MC1R gene polymorphisms analysis associated with human pigmentation phenotypes on the brazilian population

Dentre os genes conhecidos por infl uenciarem a variação normal de pigmentação de olhos, pele e cabelos em humanos, o gene MC1R (receptor de melanocortina 1) é o mais bem caracterizado até o momento. A atuação do MC1R ocorre pela produção de uma proteína transmembrana nos melanócitos, responsável pela regulação da produção de melanina nos mesmos. Sabe-se que a atuação do MC1R determina a proporção entre eumelanina (coloração castanha/preta) e feomelanina (amarela/vermelha) presente nos melanócitos. O presente trabalho tem como objetivo analisar os SNPs conhecidos do gene MC1R com o propósito de se avaliar a infl uência da diversidade deste gene em características como a presença de sardas e variação da pigmentação dos olhos, pele e cabelos em humanos. Foram analisados 29 SNPs conhecidos da região codifi cadora do gene MC1R em 296 indivíduos da região de Ribeirão Preto, SP. A extração do DNA foi feita pela técnica de salting-out. A região codifi cadora do gene MC1R (951pb) foi amplifi cada em uma única reação de PCR, a qual foi sequenciada em um analisador genético ABI-PRISM 310 por eletroforese capilar, utilizando-se os mesmos primers empregados para a amplifi cação. Dos 29 SNPs avaliados, 22 deles mostraram variação nas amostras estudadas, sendo que metade deles demonstrou estar associados a características de pigmentação. Observou-se um conjunto de SNPs associados claramente à fenótipos relacionados à feomelanina (+1645 A, +1831 T,+1858 T e +2260 C), enquanto outros se relacionam à ocorrência de eumelanina (+1558 G, +2322 G, +2346 A). O presente trabalho apresenta associações signifi cativas entre SNPs individuais e pigmentação de olhos, cabelos e pele, sendo que nosso dados confi rmam que tal gene também desempenha papel relevante na variação de pigmentação na população Brasileira.Among the known genes infl uencing eye, skin and hair normal pigmentation variation, the MC1R (melanocortin 1-receptor) gene is the best characterized so far. The activity of MC1R occurs due the production of a transmembrane protein in melanocytes, responsible for regulating the production of melanin. It is known that the performance of MC1R determines the ratio of eumelanin (brown /black color) and pheomelanin (yellow/ red) present in melanocytes. This study aims to analyze known SNPs of the MC1R gene in order to evaluate the infl uence of this gene diversity on features like freckles and pigmentation variation of eyes, skin and hair in humans. We analyzed 29 known SNPs in the coding region of MC1R gene in 296 individuals from the region of Ribeirão Preto, Brazil. DNA extraction was performed using the salting-out technique. The MC1R gene coding region (951pb) was amplifi ed in a single PCR reaction, which was sequenced on a ABI PRISM-310 genetic analyzer by capillary electrophoresis, using the same primers used for amplifi cation. Of the 29 SNPs evaluated, only 22 showed variation in the samples studied, half of them showing to be associated with pigmentation characteristics. We observed a set of SNPs clearly associated to pheomelanin (+1645 A, +1831 T,+1858 T e +2260 C), while others related to eumelanin occurrence (+1558 G, +2322 G, +2346 A). Our study shows signifi cant associations between individual SNPs and eyes, hair and skin pigmentation. The results presented here confi rm that this gene also plays a relevant role in the pigmentation variation in the Brazilian population

HFE gene polymorphism defined by sequence based typing of the Brazilian population and a standardized nomenclature for HFE allele sequences

The HFE molecule controls iron uptake from gut, and defects in the molecule have been associated with iron overload, particularly in hereditary hemochromatosis. The HFE gene including both coding and boundary intronic regions were sequenced in 304 Brazilian individuals, encompassing healthy individuals and patients exhibiting hereditary or acquired iron overload. Six sites of variation were detected: i) H63D C > G in exon 2, ii) IVS2 (+4) T > C in intron 2, iii) a C > G transversion in intron 3, iv) C282Y G > A in exon 4, v) IVS4 (-44) T > C in intron 4, and vi) a new Guanine deletion (G > del) in intron 5, which were used for haplotype inference. Nine HFE alleles were detected and six of these were officially named on the basis of the HLA Nomenclature, defined by the WHO Nomenclature Committee for Factors of the HLA System, and published via the IPD-IMGT/HLA website. Four alleles, HFE*001, 002, 003 and 004 exhibited variation within their exon sequences

Implications of the polymorphism of HLA-G on its function, regulation, evolution and disease association

The HLA-G gene displays several peculiarities that are distinct from those of classical HLA class I genes. The unique structure of the HLA-G molecule permits a restricted peptide presentation and allows the modulation of the cells of the immune system. Although polymorphic sites may potentially influence all biological functions of HLA-G, those present at the promoter and 3′ untranslated regions have been particularly studied in experimental and pathological conditions. The relatively low polymorphism observed in the MHC-G coding region both in humans and apes may represent a strong selective pressure for invariance, whereas, in regulatory regions several lines of evidence support the role of balancing selection. Since HLA-G has immunomodulatory properties, the understanding of gene regulation and the role of polymorphic sites on gene function may permit an individualized approach for the future use of HLA-G for therapeutic purposes

A922 Sequential measurement of 1 hour creatinine clearance (1-CRCL) in critically ill patients at risk of acute kidney injury (AKI)

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