Objective To investigate the distribution characteristics of hepatitis B virus (HBV) genotypes and the variation situ-ation of drug resistance gene in Shenyang area by the gene chip technology .Methods Serum samples were randomly collected from 90 inpatients of hepatitis B in 202 Hospital of PLA from August 2012 to July 2013 .The HBV genotypes and drug resistance associ-ated 5 sites in common 3 types of antiviral drug were detected by the gene chip technology of nested PCR (NPCR) combined with reverse dot blot(RDB) .Results Among 90 samples ,HBV genotypes included type B 6 .7% (6/90) ,type C 86 .6% (78/90) ,mixed type B and C 6 .7% (6/90) .The serum HBV DNA level in the patients with HBV-C genotype were significantly higher than that with genotype HBV-B and mixed genotype B and C .There were 4 cases of drug resistance gene mutation in the detected samples ,3 cases of mutation were placed in 180M+204V ,1 case of mutation was placed in 180M+204I .All the drug resistance mutations ap-peared in the patients with HBV-C genotype .Conclusion The main HBV genotype is the genotype C in Shenyang area .Genotype B and genotype mixed B and C are unusual .The HBV DNA level in the patients with the genotype C is relatively high ,which is more likely to happen resistance to lamivudine .Moreover the mixed mutation in 180M is more likely to happen .

Transcription factor is a key trans-acting factor to mediate stress response by regulating gene expression. Plants have developed a series of mechanisms to modulate development, stress response, signaling and disease resistance at transcription level. DNA binding with one finger (DOF), containing one C₂-C₂ zinc finger domain, is a special plant transcription factor. Specifically, the conserved domain at N-terminus of DOF has multiple functions, including interacting with DNA and protein, which could be involved in plant development and stress response. Although many DOF family genes are characterized in plant stress response, it is not clear if DOF genes have functions in cereal plants. In the present paper, the role of DOF family genes on cereal plants were discussed based on a comprehensive phylogenetic relationship analysis, expression profiles in different tissues and various environmental conditions. The results obtained here will provide an important reference for further understanding the mechanism of gramineous crops in stress resistance.
DNA-Binding Proteins ; metabolism ; Gene Expression Regulation, Plant ; Phylogeny ; Plant Proteins ; metabolism ; Plants ; genetics ; Transcription Factors ; metabolism ; Zinc Fingers