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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)
Polymorphisms within the HLA-DRB1, -DRB3, -DQB1 and -DQ A1 genes are detectable using restriction fragment length polymorphism (RFLP) analysis. DNA is isolated from EDTA-treated blood or from spleen or lymph nodes. The DNA is digested to completion with the restriction
endonuclease
TaqI and resolved using agarose gel electrophoresis. The DNA after denaturation is then transferred to a nylon membrane (Southern blotting) and hybridised with radiolabelled cDNA probes: HLA-DR beta pRTV1, HLA-DQ beta pII-beta-1 and HLA-DQ alpha pDCH1. After autoradiography the membrane is dehybridised prior to rehybridisation. This system is very useful in those situations where serological assignment is difficult due to poor quality or low numbers of circulating B cells and where there is a lack of reliable antisera for certain specificities. The RFLP techniques can also define subtypes of DR and DQ serological specificities. However, certain alleles have the same RFLP. In some instances by identifying the DQ allele the DR allele can be determined by association due to linkage disequilibrium (e.g., DRw17-Dw25-DQw2 and DRw13-Dw25-DQw6). In other instances (e.g.,
DR1
and DRBr), the problem can be resolved using serology. In addition the RFLP system cannot be applied prospectively to the cadaver donor situation because of time restrictions. Thus the RFLP system complements existing serological techniques. However, it can be very useful as a quality control for the serological methods especially in the assessment of the quality of antisera and in the determination of discrepancies between centres.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Techniques used to define human MHC antigens: restriction fragment length polymorphisms. 168 Aug 5
Nonclassic steroid 21-hydroxylase deficiency is a frequent, relatively mild disorder of cortisol biosynthesis characterized by variable signs of postnatal androgen excess. It is inherited as an allelic variant of the CYP21B gene encoding the 21-hydroxylase enzyme. CYP21B is located in the HLA histocompatibility complex, and a nonclassic allele is often associated with characteristic HLA antigens: B14;
DR1
. A CYP21B gene from a HLA-B14;
DR1
homozygous patient with nonclassic 21-hydroxylase deficiency was cloned and analyzed. Five deviations from the normal sequence of CYP21B were found, but only one appeared likely to affect the functional integrity of the protein: codon 281, GTG, encoding valine, was changed to TTG, leucine. An oligonucleotide probe was constructed corresponding to the mutant sequence surrounding codon 281 and hybridized with DNA samples digested with restriction
endonuclease
Taq I. Samples from 8 nonclassic 21-hydroxylase deficiency patients carrying HLA-B14;
DR1
contained a hybridizing fragment 3700 base-pairs long, indicating presence of the val-281 mutation in the CYP21B gene. In contrast, unaffected individuals and one patient who lacked HLA-B14;
DR1
showed no evidence of the val-281 mutation in CYP21B. We conclude that the codon 281 mutation is a consistent molecular genetic marker for nonclassic 21-hydroxylase deficiency associated with HLA-B14;
DR1
.
...
PMID:Clinical and genetic characterization of nonclassic 21-hydroxylase deficiency. 278 81
The
DR1
and DRw10 beta 1 chain genes were isolated from each of 2 individuals with rheumatoid arthritis who were heterozygous for these class II major histocompatibility complex specificities. The sequences of the
DR1
beta 1 chains from both patients were identical, differing from previously reported DR beta 1 chains of individuals without RA by 2 amino acid substitutions, at positions 85 (Val-Ala) and 86 (Gly-Val), and by a silent mutation at the last nucleotide of codon 78 (C-T), resulting in the loss of a Pst I restriction
endonuclease
site. Identical DRw10 beta 1 chain genes were found in both patients. These were shown to encode the epitope recognized by monoclonal antibody 109d6. This antibody also recognizes an epitope on the DRw53 beta 2 chain of the DR4 haplotype. The third diversity regions of the
DR1
beta (amino acids 67-74) and the DRw10 beta 1 chains (amino acids 67-73) were identical, respectively, with those of the DR4 (Dw14) beta 1 and beta 2 chains, raising the possibility that in these patients, the third diversity regions of the two DR beta 1 chain genes present in trans are conformationally equivalent to the cis-encoded third diversity regions of the DR4 (Dw14), DR beta 1, and beta 2 chains. The nucleotide sequences of the DQ beta complementary DNA clones were identical to that of the DQw1 beta chain, and no DR beta 2 complementary DNA clones were identified.
