原发性肝癌患者乙型肝炎病毒前C区联合基本核心启动子变异的分析

目的:研究原发性肝癌患者乙型肝炎病毒前C区联合基本核心启动子变异情况及与基因型的关系.方法:收集乙型肝病毒感染者血清132份,HBV DNA均阳性,用半巢式聚合酶链反应扩增HBV前C及c基因部分片段,产物纯化后直接测序,检测前C A1896联合BCP T1762/A1764变异.用S基因PCR-RFLP方法确定HBV基因型.结果:乙型肝炎病毒前C区联合基本核心启动子变异在原发性肝癌组的阳性率为41.18%(14/34),显著高于慢性肝病组的11.22%(11/98)(P<0.01).前CA1896联合BCP T1762/A1764变异在B基因型检出率与C基因型相比,差异无显著性(P>0.05).结论:乙型肝炎病毒前C区联合基本核心启动子变异与原发性肝癌关系密切,与基因型无相关性.     

肝癌患者体内乙型肝炎病毒基因组BCP/Pre C区基因突变多样性分析

为研究肝癌患者组织样本中HBV DNA核心启动子区(BCP区)和前C区(Pre C区)的基因突变多样性及其突变规律。收集第四军医大学附属西京医院2015年收治的192例HBV阳性的肝癌患者组织样本,PCR扩增HBV BCP/Pre C区DNA片段并进行测序分析,从测序失败的样本中随机抽取21例,采用构建单克隆文库后测序的方法进行分析。结果显示37.89%(72/190)的HBV阳性肝癌患者体内HBV病毒因呈现多种突变株混合感染的特点而导致PCR产物直接测序失败,经单克隆测序揭示,每一例失败样本的HBV DNA准种池中至少有2~11种突变株共同存在;突变株中缺失突变和插入突变的发生率高达80.95%;其它突变形式按照频率从高到低分别为A1762T/G1764A双突变90.48%,G1756C/T1803A/Δ(1 757~1 765)/Δ(1 824~1 832)四联突变80.95%,T1753C/A1762T/G1764A三联突变57.14%,A1762T/G1764A/G1896A三联突变42.86%,G1756C/Δ(1 757~1 765)双突变28.57%,T1753C/A1762T/G1764A/G1896A四联突变23.81%。由此可见,肝癌患者体内HBV病毒具有BCP/Pre C区DNA突变的多样性,这些缺失与插入突变是导致序列移码与PCR产物测序失败的直接原因。研究结果为HBV持续感染及基因突变检测、相关机制研究和个体化防治奠定了基础。     

肝癌患者体内乙型肝炎病毒基因组BCP/Pre C区基因突变多样性分析北大核心CSCD

为研究肝癌患者组织样本中HBV DNA核心启动子区(BCP区)和前C区(Pre C区)的基因突变多样性及其突变规律。收集第四军医大学附属西京医院2015年收治的192例HBV阳性的肝癌患者组织样本,PCR扩增HBV BCP/Pre C区DNA片段并进行测序分析,从测序失败的样本中随机抽取21例,采用构建单克隆文库后测序的方法进行分析。结果显示37.89%(72/190)的HBV阳性肝癌患者体内HBV病毒因呈现多种突变株混合感染的特点而导致PCR产物直接测序失败,经单克隆测序揭示,每一例失败样本的HBV DNA准种池中至少有2~11种突变株共同存在;突变株中缺失突变和插入突变的发生率高达80.95%;其它突变形式按照频率从高到低分别为A1762T/G1764A双突变90.48%,G1756C/T1803A/Δ(1 757~1 765)/Δ(1 824~1 832)四联突变80.95%,T1753C/A1762T/G1764A三联突变57.14%,A1762T/G1764A/G1896A三联突变42.86%,G1756C/Δ(1 757~1 765)双突变28.57%,T1753C/A1762T/G1764A/G1896A四联突变23.81%。由此可见,肝癌患者体内HBV病毒具有BCP/Pre C区DNA突变的多样性,这些缺失与插入突变是导致序列移码与PCR产物测序失败的直接原因。研究结果为HBV持续感染及基因突变检测、相关机制研究和个体化防治奠定了基础。     

