H additive model [OR = 1.896, 95 CI(1.172, 3.067), p = 0.009] and dominant model [OR = 1.329, 95 CI (1.033, 1.711), p = 0.027]. The minor T allele of rs174537 was associated with a lower risk of CAD [OR = 0.743, 95 CI (0.624, 0.884), p = 0.001], while carriers of the rs174460 C allele were associated with a higher risk of CAD [OR = 1.357, 95 CI (1.106, 1.665), p = 0.003]. Linkage disequilibrium was performed with Haploview software (Figure 1). The SNP linkage disequilibrium patterns were assessed using both the D9 and r2 values. Based on the HapMap database, r2 was less than 0.8 among the five SNPs, suggesting that they do not exist in linkage disequilibrium with each other. Although rs174616 and rs174611 are adjacent to each other, no linkage disequilibrium was found between them.different genotypes in both rs174537 and rs174460, with the exception of C18:0 and AA. Compared with purchase 56-59-7 controls of rs174537 GG genotype, CAD get ML240 patients of rs174537 GG genotype had lower D5D and higher D9D-16; CAD patients of rs174537 GT+TT genotype had higher D6D and D9D-16. Compared with controls of rs174537 GT+TT genotype, CAD patients of rs174537 GG genotype had decreased D5D and increased D6D, D9D-16, D9D-18; CAD patients of rs174537 GT+TT genotype showed reduced D5D, and elevated D6D, D9D-16, D9D-18. CAD patients of rs174537 GG genotype had lower D5D than GT+TT genotype patients. Compared with controls of rs174460 TT genotype, controls of rs174460 CT+CC genotype had higher D9D-16 and D9D-18; lower D5D and higher D6D, D9D-16, D9D-18 were found in all patients. Compared with controls of rs174460 CT+CC genotype, CAD patients of rs174460 TT genotype had increased D9D-16; CAD patients of rs174460 CT+CC genotype had decreased D5D and increased D9D-16.DiscussionIn this paper, we used the high-resolution melting to analysis 23977191 FADS gene cluster polymorphisms with the plasma level of fatty acids in 510 healthy individuals and 505 CAD patients. And for the first time, the rs174460 is reported to be associated with CAD risk. Our study found that three desaturase activities (D9D, D5D and D6D) were associated with CAD in a Chinese Han population. The results showed that the fatty acid composition in plasma and the estimated desaturase activities were significantly different between controls and CAD patients. SCD activities, both D9D-16 and D9D-18, were significantly higher in patients with CAD than control subjects, and the main product, C16:0, was also increased. This result supports a previous report that high SCD activity is an independent predictor of cardiovascular risk factors [6]. Studies by Sampat [16] and Lelliott [17] suggested that high SCD activity may be associated with increased lipogenesis and influence ectopic fat deposition and thereby insulin resistance via lipotoxic mechanisms. CAD patients had lower level of LA than the control group. This result may be in agreement with the report of Warensjo [6]: ?LA was a major influencing factor on arterial stiffness. Potentially, sufficient amounts of LA in the serum or diet could improve insulin sensitivity and reduce coronary heart disease risk or mortality [18,19]. Petersson et al. [20] also found that higher plasma LA was associated with lower inflammation and lower cardiovascular risk. AA as the direct precursor of strong inflammatory eicosanoids (such as PGs, LTs and lipoxins), is thought to be an important factor for the development of some complex diseases. In the present study, AA was significantly highe.H additive model [OR = 1.896, 95 CI(1.172, 3.067), p = 0.009] and dominant model [OR = 1.329, 95 CI (1.033, 1.711), p = 0.027]. The minor T allele of rs174537 was associated with a lower risk of CAD [OR = 0.743, 95 CI (0.624, 0.884), p = 0.001], while carriers of the rs174460 C allele were associated with a higher risk of CAD [OR = 1.357, 95 CI (1.106, 1.665), p = 0.003]. Linkage disequilibrium was performed with Haploview software (Figure 1). The SNP linkage disequilibrium patterns were assessed using both the D9 and r2 values. Based on the HapMap database, r2 was less than 0.8 among the five SNPs, suggesting that they do not exist in linkage disequilibrium with each other. Although rs174616 and rs174611 are adjacent to each other, no linkage disequilibrium was found between them.different genotypes in both rs174537 and rs174460, with the exception of C18:0 and AA. Compared with controls of rs174537 GG genotype, CAD patients of rs174537 GG genotype had lower D5D and higher D9D-16; CAD patients of rs174537 GT+TT genotype had higher D6D and D9D-16. Compared with controls of rs174537 GT+TT genotype, CAD patients of rs174537 GG genotype had decreased D5D and increased D6D, D9D-16, D9D-18; CAD patients of rs174537 GT+TT genotype showed reduced D5D, and elevated D6D, D9D-16, D9D-18. CAD patients of rs174537 GG genotype had lower D5D than GT+TT genotype patients. Compared with controls of rs174460 TT genotype, controls of rs174460 CT+CC genotype had higher D9D-16 and D9D-18; lower D5D and higher D6D, D9D-16, D9D-18 were found in all patients. Compared with controls of rs174460 CT+CC genotype, CAD patients of rs174460 TT genotype had increased D9D-16; CAD patients of rs174460 CT+CC genotype had decreased D5D and increased D9D-16.DiscussionIn this paper, we used the high-resolution melting to analysis 23977191 FADS gene cluster polymorphisms with the plasma level of fatty acids in 510 healthy individuals and 505 CAD patients. And for the first time, the rs174460 is reported to be associated with CAD risk. Our study found that three desaturase activities (D9D, D5D and D6D) were associated with CAD in a Chinese Han population. The results showed that the fatty acid composition in plasma and the estimated desaturase activities were significantly different between controls and CAD patients. SCD activities, both D9D-16 and D9D-18, were significantly higher in patients with CAD than control subjects, and the main product, C16:0, was also increased. This result supports a previous report that high SCD activity is an independent predictor of cardiovascular risk factors [6]. Studies by Sampat [16] and Lelliott [17] suggested that high SCD activity may be associated with increased lipogenesis and influence ectopic fat deposition and thereby insulin resistance via lipotoxic mechanisms. CAD patients had lower level of LA than the control group. This result may be in agreement with the report of Warensjo [6]: ?LA was a major influencing factor on arterial stiffness. Potentially, sufficient amounts of LA in the serum or diet could improve insulin sensitivity and reduce coronary heart disease risk or mortality [18,19]. Petersson et al. [20] also found that higher plasma LA was associated with lower inflammation and lower cardiovascular risk. AA as the direct precursor of strong inflammatory eicosanoids (such as PGs, LTs and lipoxins), is thought to be an important factor for the development of some complex diseases. In the present study, AA was significantly highe.
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