...
PMID:Class II major histocompatibility complex gene sequences in rheumatoid arthritis. The third diversity regions of both DR beta 1 genes in two DR1, DRw10-positive individuals specify the same inferred amino acid sequence as the DR beta 1 and DR beta 2 genes of a DR4 (Dw14) haplotype. 293 Jun
Polymorphic restriction
endonuclease
sites within the HLA-DR alpha gene have been defined, localized, and used as genetic markers in the analysis of susceptibility to insulin-dependent diabetes mellitus (IDDM). Hybridization of Bgl II-digested human genomic DNA with a cDNA clone for the HLA-DR alpha chain (pDR alpha-1) has revealed three allelic restriction fragment lengths: 3.8 kilobase pairs (kb), 4.2 kb, and 4.5 kb. Hybridization of EcoRV-digested human genomic DNA with the same probe has revealed two allelic polymorphic restriction fragment lengths: 9.2 kb and 13.0 kb. By analysis of double digests of genomic DNA from individuals homozygous for each of the allelic variants, the polymorphic restriction sites were found to be clustered near the 3' end of the HLA-DR alpha gene. The observed correlations of DR alpha Bgl II restriction site variants with serologically determined DR specificities suggest linkage disequilibrium between the DR alpha and DR beta loci. The 3.8-kb fragment is correlated with the
DR1
type (Pc = 4.4 X 10(-4)); and the 4.2-kb fragment, with a subset (B8,DR3) of the DR3 type (Pc = 5.1 X 10(-4)) and with the DR6 type. The segregation pattern of HLA-DR alpha polymorphic Bgl II restriction fragments was analyzed in six IDDM families. The observed association of IDDM with the Bgl II 4.2-kb DR alpha restriction variant is higher than with existing serological markers and supports the utility of this approach in elucidating IDDM inheritance.
...
PMID:Polymorphic restriction endonuclease sites linked to the HLA-DR alpha gene: localization and use as genetic markers of insulin-dependent diabetes. 299 92
Two of four siblings expressed the salt-losing form of congenital adrenal hyperplasia due to 21-hydroxylase deficiency (CAH) and had identical human lymphocyte antigen (HLA) and complement C4 (fourth component of complement) types (HLA-A3,C4,B35,C4A3,C4BQO,
DR1
/A2,C-,B18,C4A3, C4BQO,DR6). The father and one unaffected sibling were heterozygous carriers of CAH, as determined by a 30-min iv ACTH stimulation test and HLA typing. In addition, the iv ACTH stimulation test revealed that the mother and the other unaffected sibling also carried an allele for an attenuated form of CAH. Restriction
endonuclease
digests of genomic DNA obtained from members of this family and from normal unrelated subjects were hybridized with cDNA probes encoding human 21-hydroxylase and C4. With the 21-hydroxylase probe, Southern blots prepared from control DNA samples revealed two major restriction fragments in each of four restriction
endonuclease
digests; TaqI produced major bands at 3.7 and 3.2 kilobases (kb), KpnI at 4.0 and 2.9 kb, EcoRI at 18 and 13 kb, and BglII at 15 and 12.5 kb. Southern blots prepared from DNA of the two patients lacked the 3.7-kb TaqI and 2.9-kb KpnI fragments, but had increased hybridization intensity (relative to control DNA samples) in the 3.2-kb TaqI and 4.0-kb KpnI fragments. By contrast, blots with EcoRI or BglII had two large hybridization fragments not different from control DNA samples. These data indicate the presence of two different 21-hydroxylase genes. Additional mapping studies revealed that the two genes had the restriction pattern of the inactive 21-hydroxylase gene. When genomic DNA that had been isolated from all members of this family and from normal subjects was hybridized with the human C4 cDNA probe, the restriction fragment hybridization patterns for all four
endonuclease
digests were similar in the two groups. Hence, our results suggest that the 21-hydroxylase deficiency of our patients is due to conversion of the active 21-hydroxylase gene to the inactive gene. This gene conversion was associated with absence of functional C4B protein, without any detectable alterations in the restriction fragment pattern of the C4 genes.
