Mapping of steroid 21-hydroxylase genes adjacent to complement component C4 genes in HLA, the major histocompatibility complex in man.

Carroll, Michael; Campbell, R. Duncan; Porter, Roy

doi:10.1073/pnas.82.2.521

Cited by 331 publications

(119 citation statements)

References 21 publications

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“…DNA was isolated from peripheral mononuclear cells by phenol trophoresed in agarose, transferred to nylon membranes and hybridized with 32P-labeled probes, prior to autoradiography. The C4 probe used was a 500-bp fragment ofthe 5' end ofthe C4 cDNA, produced by Bam HI/Kpn I digest of pAT-A (12). The 21-hydroxylase (21-OH) probe was a 900 bp fragment, produced by a Bgl I digest ofthe genomic insert in p2 l-K4 (2).…”

Section: Methodsmentioning

confidence: 99%

Uniparental isodisomy 6 associated with deficiency of the fourth component of complement.

Welch

Beischel²,

Choi³

et al. 1990

J. Clin. Invest.

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We identified an extremely rare condition, isolated complete deficiency of the fourth component of complement, in a child with systemic lupus erythematosus. The genes for C4 are located within the major histocompatibility complex (MHC) on the short arm of chromosome 6. The patient expressed only paternal phenotypes for proteins encoded by the MHC (HLA and GLO), yet was 46XX with no detectable 6p deletion.Genomic DNA from patient, parents, and sibling was digested with restriction enzymes, and blots were probed for five chromosome 6 markers. At all loci, maternal and paternal RFLPs could be distinguished, and the patient showed only paternal bands. RFLP analysis of markers from four other chromosomes showed maternal and paternal contribution.

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Section: Methodsmentioning

confidence: 99%

Uniparental isodisomy 6 associated with deficiency of the fourth component of complement.

Welch

Beischel²,

Choi³

et al. 1990

J. Clin. Invest.

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“…A 21-hidroxilação é mediada por uma enzima mitocondrial específica denominada P450c21; seu gene codificador está localizado no locus do complexo principal de histocompatibilidade humana no braço curto do cromossomo 6, 6p21, especificamente dentro do locus do HLA classe III (5). Devido à íntima relação da 21OH com os genes do complexo HLA, observou-se que indivíduos afetados de uma mesma irmandade eram quase que invariavelmente HLA idênticos (6).…”

Section: Genética Molecularunclassified

“…Os genes CYP21 e CYP21P se estendem sobre uma região de aproximadamente 30Kb, adjacentes e alternando com os genes C4A e C4B que codificam o quarto componente do complemento sérico (5,10). Recentemente foram descobertos outros pares de genes XA, XB, YA, YB, ZA e ZB (figura 1) (11).…”

Section: Genética Molecularunclassified

Bases Moleculares da Hiperplasia Adrenal Congênita

Mello

Bachega

Costa-Santos

et al. 2002

Arq Bras Endocrinol Metab

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RESUMOHiperplasia adrenal congênita (HAC) é uma doença autossômica recessiva decorrente da alteração de enzimas que participam da síntese do cortisol. As manifestações podem ser causadas pela deficiência do cortisol e, em alguns casos, aldosterona e pelo acúmulo de precursores. O objetivo desta revisão é apresentar os mecanismos moleculares dos principais defeitos enzimáticos envolvidos na etiopatogênese da HAC. A deficiência da 21-hidroxilase (21OH) ocorre em 95% dos casos de HAC. Existem dois genes que codificam o P450c21: um ativo, CYP21, e um pseudogene CYP21P. Ambos são altamente homólogos (98%), o que favorece o emparelhamento desigual dos cromossomos homólogos durante a meiose, levando a duplicações e/ou deleções ou conversões desses genes. Adicionalmente, foram também descritas mutações de ponto, muitas delas presentes no pseudogene sugerindo microconversões. Mutações no gene CYP11B1 causam HAC por deficiência da 11β-hidroxilase, forma esta que corresponde a 5% dos casos. Algumas mutações são recorrentes, situando-se principalmente entre os exons 6-8 que representaria uma área hot-spot no gene CYP11B1. A deficiência de 17-hidroxilase é causada por mutações no gene CYP17, que codificam uma proteína alterada, levando a deficiência total ou parcial de 17-hidroxilação e 17,20-liase ou deficiência isolada de 17,20-liase. Finalmente, deficiência de 3β-HSD é causada por mutações no gene HSD3B2, que codifica a enzima 3β-HSD tipo II e estas mutações têm sido associadas tanto com a forma clássica como com a forma não clássica da deficiência da 3β-HSD. Congenital adrenal hiperplasia (CAH) is a recessive autossomic disease caused by inherited defects in cortisol biosynthesis. The manifestations are caused both by the deficient synthesis of cortisol, and sometimes of aldosterone, and by accumulation of the precursor steroids. The objective of this review is to present the molecular mechanisms of the main enzymatic defects involved in the etiopathogenesis of CAH. Deficiency of 21-hydroxylase (21OH) accounts for more than 95% of all cases of CAH. The human genome contains two CYP genes: one active, CYP21, and a pseudogene, CYP21P. Both are highly homologous (98%), facilitating recombination events during meiosis, leading to duplication and/or deletion or conversion of these genes. Additionally, point mutations have also been described. Deficiency of 11β-hydroxylase (11βOH) is caused by mutations in the CYP11B1 gene, and accounts for 5% of all cases. Some mutations are recurrent, and mainly located on exons 6-8, which is considered a hot-spot area in CYP11B1 gene. Deficiency of 17α-hydroxylase (17OH) is caused by mutations in the CYP17 gene, producing a truncated or impaired protein. These mutations have been described in patients with combined defi-

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“…The genetic locus of BF is structurally linked to the major histocompatibility complex (MHC) with other complement loci coding for C2, C4A, and C4B and two loci for 21-hydroxylase A (210HA) and B (21OHB) (Carroll et al, 1984(Carroll et al, , 1985White et al, 1985). Its genetic polymorphism has been extensively investigated on various populations since the first report of Alper et al (1972) by using immunofixation agarose gel electrophoresis.…”

Section: Introductionmentioning

confidence: 99%