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ObjectiveTo investigate the association of the polymorphisms of the acetyl-CoA acetyltransferase 1 (ACAT1) gene and the melatonin receptor 1B (MTNR1B) gene with the susceptibility to nonalcoholic fatty liver disease (NAFLD). MethodsA total of 164 healthy controls and 228 NAFLD patients were enrolled in this study. PCR and sequencing methods were used to determine the genotypes of the polymorphisms of the ACAT1 gene at the rs1044925 and rs1157651 loci and the MTNR1B gene at the rs10830963 locus, and fasting venous blood samples were collected for biochemical analysis. The t-test was used for comparison of normally distributed continuous data between groups, and the non-parametric Mann-Whitney U test was used for comparison of non-normally distributed continuous data between groups; the chi-square test was used for comparison of categorical data between groups. ResultsThere were no significant differences between the NAFLD group and the healthy control group in the genotype distribution of the ACAT1 gene at the rs1044925 and rs1157651 loci and the MTNR1B gene at the rs10830963 locus (all P>0.05). The carriers of AA genotype at the rs1044925 locus of the ACAT1 gene had a significantly higher level of low-density lipoprotein than the carriers of C allele (Z=-2.08, P=0.04), and the carriers of G allele at the rs10830963 locus of the MTNR1B gene had a significantly higher level of fasting blood glucose than the carriers of CC genotype (Z=-3.01, P<0.01). ConclusionThe polymorphisms of the ACAT1 gene at the rs1044925 and rs1157651 loci and the MTNR1B gene at the rs10830963 locus were not associated with the susceptibility to NAFLD. The rs1044925 locus of the ACAT1 gene and the rs10830963 locus of the MTNR1B gene are associated with the levels of low-density lipoprotein and fasting blood glucose, respectively.
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Objective:To investigate the relationship between the single nucleotide polymorphism(SNP)of function genes and effective components of <italic>Salvia miltiorrhiza</italic> and the molecular mechanism of specific quality formation of <italic>S. miltiorrhiza</italic>. Method:The fingerprints of components in <italic>S. miltiorrhiza</italic> from eight different habitats and varieties were obtained by high-performance liquid chromatography (HPLC). The full-length cDNA of three functional genes<italic> </italic>acetyl-CoA C-acetyltransferase(<italic>SmAACT</italic>),4-diphosphocytidyl-2-C-methyl-<italic>D</italic>-erythritol kinase(<italic>SmCMK</italic>) and isopentenyl diphosphate isomerase(<italic>SmIPPI</italic>) in tanshinone metabolic pathway were amplified by polymerase chain reaction(PCR),cloned, and sequenced,followed by bioinformatics analysis. Result:The full-length cDNA sequences of three functional genes <italic>SmAACT</italic>,<italic>SmCMK</italic>, and <italic>SmIPPI</italic> in tanshinone metabolic pathway were obtained from 23 strains of <italic>S. miltiorrhiza</italic> from eight different habitats and varieties. As revealed by the analysis of SNP and amino acid polymorphisms of three functional genes,18,16, and 14 SNP sites were found respectively. HPLC results showed the samples from Beijing,Hubei,Shandong (No. SDB),Shanxi,Henan, and Shandong (No. SDZ) were clustered into one branch,and those from Hebei and Inner Mongolia were clustered into another branch, which suggested that the variation trend of <italic>S. miltiorrhiza</italic> components had little correlation with geographical distance,but the variety was a critical factor for the quality. Conclusion:There was an obvious genetic differentiation trend in <italic>S. miltiorrhiza</italic> from different habitats,and different origin-specific genotypes were formed. The molecular mechanism of the formation of the specific quality of <italic>S. miltiorrhiza</italic> from different habitats was discussed,which laid a foundation for the stability and effectiveness of clinical medication,and guided the breeding of excellent varieties of <italic>S. miltiorrhiza</italic>.
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Drug-induced lupus is a rare drug reaction featuring the same symptoms as idiopathic lupus erythematosus. Recently, with the introduction of new medicines in clinical practice, an increase in the number of illness-triggering implicated drugs has been reported, with special emphasis on anti-TNF-α drugs. In the up-to-date list, almost one hundred medications have been associated with the occurrence of drug-induced lupus. The authors present two case reports of the illness induced respectively by hydralazine and infliximab, addressing the clinical and laboratorial characteristics, diagnosis, and treatment.
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Adult , Humans , Male , Middle Aged , Antihypertensive Agents/adverse effects , Gastrointestinal Agents/adverse effects , Hydralazine/adverse effects , Infliximab/adverse effects , Lupus Erythematosus, Cutaneous/chemically induced , Tumor Necrosis Factor-alpha/antagonists & inhibitors , Lupus Erythematosus, Cutaneous/pathology , Skin/pathologyABSTRACT
Objective: Acetyl-CoA C-acetyltransferase (AACT) is the initial enzyme in the terpenoid biosynthesis pathway of mevalonate (MVA), two units of acetyl-CoA were catalyzed to acetoacetyl-CoA. To clone the full length cDNA of AACT gene and carry out the bioinformatics analysis and expression analysis in order to provide the basis on resolving the mechanism of biosynthesis for terpenoid secondary metabolites from Houttuynia cordata. Methods: The cDNA sequence of AACT gene was obtained from H. cordata by using RT-PCR strategy. And the different expression of AACT gene in the rhizomes, stems, leaves, and flowers of H. cordata was analyzed by fluorescent quantitative PCR. Results: The cDNA contains a 1 218 bp open reading frame and encodes a predicted protein of 405 amino acids. No transmembrane region and signal peptide were present in AACT protein by bioinformatics prediction. Relative real-time PCR analysis indicated that AACT gene showed the highest transcript abundance in the stems and rhizomes of H. cordata lower levels in the flowers and leaves, the values of them were 1.49, 0.96, 0.20, and 0.10, respectively. Conclusion: This AACT gene is cloned from H. cordata for the first time. The results will provide a foundation for exploring the mechanism of the gene in terpenoid biosynthesis and metabolism in H. cordata.