乙肝病毒BCP区突变（A1762T/G1764A）对乙肝病毒复制的影响研究

通过构建乙型肝炎病毒（Hepatitis B virus, HBV）单倍体分子，阐明HBV基本核心启动子突变（A1762T/+G1764A,BCP）对HBV复制的影响。本研究收集了HBeAg阴性的慢乙肝患者，将其中两例BCP突变的序列通过重叠PCR克隆到HBV1.3倍体的复制质粒；构建环状的HBV单倍体分子，转染Huh7.0细胞后，通过ELISA、实时荧光定量PCR等分析BCP突变对病毒复制的影响；通过荧光素酶实验分析BCP突变对HBV preC mRNA转录的影响。55例HBeAg阴性的慢乙肝患者中有30例带有A1762T/G1764A的突变；克隆带有BCP突变的临床序列到HBV 1.3倍体转染细胞后，上清中HBeAg为阴性，表面抗原降低10%(P>0.05)；构建的HBV单倍体环化后形成闭合环状的cccDNA分子，转染细胞后，结果表明BCP突变后，HBeAg下降55.48%(P<0.05)，表面抗原无显著性差异（P>0.05），细胞内病毒颗粒中DNA水平为野生型的3.18倍，上清中HBV DNA为野生型的1.36倍；BCP突变后preC mRNA水平降低81.05...     

福建省慢性HBV感染者HBV基因S区、基本核心启动子区和前C区基因变异特征分析

为研究福建省慢性HBV感染者HBV基因多样性及变异规律,了解该人群HBV-DNA的病毒学特征。收集慢性HBV感染者血清标本,通过巢式PCR法扩增其HBV基因序列,比对NCBI数据库中标准基因型序列,分析HBV基因S区,基本核心启动子区(BCP)及前C区的序列变异情况,并对这些变异可能造成的病毒抗原表达,疫苗逃逸,患者病症改变等情况进行探讨。最终成功扩增82例HBV全长基因序列,其中B基因型56例,C基因型26例。基因组特定功能区序列分析发现慢性HBV感染者HBV基因在S区(23.2%)、BCP区(61.0%)和前C区(29.3%)均出现了不同程度的变异。其中主蛋白(HBsAg)主要抗原决定簇a决定簇45.8%位点出现了变异,这些变异位点中包括与肝炎重症化及免疫逃逸密切相关的位点(aa126、aa129、aa145等)。位点G1896A(19.5%),G1764A(11.0%)和A1762T(9.8%)依然是BCP/前C区的主要突变位点。而位点A1752G(25.6%)高突变率的出现在BCP区应引起关注。此外位点G1764A(χ~2=5.742,P=0.030)、A1896G(χ~2=14.392,P=0.000)以及A1762T/G1764A(χ~2=7.289,P=0.012)的突变更容易发生在HBeAg阴性的样品中;而位点A1846T(χ~2=11.882,P=0.003)、A1762T(χ~2=6.561,P=0.038)和A1896G(χ~2=6.958,P=0.030)的突变与HBV-DNA的病毒载量存在一定相关性。总之,福建省慢性HBV感染者在HBV不同基因功能区域均存在不同程度的变异,一些与HBeAg表达情况、HBV-DNA载量、疫苗免疫逃避及肝细胞癌发生具有相关联的变异位点已经出现,BCP区A1752G位点的高频率出现应值得关注,对于这些变异位点的患者应加强监测。     

利用基因芯片分析拉米夫定治疗过程中HBV DNA的基因变异

依据乙型肝炎病毒(Hepatitis B virus; HBV)聚合酶基因序列研制HBV基因芯片,此芯片可分析HBV的7个基因型、4种血清型和HBV聚合酶基因rtV173、rtL180、rtM204和rtV207位点的突变.利用此芯片对A、B两组共计45例拉米夫定治疗12个月的患者进行服药前和服药后3、6、9、12个月的动态检测,其中C基因型39例,且血清型均为adr;B基因型6例,其血清型均为adw.在完成全程检测的38例患者中,17例ALT升高的A组出现1例拉米夫定耐药变异株,而21例ALT正常的B组出现4例变异株,且所有变异株均为rtM204 V/rtL180M,其中2例野生株和变异株共存.rtM204V变异最早在服药6个月时出现,随后出现rtL180M变异.10份PCR产物测序分析表明,芯片检测结果与测序结果基本一致,仅在rtL173位点出现1例差异.进一步分析HBV DNA变异与HBV DNA含量、ALT水平和HBeAg血清转换率的相关性,初步结果表明变异株的出现与治疗过程中的DNA反弹呈正相关,而与起始HBV DNA水平、ALT值无关联.HBV基因芯片可初步用于HBV DNA 检测,可能是临床追踪评价抗病毒治疗效果的较好方法之一.     

