EC:3.1.30.2 - FACTA Search

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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)

DNA from members of 2 Thai families with conditions considered to be delta beta-thalassaemia were studied by using restriction endonuclease DNA mapping. The propositus in family A is a double heterozygote for beta-thalassaemia and delta beta-thalassaemia. DNA analysis reveals a deletion of the beta-globin gene cluster starting at the area between the Sac I and Eco RI sites near the 3' end of the G gamma-gene and extending through the A gamma-, delta- and beta-genes to an unknown extent downstream. In family B, the propositus is delta beta-thalassaemia/Hb E. Deletion of the beta-globin gene cluster begins in the large intervening sequence of the A gamma-gene and removes both delta- and beta-genes downstream.
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PMID:Different molecular defects of G gamma (A gamma delta beta)o-thalassaemia in Thailand. 288 16

A study of the molecular pathology of beta thalassaemia in the Asian Indian immigrant population in the U.K. included 37 patients with thalassaemia major and 14 with thalassaemia intermedia. Using a combination of oligonucleotide probe hybridization and restriction endonuclease analysis the mutations in 100/102 (98%) of the beta thalassaemia genes were characterized. Nine different types were found, of which six are associated with beta zero, one with severe beta+ and two with mild beta+ thalassaemia. Comparison of the beta-globin gene cluster haplotypes, alpha globin genotypes and beta gene mutations of the thalassaemia major group with the thalassaemia intermedia group suggests that the co-inheritance of a high Hb F determinant associated with the - + - + + 5' beta haplotype and the inheritance of a mild beta-thalassaemia mutation are the major ameliorating factors of disease severity in Asian Indians. In comparison with other population groups. beta thalassaemia in Asian Indians is not associated with one or two predominant mutations. Despite this, prenatal diagnosis by direct detection is possible in the majority of families by restriction analysis and a limited number of oligonucleotide probes since the majority of severely affected individuals are homozygous for a single mutation. The characterization of these mutations should be useful for the planning of prenatal diagnosis programmes for beta thalassaemia in other Asian Indian communities.
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PMID:The molecular basis of thalassaemia major and thalassaemia intermedia in Asian Indians: application to prenatal diagnosis. 290 65

Synthetic nonadecanucleotides complementary to the human beta A-, beta S-, or beta C-globin sequences were used as hybridization probes to screen human genomic DNA samples for these genes. The oligonucleotides were 32P-labeled and used as probes to genotype restriction endonuclease digests of human genomic DNA. The data obtained show that hybridization with oligonucleotide probes, unlike restriction fragment length polymorphism (RFLP) analysis or direct restriction enzyme digestion, can be used to directly distinguish among the three alleles of beta-globin, beta A, beta S, and beta C, when present either in one (heterozygous) or two copies.
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PMID:Discrimination among the human beta A, beta S, and beta C-globin genes using allele-specific oligonucleotide hybridization probes. 298 43

Earlier, we reported that the 5' end of the normal beta-globin gene (beta) resides on a 1.14-kilobase DNA fragment, whereas the 5' end of the sickle cell gene (beta s) resides on a 1.34-kilobase fragment. In that blot hybridization analysis, we used genomic DNA digested with restricted endonuclease Mst II, and radioactive probes with short half-life. We demonstrate here that, if a biotinylated probe is used instead in a slightly modified procedure, sickle cell anemia can be quickly and directly detected if there is as much as 5 micrograms of total genomic DNA in the sample. This procedure obviates the special precautions necessary when radioactive materials are used.
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PMID:Use of biotinylated probes for detecting sickle cell anemia. 298 24

Gene probes can now be used to detect a variety of mutations that produce single-gene disorders. In present clinical practice, restriction endonuclease analysis is used for the prenatal diagnosis of sickle cell anemia, alpha-thalassemia, and beta-thalassemia. Direct detection of the mutation is possible in alpha-thalassemia, where a deletion has usually occurred, and in sickle cell anemia, where the mutation alters the recognition sequence of the restriction endonuclease, Mst II. Indirect detection of beta-thalassemia is based on using normal variations in DNA (DNA polymorphisms) to track normal and affected beta-globin genes in families. This latter kind of analysis is also useful in detecting the phenylalanine hydroxylase genes affected in phenylketonuria and will often be used in disorders where the mutations are unknown. In cases where the mutation is known, direct analysis by use of oligonucleotide probes is a new and important advance. An example of this type of gene detection in a family with classical hemophilia is presented. In addition, with chorion villus biopsy, detection of these inherited diseases is feasible by the 12th week of pregnancy.
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PMID:Gene probes: application to prenatal and postnatal diagnosis of genetic disease. 299 40