...
PMID:Gene conversion in salt-losing congenital adrenal hyperplasia with absent complement C4B protein. 300 62
We have characterized the heterogeneity occurring at the junction of the long (L) and short (S) segments and at the termini of the strain AD169 human cytomegalovirus (HCMV) genome by restriction
endonuclease
mapping and nucleotide sequence analyses. The HCMV a sequence was identified by its position at both termini and inverted orientation at the L-S junction. Heterogeneity at both termini and the L-S junction was generated by the presence of fused and tandem a sequences. Some S termini lacked an a sequence. In addition, near the L terminus and at the L-S junction there were a variable number of 217-base-pair (bp) XhoI fragments arranged in tandem. The 217-bp fragments consisted of a portion of the a and adjacent b sequences (in the L-segment repeat) bounded by the same direct repeats (
DR1
) found at the boundaries of the a sequence. A model for the generation of these heterogeneous fragments is presented. We also determined the sequence of seven cloned terminal fragments, five from the L terminus and two from the S terminus. All L termini contained identical terminal sequences ending with base 32 of a 33-bp
DR1
. The S termini differed from each other and from the L-segment termini. One S terminus lacked an a sequence and terminated within S-segment repeat (c) sequences. The second S terminus contained an a sequence and terminated with bases 20 to 33 of a 33-bp
DR1
. A comparison of the cloned L and S terminal sequences with cloned L-S junction sequences suggested that the termini contained 3' single base extensions which were removed during the cloning. We also show that the herpesvirus conserved sequence is in a similar position relative to the termini of HCMV and several other herpesviruses, thus adding further support for the role of the sequence in the maturation of viral DNA.
...
PMID:Terminal structure and heterogeneity in human cytomegalovirus strain AD169. 301 22
Nonclassic steroid 21-hydroxylase deficiency is a frequent, relatively mild disorder of cortisol biosynthesis, characterized by variable signs of postnatal androgen excess. It is inherited as an allelic variant of the gene designated CYP21B, which encodes 21-hydroxylase. CYP21B is located in the HLA histocompatibility complex, and a "nonclassic" allelic variant is often associated with characteristic HLA antigens--B14,
DR1
. We cloned and analyzed the CYP21B gene from a patient homozygous for HLA-B14,
DR1
who had nonclassic 21-hydroxylase deficiency. Five deviations from the normal genetic sequence of CYP21B were found, but only one appeared likely to affect the functional integrity of the protein: codon 281, GTG, encoding valine, was changed to TTG, leucine. We constructed an oligonucleotide probe corresponding to the mutant DNA sequence surrounding codon 281 and hybridized the probe with DNA samples digested with the restriction
endonuclease
Taql. Samples from eight patients with nonclassic 21-hydroxylase deficiency who had the haplotype HLA-B14,
DR1
contained a hybridizing fragment 3700 base pairs long, indicating the presence of the valine-281 mutation in the CYP21B gene. In contrast, unaffected subjects and one patient with nonclassic deficiency who did not have HLA-B14,
DR1
had no evidence of this mutation. We conclude that the mutation in codon 281 is a consistent molecular genetic marker for nonclassic 21-hydroxylase deficiency associated with HLA-B14,
DR1
.
...