利用基因芯片分析拉米夫定治疗过程中HBV DNA的基因变异

依据乙型肝炎病毒(Hepatitis B virus;HBV)聚合酶基因序列研制HBV基因芯片,此芯片可分析HBV的7个基因型、4种血清型和HBV聚合酶基因rtV173、rtL180、rtM204和rtV207位点的突变。利用此芯片对A、B两组共计45例拉米夫定治疗12个月的患者进行服药前和服药后3、6、9、12个月的动态检测,其中C基因型39例,且血清型均为adr;B基因型6例,其血清型均为adw。在完成全程检测的38例患者中,17例ALT升高的A组出现1例拉米夫定耐药变异株,而21例ALT正常的B组出现4例变异株,且所有变异株均为rtM204 V／rtL180M,其中2例野生株和变异株共存。rtM204V变异最早在服药6个月时出现,随后出现rtL180M变异。10份PCR产物测序分析表明,芯片检测结果与测序结果基本一致,仅在rtL173位点出现1例差异。进一步分析HBV DNA变异与HBV DNA含量、ALT水平和HBeAg血清转换率的相关性,初步结果表明变异株的出现与治疗过程中的DNA反弹呈正相关,而与起始HBVDNA水平、ALT值无关联。HBV基因芯片可初步用于HBV DNA检测,可能是临床追踪评价抗病毒治疗效果的较好方法之一。     

内江地区慢性乙型肝炎患者的基因型及拉米夫定联合阿德福韦酯抗病毒治疗效果

目的探讨内江地区慢性乙型肝炎患者的基因型及拉米夫定联合阿德福韦酯抗病毒的治疗效果。方法将201例慢性乙型肝炎患者进行HBV基因型的测定,其中120例HBeAg(+)慢性乙型肝炎患者随机分为三组:A组、B组和C组,每组40例。A组给予拉米夫定(LAM)治疗;B组给予恩替卡韦(ETV)治疗;C组给予LAM联合阿德福韦酯(ADV)治疗,比较治疗情况。结果 201例慢性乙型肝炎患者中B型119例(59.2%),C型68例(33.8%),B/C混合型10例(5.0%),未知型4例(2.0%),各分型之间的性别、年龄差异无统计学意义(P0.05)。C型感染者HBeAg阳性率为86.8%,显著高于B型的51.3%(P0.05)。HBeAg(+)的3组患者治疗12、24和48周时,B组和C组患者的ALT复常率、HBV DNA阴转率及48周时的HBeAg血清转换率均显著高于A组(P0.05);C组患者与B组比较差异无统计学意义(P0.05)。治疗期间均未见不良反应发生。C组患者(包括B型19例、C型21例)中B型的HBV DNA阴转率及HBeAg血清转换率显著高于C型(P0.05)。结论地处西南方的内江地区慢性乙型肝炎患者主要以B型为主,C型次之,B型和C型共占93.0%,其他型别仅占较少部分。ETV方案或LAM联合ADV方案治疗HBeAg(+)慢性乙肝疗效优于LAM治疗。初始LAM联合ADV治疗基因B型HBeAg(+)慢性乙型肝炎疗效优于C型。     

HBV基因型、基本核心启动子区双突变和肝细胞癌发生及临床病理特征的关系

目的探讨乙型肝炎病毒(HBV)基因型、基本核心启动子(BCP)区双突变(简称BCP双突变)和肝硬化(LC)、肝细胞癌(HCC)发生的关联,分析BCP双突变和HCC临床病理特征的关系。方法随机收集233例慢性HBV感染者的血清,其中80例为慢性乙型肝炎(CHB)患者、75例为LC患者、78例为HCC患者,并系统整理患者的常规检查和病理等资料。采用实时荧光定量聚合酶链反应(FQ-PCR)检测BCP双突,用特异性引物多重PCR扩增确定HBV基因型。用SPSS 11.0分析结果。结果 HBV基因型结果均为B和C型,分别在CHB和LC组,CHB和HCC组间分布差异有统计学意义(P<0.05),在LC和HCC组间分布差异无统计学意义(P>0.05),感染C基因型与LC和HCC发生相关(分别OR=2.73,95%CI=1.29～5.82;OR=2.00,95%CI=0.98～4.09)。BCP双突变也分别在CHB和LC组,CHB和HCC组间分布差异有统计学意义(P<0.05),在LC和HCC组间分布差异无统计学意义(P>0.05),双突变与LC和HCC发生相关(分别OR=1.91,95%CI=0.96～3.82;OR=2.05,95%CI=1.04～4.06)。BCP双突变和伴肝硬化的HCC相关(P<0.05)。结论感染HBV C基因型、BCP双突变可能均是LC和HCC发生的危险因素,BCP双突变可作为LC和HCC早期预警生物标记物。     

