应用实时定量RT-PCR技术检测b地中海贫血 珠蛋白基因的表达

为了定量检测 b 地中海贫血(b 地贫)的 a、b 和γ珠蛋白基因表达水平, 提取正常成人对照组、正常胎儿对照组和b 地贫患者组组成的样本 DNA,采用反向点杂交法（RDB）分析b 地贫各种突变类型;提取样本RNA用于进行针对a、b 和γ珠蛋白基因的荧光实时定量RT-PCR（FQ RT-PCR）。根据FQ RT-PCR原理,设计合成分别对应于a、b 和γ珠蛋白基因的3对引物和3条荧光探针,FQ RT-PCR在ABI 7700系统进行。用SPSS 10.0对实验数据进行统计学分析,分别计算正常对照组 (bA/bA,aa/aa),脐带血组(bA/bA,aa/aa),轻型b 地贫组(bT/bA,aa/aa),重型b地贫组(bT/bT,aa/aa)的a、b 和γmRNA比值,其中a/b分别为4.62±1.20、7.81±2.89、13.51±5.12、188.24±374.04;a/(b +γ)分别为4.43±1.17、0.56±0.49、9.62±4.37、2.14±1.58;γ/(b+γ) 分别为0.04±0.03、0.92±0.06、0.28±0.18、0.95±0.04。由于组与组之间均值变异范围较大,将其进行对数转换后再进行方差分析。结果表明： a/b与a/(b+γ)在所有组与组之间均有显著性差异。γ/(b+γ)除了在脐带血组和重型b地贫组之间无显著性差异外,在其他组与组之间均有显著性差异。实验说明,人类b珠蛋白基因的表达水平从正常对照组到重型b地贫组急剧下降且以重型b地贫组为最低;相反γ珠蛋白基因表达却明显升高,以重型b地贫组为最高。与正常成人对照组相比,胎儿期b mRNA水平较低但γmRNA 水平较高。因此,正常个体不同时期和不同类型b 地贫之间a、b与γ珠蛋白基因表达不同而且互相影响。 Abstract：whole blood samples were collected from 100 normal healthy adults, from umbilical cord of 33 newborn infants, 111 individuals with b-thalassemia minor (bT/bA,aa/aa) and 39 with b-thalassemia major (bT/bT,aa/aa). Prior to quantitative analysis of globin gene expression, DNA was extracted from all blood samples and used for b-thalassemia genotype analysis. Different types of b globin gene mutations were analyzed using reverse dot blotting (RDB) method. Total RNA were extracted and subjected to real-time RT-PCR for quantitative measurement of a, b andγglobin mRNA using three sets of primers and fluorescent-labeled probes, designed according to the sequences of a, b andγhuman globin gene. Real-time RT-PCR was performed in ABI 7700 system. Following the real-time RT-PCR, the mean values of a, b andγglobin mRNA were calculated and the ratios of a/b, a/(b + γ) andγ/(b + γ) were determined to characterize the relative expression levels of different globin genes among normal adult, infant, b-thalassemia minor and b-thalassemia major patients. The resultant data were analyzed using SPSS 10.0 software to determine statistical significance of human globin gene expression among normal controls and b-thalassemia patients. Due to vast variations of the mean globin gene mRNA levels among different groups, log conversion of a/b + 1, a/(b + γ) + 1 andγ/(b + γ) +1 was used for statistical analyses and intergroup comparison. The a/b globin gene mRNA ratios were determined to be 4.62±1.20, 7.81±2.89, 13.51±5.12, and 188.24±374.04 for normal healthy adult (bA/bA,aa/aa), infant (bA/bA,aa/aa), b- thalassemia minor (bT/bA,aa/aa) and b-thalassemia major(bT/bT,aa/aa) respectively. The a/(b+γ) ratios were 4.43±1.17, 0.56±0.49, 9.62±4.37, and 2.14±1.58 for normal healthy adult (bA/bA,aa/aa), infant (bA/bA,aa/aa), b- thalassemia minor (bT/bA,aa/aa) and b- thalassemia major(bT/bT,aa/aa) respectively. Theγ/(b+γ) ratios were 0.04±0.03, 0.92±0.06, 0.28±0.18, and 0.95±0.04 for normal healthy adult (bA/bA,aa/aa), infant (bA/bA,aa/aa), b- thalassemia minor (bT/bA,aa/aa) and b- thalassemia major(bT/bT,aa/aa) respectively. Following statistical analyses, the a/b and a/(b+γ) globin gene mRNA ratios were significantly different among four different groups (normal adult, normal infant, b- thalassemia minor and b- thalassemia major). The γ/(b + γ) globin gene mRNA ratio was significantly different among all groups except for between infant and b- thalassemia major patients. Human b globin gene mRNA levels decrease progressively and dramatically from normal adults to b-thalassemia patients with b-thalassemia major having the lowest levels. On the other hand, the γglobin gene mRNA levels increase progressively from normal adult to b-thalassemia patients with b-thalassemia major having the highest levels. Infants have relatively lower levels of b but higher levels of γglobin gene mRNA as compared to those in normal adults. Thus, the relative expression levels of a, b or γglobin genes varied but inter-related among different ages of normal individuals and different b-thalassemia genotypes.     

人地中海贫血β654基因作为外源基因用于转基因的制备方法

目的探讨人地中海贫血β654基因为外源基因用于转基因小鼠制作时,外源基因的制备方法,为进一步制作转基因小鼠打下基础。方法采用反向点杂交法确诊人地中海贫血β654纯合子DNA,以PCR法扩增获得人地中海贫血β654基因,分离纯化后,通过连接酶反应将其克隆入含βLCR调控序列的基础载体pBGT51质粒中,经PCR扩增、酶切、反向点杂交及DNA测序鉴定重组质粒,用EcoRⅤ酶切获得转基因所用的外源基因。结果将人地中海贫血β654基因作为外源基因克隆入基础载体pBGT51质粒中构建了重组质粒βBGT51,用EcoRV酶切获得含人β654基因及βLCR调控序列的6.5kb的DNA片段,制备了可用于显微注射转基因的外源基因。结论采用该方法构建的含人地中海贫血β654基因的重组质粒,可获得用于显微注射转基因的外源基因。