PMID:Molecular genetic analysis of nonclassic steroid 21-hydroxylase deficiency associated with HLA-B14,DR1. 326 7
The human major histocompatibility complex includes the DP, DQ, and DR subregions, each of which contains at least one alpha chain gene and two beta chain genes. The products of the alpha chain gene and a beta chain gene from a given subregion combine to form a heterodimer which is found predominantly on the surface of immunocompetent cells, and is essential for effective cell-cell interactions and the generation of an immune response. The beta chain of the DR molecule is highly polymorphic, and it is this polymorphism which is thought to be ultimately responsible for the specific immune responsiveness and disease predisposition conferred by different DR molecules. While the sequences of DR beta chains of the homozygous
DR1
cells, homozygous DR2, homozygous DR4, DR3/w6 cells and DR4/w6 genotypes have been partially or completely characterized, no sequence is yet available for the DR beta chain from a homozygous DR5 cell. A cDNA library was therefore constructed from the Swei cell line homozygous for the DR5 haplotype. A beta chain clone was isolated, characterized, and sequenced. Comparison with previously published DR beta chain restriction
endonuclease
maps and nucleotide sequences demonstrated that this clone was a DR beta chain clone. Comparison of the deduced amino acid sequence with other DR beta chain amino acid sequences shows three regions of variability in the first external domain, corresponding to amino acid residues 9-13, 26-38, and 67-74. The sequence of each of these variable regions in the beta chain from DR5 cells was identical or nearly identical to the sequences of variable regions found in the beta chains of other DR haplotypes, supporting the notion of gene conversion as an evolutionary mechanism generating polymorphism. The second external domain, and transmembrane and intracytoplasmic regions show a high degree of sequence conservation.
...
PMID:Complete characterization and sequence of an HLA class II DR beta chain cDNA from the DR5 haplotype. 345 44
A molecular analysis of HLA class II genes was undertaken in order to characterize the previously reported association between HLA-DR2 and glomerulonephritis caused by antibodies to glomerular basement membrane (Goodpasture's disease). Genomic DNA was prepared from 53 patients with Goodpasture's disease and analysed by: (i) Southern blotting using cDNA probes to DRB, DQA and DQB genes, after digestion with TaqI
endonuclease
; (ii) allele-specific oligonucleotide probing of specifically amplified DNA; and (iii) nucleotide sequencing of relevant alleles. The patients had a greatly increased frequency of DRw15 (a subspecificity of DR2) which was present in 75.5% of patients and 31% of controls (p < 0.0001). The frequency of DR4 was also increased, especially in patients without DRw15. Overall, 90.5% of the patients had either DRw15 or DR4. In contrast, the frequency of
DR1
was significantly reduced (patients 5.6%, controls 20.7%, p < 0.01). Differences in the frequencies of DQA and DQB alleles could all be explained by linkage disequilibrium. Nucleotide sequences of relevant alleles were identical to those previously published. Comparison of derived amino acid sequences of expressed DR beta chains showed that the DR beta chains of DRw15 and DR4 shared a six-amino-acid motif from positions 26-31, that included four polymorphic amino acids none of which are shared with
DR1
. A sequence-specific oligonucleotide detected this amino-acid motif in 45/49 (91.8%) patients tested. Thus, this particular motif, which lies on the floor of the antigen binding groove, has a stronger association with Goodpasture's disease than any individual allele, and may be of pathogenic significance.
...
PMID:Molecular analysis of HLA class II genes in Goodpasture's disease. 770 68
The a sequences of herpes simplex virus type 1 are believed to be the cis sites for inversion events that generate four isomeric forms of the viral genome. Using an assay that measures deletion of a beta-galactosidase gene positioned between two directly repeated sequences in plasmids transiently maintained in Vero cells, we had found that the a sequence is more recombinogenic than another sequence of similar size. To investigate the basis for the enhanced recombination mediated by the a sequence, we examined plasmids containing direct repeats of approximately 350 bp from a variety of sources and with a wide range of G+C content. We observed that all of these plasmids show similar recombination frequencies (3 to 4%) in herpes simplex virus type 1-infected cells. However, recombination between directly repeated a sequences occurs at twice this frequency (6 to 10%). In addition, we find that insertion of a cleavage site for an a-sequence-specific
endonuclease
into the repeated sequences does not appreciably increase the frequency of recombination, indicating that the presence of
endonuclease
cleavage sites within the a sequence does not account for its recombinogenicity. Finally, by replacing segments of the a sequence with DNA fragments of similar length, we have determined that only the 95-bp Uc-
DR1
segment is indispensable for high-level a-sequence-mediated recombination.
...
PMID:Herpes simplex virus type 1 recombination: the Uc-DR1 region is required for high-level a-sequence-mediated recombination. 818 11
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