内蒙古地区乙型肝炎病毒的基因分型及临床意义

为了探讨乙型肝炎病毒在内蒙古地区的基因分型,为本地区乙型肝炎的临床治疗、病情进展和发病机制等方面研究提供有益的实验依据。2013年7月至2014年7月本研究在内蒙古自治区人民医院、内蒙古医科大学第一附属医院、通辽市医院的门诊及住院病例中随机选取已感染乙型肝炎病毒的253例。以荧光定量PCR法检测HBV基因分型和HBV病毒基因载量,Elisa法检测血清标志物HBeAg,全自动生化分析仪检测ALT、AST、TBA、TBIL和ALB。实验发现,内蒙古地区253例患者HBV基因分型结果以B型(49例,19.37%)、C型(188例,74.31%)为主,且C基因型显著多于B基因型(p<0.05);HBeAg阳性率为67.59%,且C基因型HBeAg阳性率高于B基因型;高载量病例中B型占31例(63.27%),而C型占162例(86.17%),C基因型组中HBV DNA载量显著高于B基因型组(p<0.01);B基因型与C基因型TBA、TBIL和ALB结果比较差异无统计学意义(p>0.05),但C基因型的ALT和AST这两项生化指标均显著高于B基因型组(p<0.05)。本研究结果初步说明,内蒙古地区HBV感染以B型和C型为主,尤以C型居多;且C型病毒的复制较活跃,致病力较强,HBV感染者更易转成严重肝病。     

Genome replication,virion secretion,and e antigen expression of naturally occurring hepatitis B virus core promoter mutants

The core promoter mutants of hepatitis B virus (HBV) emerge as the dominant viral population at the late HBeAg and the anti-HBe stages of HBV infection, with the A1762T/G1764A substitutions as the hotspot mutations. The double core promoter mutations were found by many investigators to moderately enhance viral genome replication and reduce hepatitis B e antigen (HBeAg) expression. A much higher replication capacity was reported for a naturally occurring core promoter mutant implicated in the outbreak of fulminant hepatitis, which was caused by the neighboring C1766T/T1768A mutations instead. To systemically study the biological properties of naturally occurring core promoter mutants, we amplified full-length HBV genomes by PCR from sera of HBeAg(+) individuals infected with genotype A. All 12 HBV genomes derived from highly viremic sera (5 x 10(9) to 5.7 x 10(9) copies of viral genome/ml) harbored wild-type core promoter sequence, whereas 37 of 43 clones from low-viremia samples (0.2 x 10(7) to 4.6 x 10(7) copies/ml) were core promoter mutants. Of the 11 wild-type genomes and 14 core promoter mutants analyzed by transfection experiments in human hepatoma cell lines, 6 core promoter mutants but none of the wild-type genomes replicated at high levels. All had 1762/1764 mutations and an additional substitution at position 1753 (T to C), at position 1766 (C to T), or both. Moreover, these HBV clones varied greatly in their ability to secrete enveloped viral particles irrespective of the presence of core promoter mutations. High-replication clones with 1762/1764/1766 or 1753/1762/1764/1766 mutations expressed very low levels of HBeAg, whereas high-replication clones with 1753/1762/1764 triple mutations expressed high levels of HBeAg. Experiments with site-directed mutants revealed that both 1762/1764/1766 and 1753/1762/1764/1766 mutations conferred significantly higher viral replication and lower HBeAg expression than 1762/1764 mutations alone, whereas the 1753/1762/1764 triple mutant displayed only mild reduction in HBeAg expression similar to the 1762/1764 mutant. Thus, core promoter mutations other than those at positions 1762 and 1764 can have major impact on viral DNA replication and HBeAg expression.     

Hepatitis B Virus Genotype Distribution and Genotype-Specific BCP/preCore Substitutions in Acute and Chronic Infections in Argentina

Aim

In order to assess Hepatitis B Virus genotype (g) and subgenotype (sg) implications in the course of infection, 234 HBsAg positive patients in different infection stages were characterized (66 acute infections, 63 HBeAg positive chronic infections and 105 anti-HBe positive chronic infections).

