PMID:Characterisation of deletions which affect the expression of fetal globin genes in man. 45 Jan 9

DNA prepared from 60 unrelated individuals was cleaved with one of eight different restriction endonucleases and the resulting DNA fragments were separated by agarose gel electrophoresis. DNA fragments containing G gamma-, A gamma-, delta- or beta-globin genes were detected by Southern blot hybridization, using as probe either a 32P-labeled cloned DNA copy of rabbit beta-globin messenger RNA or labeled human beta- and G gamma- globin cDNA plasmids. Three types of variant restriction enzyme patterns of globin DNA fragments were detected in otherwise normal individuals. One variant pattern, found in only one person, was caused by an additional restriction endonuclease Pst I cleavage site in the center of the delta- globin gene intervening sequence; the subject was heterozygous for the presence of this cleavage site and was shown to have inherited it from her mother. Another variant pattern resulted from the appearance of an endonuclease Hind III cleavage site in the intervening sequence of the A gamma-globin gene; this variant is polymorphic, with a gene frequency for the presence of the intragenic Hind III site of 0.23. This Hind III cleavage site polymorphism is also found in the G gamma-globin gene intervening sequence and thus the polymorphism itself appears to be duplicated over the pair of gamma-globin loci. These variants can be used to derive an approximate estimate of the total number of different DNA sequence variants in man.
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PMID:DNA sequence variants in the G gamma-, A gamma-, delta- and beta-globin genes of man. 50 14

RNA synthesis in K-562 human erythroleukemia cells was markedly curtailed by exposure to the uridine analogue 5-fluorouridine (FUrd). The inhibition of ribosomal RNA synthesis was accompanied by rapid declines in the steady-state levels of several, but not all, mRNAs, including gamma-globin mRNA. In this report, we demonstrate that gamma-globin mRNA species were decreased by as much as 40% within 2 hr of exposure to micromolar concentrations of FUrd. The decline in gamma-globin mRNA occurred at a rate that outstripped the normal rate of degradation of this mRNA by a factor of 25. The decline in cytoplasmic mRNA was not mirrored in the nucleus; northern blotting revealed that pre-mRNA levels were not reduced. Nuclease protection analyses of precursors from FUrd treated and untreated control cells did not reveal any qualitative differences. Thus, the decrease was not accounted for by drug-induced inhibition of new gamma-globin mRNA synthesis or misincorporation but must have been due to an FUrd-induced increase in gamma-globin mRNA degradation. Drug-induced instability of RNA was not a generalized feature of FUrd exposure, since neither beta-actin mRNA nor cytoplasmic rRNA, whose stabilities in untreated cells are similar to that of gamma-globin mRNA, were affected. Furthermore, the instability of gamma-globin mRNA did not decrease globin protein levels, presumably because the stability of the protein was not altered. The mechanism by which specific increased degradation of gamma-globin mRNA occurred is unknown, but it may have been due to the activation of cytoplasmic endonuclease.
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PMID:Reductions in gamma-globin mRNA levels restricted to the cytoplasm of 5-fluorouridine treated K-562 human erythroleukemia cells. 236 50

Data were obtained on blood samples from a relatively large group (264) of healthy Japanese newborns, collected at hospitals in Tokyo, Kurashiki, and Ube. The studies included an evaluation of anomalies in alpha-globin gene and gamma-globin gene arrangements using gene mapping and gamma-chain composition analyses. The results confirmed the rarity of alpha-thalassemia among Japanese; only a few babies had alpha-thalassemia-2 trait (the -3.7-kilobase [kb] deletion), while others had alpha-globin gene triplications (both the alpha alpha alpha anti-3.7 and the alpha alpha alpha anti-4.2 types). Among the gamma-globin gene anomalies that were observed, a few babies had the -A gamma-A gamma- globin gene arrangement or the -G gamma A gamma- type of deletion. The gamma-chain triplication (-G gamma-A gamma G gamma-A gamma-) occurred in 10 out of 256 newborns, and its frequency exceeded that of its corresponding -G gamma A gamma- deletion by a factor of 5. The restriction endonuclease XmnI was a useful tool, in addition to the enzymes Bg1II and BclI, to evaluate and confirm the gamma-globin gene deletion and triplication. The A gamma T variant, which is the product of a mutant A gamma-globin gene, occurred at a frequency of 0.156. The chromosome carrying this mutant A gamma gene had a characteristic haplotype that was originally seen in black and Mediterranean patients with Hemoglobin (Hb) S or with beta-thalassemia.
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PMID:Abnormal arrangements in the alpha- and gamma-globin gene clusters in a relatively large group of Japanese newborns. 241 79

