ObjectiveTo investigate the association between tumor necrosis factor (TNF)-α gene polymorphism and susceptibility to chronic obstructive pulmonary disease (COPD) in eastern Heilongjiang province.MethodsA total of 347 COPD patients in the Department of Respiratory Medicine, the First Affiliated Hospital of Jiamusi University, were enrolled from January 2016 to January 2017. In the same period, 338 healthy subjects in the hospital physical examination center were selected as controls. The genotype of the two groups was analyzed by high resolution melting (HRM) and gene sequencing. The genotype and allele probability of the two groups were compared and analyzed by the SHEsis genetic imbalance haplotype analysis.ResultsBoth TNF-a –308 G/A co-dominant model and recessive model have significant differences between COPD patients and healthy subjects (P=0.036, OR 1.512, 95%CI 1.023 – 2.234; P=0.027, OR 1.202, 95%CI 1.024 – 1.741). –850G/A co-dominant model (P=0.000, OR 1.781, 95%CI 1.363 – 2.329), dominant model (P=0.000, OR 0.391 7, 95%CI 1.363 – 2.329) and hyper-dominant model (P=0.000, OR 2.680, 95%CI 1.728 – 4.156) in the two groups were statistically different. The haploid analysis and haploid genotype analysis showed statistically significant differences (all P<0.05, OR>1, 95%CI>1) at +489, –308, –850 sites by allele A, G, A, respectively between the two groups. There was a significant difference in the lung function between the –308G/A, –863C/A mutant genome and the wild type (P=0.038, P=0.02) in COPD patients according to the classification of lung function.ConclusionsA allele in TNF-α –308 and G allele in TNF-α –850 locus may be risk factors for COPD in the eastern Heilongjiang Province, and the risk of homozygous genotype is higher. +489A, –308G and –850A respectively may be the predisposing factor of COPD while the three genotypes of AGA patients were at higher risk. TNF-α –308 A allele and –863 A allele are related to lung function deterioration, and the two sites with A allele in patients with COPD indicate poor lung function.
ObjectiveTo investigate the relationship between the CYP3A5 genotyping and the drug metabolism of tacrolimus after operation in adult liver transplantation.MethodsNinety-eight adult patients with liver transplantation in Tianjin First Center Hospital were selected as subjects. The blood samples of liver transplantation recipients and donor were collected before operation, and then tested the CYP3A5 genotyping by PCR method. The weekly body mass, tacrolimus dose, and drug valley concentration of the patients were monitored in 1, 2, 3, and 4 weeks after operation, to calculate the tacrolimus concentration/dose ratio. And then compared the effects of different genotyping of donor and receptors on tacrolimus concentration/dose ratio.ResultsIn the CYP3A5 genotyping of 98 patients with liver transplantation and the corresponding donors, GG type was the most and AA type was the least, the distribution of alleles was in accordance with the genetic law, and the difference was not statistically significant (P>0.05). According to the donor genotype, the results showed that there was a significant correlation between tacrolimus concentration/dose ratio and donor or recipients CYP3A5 genotype at 1, 2, 3, and 4 weeks after liver transplantation, and there was significant difference among the three groups (P<0.05): GG>AG>AA. According to the combined grouping of donor and receptor genotype, the results showed that there was significant difference in tacrolimus concentration/dose ratio among A*/A*, A*/GG, GG/A*, and GG/GG group (P<0.05), while there was significant difference in tacrolimus concentration/dose ratio between GG/GG and A*/A* group (P<0.01), the tacrolimus concentration/dose ratio was highest in GG/GG group and lowest in A*/A* group.ConclusionsThe CYP3A5 genotyping of the recipient and donor can affect the blood concentration of tacrolimus after liver transplantation, and the CYP3A5 GG genotype is more likely to reach the target plasma concentration than the other genotypes, that the detection of donor and recipient CYP3A5 genotype in patients with liver transplantation can provide a reference for individualized treatment of tacrolimus after liver transplantation.
Mycobacterium tuberculosis is the causative agent of human tuberculosis. Through the genotyping of Mycobacterium tuberculosis, we can find the epidemic situation and characteristics of tuberculosis in time, analyze the transmission chain between patients in different jurisdictions, and formulate effective intervention measures in time, to provide a strong basis for clinical diagnosis and treatment. At present, several genotyping techniques for Mycobacterium tuberculosis have their advantages and disadvantages in application. This article reviews the genotyping technology, population genetics and genotyping naming rules of Mycobacterium tuberculosis.