Results

Overall, sgA2 (17.9%), gD (20.9%), sgF1b (34.2%) and sgF4 (19.7%) were the most prevalent. Subgenotype F1b was overrepresented in acute and chronic HBeAg infections (56.1%), whereas gD was the most frequent (40.0%) in anti-HBe positive chronic infections. Among chronic infections, HBeAg positivity rates were 50.0, 12.5, 62.8 and 35.3% for sgA2, gD, sgF1b and sgF4, respectively (p <0.05). A bias toward BCP/preCore mutations was observed among genotypes. In anti-HBe positive chronic infections, sgF1b was more prone to have A1762T/G1764A mutation than sgA2, sgF4 and gD (75.0, 40.0, 33.3 and 31.8%, p<0.005), whereas in the pC region, gD and sgF4 were more likely to have G1896A than sgA2 and sgF1b (81.0, 72.7, 0.0 and 31.3%, p <0.001). The unexpected low frequency of the G1896A mutation in the sgF1b (despite carrying 1858T) prompted us to perform a further analysis in order to identify genotype-specific features that could justify the pattern mutations observed. A region encompassing nucleotides 1720 to 1920 showed the higher dissimilarity between sgF1b and sgF4. Genotypes and subgenotypes carrying the 1727G, 1740C and 1773T polymorphisms were prevented to mutate position 1896.

Discussion

HBeAg seroconversion is a critical event in the natural history of HBV infection. Differences in the HBeAg positivity rate might be relevant since different studies have observed that delayed HBeAg seroconversion is associated with a more severe clinical course of infection, highlighting the critical role that genotypes/subgenotypes might play in the progression of HBV infection. Polymorphisms in the regions 1720 to 1920 could be involved in the molecular mechanisms underlying seroconversion of each genotype/subgenotype.     

Low frequency of mutations in the core promoter and precore regions of hepatitis B virus in anti-HBe positive Brazilian carriers

Background  

Mutations in the core promoter and precore regions of the hepatitis B virus (HBV) genome, notably the double substitution (AGG to TGA) at nt positions 1762-1764 in the core promoter, and the precore stop codon mutation G to A at nt 1896, can often explain the anti-HBe phenotype in chronic carriers. However, the A1896 mutation is restricted to HBV isolates that have T at nt 1858. The double substitution at positions 1762-1764 has been described to occur preferentially in patients infected with strains showing C instead of T at nt 1858.     

Lower Mutation Frequency of BCP/Precore Regions in e Antigen-Negative Chronic HBV-Infected Children instead of Adults Patients

To describe the Hepatitis B e antigen(HBeAg) seroconversion related mutation profiles of the basal core promoter(BCP)/precore regions in e antigen seroconverted child patients, a cohort of 245 child patients with CHB and a control patients group of 92 adult patients with CHB were recruited. The mutation frequencies of six nucleotides or nucleotide combinations including nucleotide (nt)1896, nt1762/1764, nt1752, nt1846, nt1899 and nt1753 showed significant differences between HBeAg positive and HBeAg-negative child patients groups. The frequencies of these HBeAg seroconversion-related mutations were significantly lower in HBeAg-negative children with CHB than in HBeAg-negative adults with CHB, especially for the mutation G1896A (41.1% vs 91.7%, P<0.001), and the average number of BCP/precore region mutations in samples from HBeAg-negative child patients was also obviously lower than in HBeAg-negative adult patients(3.62±3.03 vs 4.89±2.09, P<0.001), suggesting less impact of mutations in the BCP/precore region on HBeAg seroconversion in child patients than adult patients.     

反向斑点杂交法检测HBV基本核心启动子区A1762T／G1764A突变的实验研究

目的建立一种基于尼龙膜的反向斑点杂交法,用于检测乙型肝炎病毒（HBV）基本核心启动子区（BCP）A1762T／G1764A突变。方法根据我国HBV主要流行的基因型为B和C,从GenBank上查出4种HBVBCP序列。利用在线工具ClustalW进行比对,针对该突变位点设计引物和检测探针。探针经合成和修饰后点在带正电的尼龙膜上。将反向斑点杂交法结合地高辛检测试剂盒用于检测A1762T／G1764A突变,以测序法确定该区域序列的标本为检测对象。结果反向斑点杂交法分别检测5例A1762／G1764病毒株、2例T1762／G1764病毒株、5例A1762／A1764病毒株和4例T1762／A1764病毒株,结果与测序完全相同。结论应用本方法可以快速、准确地HBV相关的热点突变。     