Restriction site polymorphisms are normal inherited variations in DNA that can be readily detected by restriction endonuclease analysis. Currently, 17 such polymorphisms are recognized within a 60 kb (kilobase) stretch of DNA which includes the beta-globin gene complex. Because of their proximity to the beta-globin gene, often these restriction site polymorphisms can be used to predict inheritance of beta-globin variants that produce disease. For example, restriction site polymorphisms can be used for prenatal diagnosis for the large majority of couples at risk of having a child with beta-thalassemia. When each member of such a couple is heterozygous at one or more of these 17 sites, family studies are usually successful in determining which forms of the polymorphism are co-inherited with the beta-thalassemia genes in that particular family. Subsequently, study of fetal DNA isolated from amniocytes obtained by midtrimester amniocentesis or from chorionic villi obtained by first trimester chorion biopsy will reveal which DNA polymorphisms that fetus has inherited. By deductive reasoning one can then predict which beta-globin genes it has co-inherited. Because of the general nature of these polymorphisms, which are related to the beta-globin gene and its variants only because of their proximity on chromosome 11, they are potentially useful in the prenatal diagnosis of any beta-chain hemoglobinopathy. Some hemoglobinopathies (including alpha-thalassemia, sickle cell anemia, and some cases of beta-thalassemia) can be detected directly by DNA analysis. In these cases in utero diagnosis does not need to rely on restriction site polymorphisms, which require preliminary family studies and are not applicable in all at risk pregnancies. Recently, genetic probes, which are necessary for detecting restriction site polymorphisms, have been isolated for sequences of several genes whose protein products are important in blood coagulation. These include probes for all three genes whose polypeptide products combine to form the fibrinogen molecule as well as probes for the prothrombin, Factor IX, Factor VIII, and antithrombin III genes. Defects in these genes are expected to be the causes of afibrinogenemia, prothrombin deficiency, hemophilia B, hemophilia A, and antithrombin III deficiency, respectively. From experience with other genes, it is expected that restriction site polymorphisms within and/or flanking these genes will be found.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Prenatal diagnosis of hemoglobinopathies by DNA analysis. 299 37

Two new methods were used to establish a rapid and highly sensitive prenatal diagnostic test for sickle cell anemia. The first involves the primer-mediated enzymatic amplification of specific beta-globin target sequences in genomic DNA, resulting in the exponential increase (220,000 times) of target DNA copies. In the second technique, the presence of the beta A and beta S alleles is determined by restriction endonuclease digestion of an end-labeled oligonucleotide probe hybridized in solution to the amplified beta-globin sequences. The beta-globin genotype can be determined in less than 1 day on samples containing significantly less than 1 microgram of genomic DNA.
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PMID:Enzymatic amplification of beta-globin genomic sequences and restriction site analysis for diagnosis of sickle cell anemia. 299 80

A nuclease S1 mapping procedure was used to identify sites accessible to nucleases in the 3'-noncoding region of the rabbit globin mRNAs. A complex structure was evident in the alpha-globin species, with one highly accessible single-stranded site, large portions in an accessible double-stranded configuration, and a portion not accessible to any of the nucleases. In the beta-globin mRNA, the region was more uniformly accessible to RNase T1 and to a cobra venom enzyme specific for double-stranded RNA, but it had only a single site highly accessible to a bulkier Neurospora endonuclease. The patterns of cleavage were nearly identical in the deproteinized mRNAs and in the mRNAs associated with polyribosomes in reticulocyte extracts. In both species, a zone of secondary structure occurred around the poly(A) junction. In each species, virtually all the molecules had a poly(A) sequence of at least 20-25 AMP residues. A periodicity in poly(A) size distribution was observed. These results indicate that the beginning of this sequence is well protected against degradation inside the cell and that zones of partial protection occur at measured intervals. In crude extracts, where the poly(A) is covered with proteins, this sequence was protected against nuclease digestion.
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PMID:Structural features in the 3'-terminal region of polyribosome-bound rabbit globin messenger RNAs. 300 Oct 55

Accessible sites in the 5' noncoding region of the rabbit alpha- and beta-globin mRNAs were identified and compared in deproteinized RNA and in the mRNAs engaged in translation in the reticulocyte lysate. Preparations of RNA and lysate were subjected to limited nuclease digestion by RNase T1 and Neurospora endonuclease, and the cleavage sites were analyzed by a nuclease S1 mapping procedure. The free alpha-globin mRNA contained few nuclease-sensitive sites and its initiation codon AUG was masked. The free beta-globin mRNA contained a larger number of accessible sites and its AUG was highly exposed. The distribution of sensitive sites differed considerably in the lysate. In both mRNA species, a site near the 5' terminus became the one most accessible to Neurospora endonuclease. Also the accessibility of the AUG in beta-globin mRNA decreased considerably. The distribution of accessible sites in the lysate was the same when the mRNAs were undergoing rapid initiation and when initiation became limited after prolonged incubation. Inhibition of initiation by the cap analogue 7-methylguanosine 5'-triphosphate was accompanied by increased sensitivity of some of the sites in both mRNA species. One of the accessible sites in each mRNA species had a sequence complementary to the 3'-terminal portion of the 18S ribosomal RNA.
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PMID:Structural features of the 5' noncoding region of the rabbit globin messenger RNAs engaged in translation. 300 32

We report linkage of the loci for beta-globin (HBB) and parathyroid hormone (PTH) in cattle and the assignment of both loci to the bovine chromosome region 15q13-q23. Linkage was analyzed in a family of paternal half-sibs by the use of restriction fragment length polymorphisms detected with bovine probes derived from the HBB and PTH genes. The HBB polymorphism was detected by digestion with restriction endonuclease HindIII and the PTH polymorphism with MspI. The maximum lod score for linkage of PTH with HBB was zeta = 4.52 at theta = 0, suggesting very close linkage of the two loci. The finding of the PTH/HBB linkage is corroborated by the physical assignment of both loci to the region 15q13-q23 by in situ hybridization with bovine genomic probes derived from PTH and HBB, respectively. Since HBB and PTH are syntenic in man and mouse, these results in cattle represent another example of conservation of synteny in the evolution of mammalian chromosomes.
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PMID:The loci for parathyroid hormone and beta-globin are closely linked and map to chromosome 15 in cattle. 324 44

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