Gene polymorphisms of phase I (CYP1A1 and CYP2E of cytochrome P,) and phase II (GSTM1, GSTT1 and GSTP1 of glutathione-S-transferase,) enzymes and the TP53 tumor suppressor gene were studied as markers in a sample of 262 Brazilians of European descent, the sample consisting of 97 patients with non-small-cell lung cancer (NSCLC), 75 patients with chronic obstructive pulmonary disease (COPD) and 90 control individuals. For NSCLC, we found no significant relationship between any of the markers studied and susceptibility to this disease. With respect to COPD, although the distribution of the CYP1A1, GSTM1, GSTP1, GSTT1 and TP53 genotypes was similar to that of the controls the frequency of the CYP2E1*1A/*5B heterozygote was about 6 times higher in COPD patients than in controls (OR= 6.3; CI = 1.1-35.5 for p = 0.04). Individuals who presented the GSTT1 null phenotype and GSTP1 Ile/Val genotype had a risk about four times higher (OR= 4.0; CI = 1.2-14.6 for p = 0.02) of having COPD than individuals without these genotypes, the same being true for individuals having the GSTT1 null phenotype and CYP1A1*1A/*2A genotype (OR= 3.7; 1.1-14.6 for p = 0.04).These results suggest that the CYP2E1 and GSTT1 + GSTP or GSTT1 + CYP1A1 polymorphisms may be predictive of susceptibility to COPD, at least in this population of European ancestry.
Bovine spongiform encephalopathy (BSE) is a transmissible fatal neurodegenerative disorder, presenting a characteristic spongiform degeneration of cattle brain due to the accumulation of a pathogenic and protease-resistant infectious protein (prion). Two deletion/insertion polymorphisms of the prion protein gene (23 bp at the promoter region and 12 bp at intron 1) were analyzed in three beef cattle herds (Aberdeen Angus, Charolais, and Franqueiro) to verify allele frequencies for possible use in selection of resistant animals. High frequencies of susceptibility alleles (23 and 12 bp deletion) and haplotype (23 del/12 del) were observed in the Aberdeen Angus and Charolais herds, but Franqueiro presented one of the highest frequencies of resistant alleles so far described. These data indicate the need for selection in Aberdeen Angus and Charolais breeds to increase the frequency of resistant animals in order to reduce the probabilities of BSE outbreaks in these populations.
A total of 2,708 individuals from the European-derived population of Rio Grande do Sul, divided into seven mesoregions, and of 226 individuals of similar origin from Santa Catarina were studied. Seventeen protein genetic systems, as well as grandparents' nationalities, individuals' surnames, and interethnic admixture were investigated. The alleles which presented the highest and lowest differences were GLO1*2 (16%) and PGD*A (2%), respectively, but in general no significant genetic differences were found among mesoregions. The values observed were generally those expected for individuals of European descent, with the largest difference being a lower prevalence (34-39%) of P*1. Significant heterogeneity among mesoregions was observed for the other variables considered, and was consistent with historical records. The Amerindian contribution to the gene pool of European-derived subjects in Rio Grande do Sul was estimated to be as high as 11%. Based on the four data sets, the most general finding was a tendency for a northeast-southwest separation of the populations studied. Seven significant phenotype associations between systems were observed at the 5% level (three at the 0.1% level). Of the latter, the two most interesting (since they were also observed in other studies) were MNSs/Duffy and Rh/ACP.
The aim of the present study was to verify associations between reproductive efficiency and four microsatellite markers located in synteny with genes involved in the regulation of reproductive mechanisms. A sample of 107 females from a Brangus Ibagé population (5/8 Aberdeen Angus x 3/8 Nelore) was characterized for ETH225 (D9S1) and MM12E6 (D9S20) microsatellites, mapped on chromosome 9, and HEL5 (D21S15) and AFZ1 (D21S37) on chromosome 21. Associations between the genetic markers and reproductive efficiency were determined by one-way analysis of variance using calving interval (CI), live weight at calving (LWC), live weight at first calving (LW1C) and live weight at second calving (LW2C) as dependent variables. The genotypes were classified according to allele size into homozygous for long alleles, homozygous for short alleles and heterozygous. A longer CI was observed for individuals homozygous for long alleles at the HEL5 locus compared with the others (p = 0.022). For the AFZ1 locus, an inverse correlation between allele size and calving interval was observed (p = 0.022), suggesting that homozygosity for long alleles at this microsatellite could be advantageous. Analysis of the combined effect of favorable genotypes at HEL5 and AFZ1 indicated that animals with unfavorable genotypes (homozygous for long alleles at HEL5 and homozygous for short alleles at AFZ1) presented a significantly longer CI (p = 0.003) when compared to the other genotypes. The ETH225 and MM12E6 systems did not present any association with CI. None of the systems studied showed any significant association with LWC, LW1C or LW2C.
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