乙型肝炎病毒全基因序列的测定

测定７ 例慢性 Ｈ Ｂ Ｖ 携带者 Ｈ Ｂ Ｖ 基因组全序列,经同源性比较,确定基因型。２ 例基因型为 Ｂ 型,余均为 Ｃ 型;血清型ａｄｒ ４ 例,ａｄｗ ３ 例。各序列间 Ｘ 基因差异最大。未见 Ａ１８９６ 、 Ｔ１７６２ Ａ１７６４等重要位点的变异。结合已有的２ 株 Ｈ Ｂ Ｖ 中国流行株全基因序列,初步建立以中国流行株序列为基础的 Ｈ Ｂ Ｖ 标准序列,该标准序列与国外标准序列仅有２２ 个位点的差异     

High Endemicity and Low Molecular Diversity of Hepatitis B Virus Infections in Pregnant Women in a Rural District of North Cameroon

Background

A program, supported by the GEMHEP (Groupe d''étude Moléculaire des Hépatites), was established in 2007 in the sanitary district of Tokombéré, to prevent perinatal transmission of hepatitis B virus (HBV). It comprises screening for HBV surface antigen (HBsAg) in all pregnant women and vaccinating the newborn if tests are positive.

Methods/Principal Findings

1276 women were enrolled in the study after providing informed consent. Demographic data and blood samples were available for 1267 of the enrolled patients. HBsAg was determined locally using a rapid test (Vikia HBsAg, Biomerieux). Tests for HBV and HDV virological markers (HBeAg, anti-HDV antibodies (Ab), HBV-DNA, HDV-RNA, HBV and HDV genotypes) were performed on the confirmed HBsAg-positive samples in the virology unit of the Angers University Hospital (France). HBsAg was found in 259 of the 1267 pregnant women (20.4%) between January 2009 and April 2010, of whom 59 were HBeAg-positive (22.7%) with high levels of HBV-DNA. Anti-HDV Ab were found in 19 (7.3%) of the HBsAg-positive women. The prevalence rates of HBsAg and HDV were not age-dependent whereas HBeAg carriers were statistically younger than non carriers. Basal core promoter (BCP) and precore (PC) mutations and genotypes were determined by sequencing. Of 120 amplified sequences, 119 belonged to HBV genotype E (HBV/E) and the 9 HDV strains belonged to HDV clade 1. In the PC region, 83/228 patients (36.4%) harbored a G1896A mutant or mixed phenotype virus. In the BCP region, the double mutation A1762T/G1764A and the G1757A substitution were detected respectively in 26/228 patients (11.4%) and 189/228 patients (82.8%).

Conclusions

Our results confirm the high prevalence and low molecular diversity of HBV in Far Northern Cameroon; more than 20% of the infected women were highly viremic, suggesting a high rate of HBV perinatal transmission and supporting the WHO recommendation to vaccinate at birth against hepatitis B.     

野生型及突变型乙型肝炎病毒X基因在pGEX-6P-2系统中的克隆、表达、纯化及免疫鉴定

构建野生型和A1762T/G1764A双突变型乙型肝炎病毒(HBV)X基因原核表达系统,为深入研究HBV X基因及其双突变后对HBV慢性感染者病情发展和肿瘤发生的作用奠定基础。从慢性乙型肝炎患者血清中抽提HBV基因组DNA,经PCR扩增和基因测序,证实并获得野生型及A1762T∕G1764A双突变型HBV X基因。应用TA克隆及亚克隆技术将2基因分别插入pGEX-6P-2载体,构建pGEX-6P-2-hbvxw(野生型)及pGEX-6P-2-hb-vxm(A1762T∕G1764A突变型)重组表达载体;转化入宿主菌进行诱导表达;包涵体复性后,GSTrap FF蛋白纯化柱纯化带有GST标签的野生型和A1762T∕G1764A突变型HBV x抗原(HBxAg);应用SDS-PAGE、Westernblot和ELISA方法对表达的野生型和突变型HBxAg进行鉴定。结果SDS-PAGE证实本研究构建的2个表达系统均能高效表达目的蛋白;复性、纯化后野生型和突变型GST-HBxAg分别达到4.88mg/mL和5.07mg/mL;Western blot鉴定证实所纯化的野生型和突变型HBxAg均能被特异性的单克隆抗体所识别;ELISA方法检测显示2种抗原都能成功包被于微量滴定板上并与乙肝患者血清反应。证实本研究成功地构建了野生型和A1762T∕G1764A突变型HBxAg表达系统,为进一步研究A1762T∕G1764A基因突变对肿瘤发生学和慢性HBV感染者疾病进展的作用和分子机制奠定了基础。