We have identified and molecularly characterized a novel deletion in the beta-globin gene cluster that increases fetal hemoglobin (HbF) synthesis in a 24-year-old Laotian man who is heterozygous for this mutation. The patient is asymptomatic with a mild anemia, hypochromia, and microcytosis (Ht = 39%, MCH = 22.8 pg, MCV = 71 fl), normal levels of HbA2 (3.0%) and 11.5% HbF (G gamma A gamma ratio 60 to 40), with heterocellular distribution (52% F cells). Extensive restriction endonuclease mapping defined the 5' breakpoint within the IVS II of the delta-globin gene, between positions 775 to 781 very similar to the 5' breakpoint of the Sicilian delta beta-thalassemia. However, the 3' breakpoint was localized between two Pst I sites 4.7 kb 3' of the beta-globin gene, thus ending about 0.7 kb upstream from the 3' breakpoint of the Sicilian delta beta-thalassemia. This results in a 12.5 kb deletion of DNA. It is of interest that the 5' breakpoint of the deletion residues within an AT-rich region which has been proposed as a specific recognition signal for recombination events, while the 3' breakpoint lies within a cluster of L1 repetitive sequences (formerly known as Kpn I family repeats). The presence of the 3' breakpoints of several other deletions within this region of L1 repeats also suggests that such sequences might serve as hot spots for recombination and eventually lead to thalassemia deletions. The similarity of the 5' and 3' breakpoints of these delta beta-thalassemias underscores the putative regulatory role of the deleted and juxtaposed sequences on the expression of the gamma-globin genes in adult life.
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PMID:Laotian (delta beta) (0)-thalassemia: molecular characterization of a novel deletion associated with increased production of fetal hemoglobin. 245 54

The methylation state of DNA from human colon tissue displaying neoplastic growth was determined by means of restriction endonuclease analysis. When compared to DNA from adjacent normal tissue, DNA from both benign colon polyps and malignant carcinomas was substantially hypomethylated. With the use of probes for growth hormone, gamma-globin, alpha-chorionic gonadotropin, and gamma-crystallin, methylation changes were detected in all 23 neoplastic growths examined. Benign polyps were hypomethylated to a degree similar to that in malignant tissue. These results indicate that hypomethylation is a consistent biochemical characteristic of human colonic tumors and is an alteration in the DNA that precedes malignancy.
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PMID:Hypomethylation of DNA from benign and malignant human colon neoplasms. 257 35

Individuals heterozygous for the Greek (A gamma) variant of hereditary persistence of fetal haemoglobin (HPFH) synthesize Hb F whose gamma-globin chains are predominantly of the A gamma type. DNA obtained from Greek HPFH heterozygotes was used to test for abnormalities in the organization of non alpha-globin genes. In addition, gamma- and beta-globin expression was studied in BFUe cultures. Restriction endonuclease mapping showed that the G gamma, delta and beta genes in cis to the Greek HPFH determinant are intact. Overproduction of gamma-globin chains synthesis was observed in the BFUe cultures. A significant portion of the gamma chain synthesis was of the G gamma type, suggesting that the G gamma genes cis and trans to the HPFH chromosome are active in culture. DNA mapping data indicate that in contrast to G gamma A gamma HPFH and the G gamma (delta beta) thalassaemia, the Greek (A gamma) HPFH is not due to a large deletion in the non-alpha globin gene region. It is possible that the anomaly may result either from a small deletion or point mutation which influences non alpha-globin transcription. The in vitro synthesis data suggest that the low level of G gamma-globin chain synthesis in vivo is not the result of transcriptional inactivation of the G gamma gene, since this gene appears to be expressed in erythroid cell cultures. We speculate that the genetic lesion in Greek (A gamma) HPFH is in regulatory sequences which control the level of G gamma and A gamma expression during development.
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PMID:Greek (A gamma) variant of hereditary persistence of fetal haemoglobin: globin gene organization and studies of expression of fetal haemoglobins in clonal erythroid cultures. 617 32

Restriction endonuclease mapping of the beta-globin genomic region was used for studying the molecular basis of two variants of hereditary persistence of fetal hemoglobin (HPFH): an African G gamma (beta)+ HPFH and a Chinese HPFH variant with predominant synthesis of A gamma chains. HPFH and control DNA samples were digested with a battery of restriction enzymes, and the fragments were identified by hybridization to a family of discrete probes. DNA fragments from the A gamma HPFH (Chinese) and the G gamma (beta)+ HPFH individuals were identical with those of the normal controls. These findings suggest that the two mutants are the result of small structural anomalies of DNA sequences that play a role in the regulation of the expression of gamma-globin genes.
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PMID:Restriction endonuclease mapping of gamma-delta-beta-globin region in G gamma (beta)+ HPFH and a Chinese A gamma HPFH variant. 619 12


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