赤水河外来鱼类尖头(鱥)和董氏须鳅的引种溯源及生态适应性分析

历史上,赤水河流域干流及支流的鱼类物种组成中未曾出现过尖头(鱥)(Rhynchocypris oxycephalus)和董氏须鳅(Barbatula toni).但是,近年来在赤水河支流白沙河的鱼类资源调查中发现了这两个物种的分布,其来源及未来的生存可能性受到关注.本研究比较了尖头(鱥)赤水河野外种群与养殖种群形态上的...     

Structural features and molecular evolution of Bowman-Birk protease inhibitors and their potential application

The Bowman-Birk inhibitors (BBIs) are well-studied serine protease inhibitors that are abundant in dicotyledonous and monocotyledonous plants. BBIs from dicots usually have a molecular weight of 8k and are double-headed with two reactive sites, whereas those from monocots can be divided into two classes, one approximately 8 kDa in size with one reactive site (another reactive site was lost) and the other approximately 16 kDa in size with two reactive sites. The reactive site is located at unique exposed surfaces formed by a disulfide-linked β-sheet loop that is highly conserved, rigid and mostly composed of nine residues. The structural features and molecular evolution of inhibitors are described, focusing on the conserved disulfide bridges. The sunflower trypsin inhibitor-1 (SFTI-1), with 14 amino acid residues, is a recently discovered bicyclic inhibitor, and is the most small and potent naturally occurring Bowman-Birk inhibitor.Recently, BBIs have become a hot topic because of their potential applications. BBIs are now used for defense against pathogens and insects in transgenic plants, which has advantages over using toxic and polluting insecticides. BBIs could also be applied in the prevention of cancer, Dengue fever, and inflammatory and allergic disorders, because of their inhibitory activity with respect to the serine proteases that play apivotal role in the development and pathogenesis of these diseases. The canonical nine-residue loop of BBIs/STH-1 provides an ideal template for drug design of specific inhibitors to target their respective proteases.     

转基因在玉米中的遗传分离与整合特性的研究

用ＰＣＲ和ＤＮＡ分子杂交方法研究了转基因Ｂｔ在３种不同方法获得的８个转化体后代中的遗传分离、整合性质及其稳定性,结果表明：（１）转基因在大多数转化体后中呈简单的孟德尔遗传;在Ｒ１至Ｒ２代,部分家系中转化体比例偏低,有的发生转基因丢失,但到Ｒ３代以后均趋于正常的孟德尔遗传方式,在群体中固定下来;（２）转基因在不同转化体中的整合类型有一定差异,但整合的位点和拷贝数都较少,且多呈串联或紧密连锁的整合;（     

基因组学方法在玉米种质资源研究中的应用

近年来,分子生物学和植物基因组学得到了飞速发展,包括分子标记技术在内的基因组学方法在玉米种质资源研究中得到了广泛应用。本将对玉米种质资源研究的主要领域如玉米的起源和进化、遗传多样性的形成机制及评估、基于多样性的新基因发掘等方面的最新进展进行评述,并提出我国在应用基因组学方法进行玉米种质资源研究的策略。     

Differential effects of p63 mutants on transactivation of p53 and/or p63 responsive genes

p63, known to play a role in development, has more recently also been implicated in cancer progression. Mutations in p63 have been shown to be responsible for several human developmental diseases. Differential splicing of the p63 gene gives rise to p63 isoforms, which can act either as tumor suppressors or as oncogene. In this report, we studied the effects of naturally occurring TAp637 mutants on the regulation of p53/p63 and p63 specific target genes. We observed significant differences among p63 mutants to regulate the p53/p63 and p63 specific target genes. Additionally, we observed a differential effect of p63 mutants on wildtype-p63-mediated induction ofp53/p63 and p63 specific target genes. We also demonstrated that these mutants differentially regulate the binding of wildtype p63 to the promoter of target genes. Furthermore, the effects of these mutants on cell death and survival were consistent with their ability to regulate the downstream targets when compared to wildtype TAp63T. In summary, our data demonstrate that p63 mutants exhibit differential effects on p63 and p53/p63 specific target genes and on the induction of apoptosis, and provide further insight into the function of p63.     

Pax-6基因在发育中的表达与动物眼的进化

近年在脊椎动物和无脊椎动物中分离出Pax-6基因及其同源基因,这些基因都与动物的眼与神经系统的发育和形态发生有关.本文着重比较了无脊椎动物果蝇、文昌鱼、哺乳动物小鼠和人的Pax-6基因编码蛋白,Pax-6基因在发育过程中的表达,Pax-6与眼进化的关系等几个方面,并介绍Pax-6基因为靶基因的转基因果蝇的上游制作技术和原理.探讨了Pax-6基因作为眼发育的主导基因的作用和时空表达模式的保守性.     

不稳定EGFP细胞模型的构建及其在基因编辑体系评价中的应用*

目的:为了更好地评价基因编辑效率,满足高通量筛选应用中快速、高效的检测要求,在细胞上建立一个原位检测方法具有重要的意义。通过检测荧光蛋白信号强度的变化可以评价CRISPR系统在细胞中的基因编辑情况,然而这一方法的效率受限于荧光蛋白较长的半衰期。方法:将鸟氨酸脱羧酶降解结构域(含PEST序列)与EGFP融合,通过慢病毒系统感染HEK-293T细胞,获得了表达单拷贝、EGFP-PEST报告基因的稳转细胞系。结果:与EGFP相比,EGFP-PEST在细胞内的降解速度明显加快,荧光水平在4 h内显著降低。利用该模型比较了3种商品化脂质体介导的CRISPR/Cas9基因编辑效率,能够在2~4 d实现定性和定量评价。结论:这一模型能够快速、灵敏地指示基因编辑效果,可以用于不同CRISPR系统或新递送工具的高通量筛选和评价。     

昆虫P-450基因特点及研究现状

细胞色素P－450在生物体内的重要作用和功能正日益受到人们的关注,尤其是在药物代谢和致癌机理的研究中引起了人们的广泛兴趣。人们对P－450的研究已深入到基因水平,目前被克隆测序的P－450cDNA已多达300种以上,而且不断有其在体外表达的报道。这主要基于把人、鼠、兔、猴、狗等高等动物作为研究对象[1,2]。虽然,人们很早就认识到P－450在昆虫体内代谢外源性物质和产生抗药性过程中的重要作用,但对昆虫P－450基因的研究起步较晚,目前尚只对少数几种昆虫的P－450研究深入到基因水平。本文简要介绍近年来昆虫P－450基因的研究现状…     

宫颈癌患者血浆和组织中FHIT基因5′端CpG岛甲基化状态的研究

为了检测宫颈癌患者血浆和组织中FHIT基因5′端CpG岛甲基化状态, 以找到无创伤性诊断宫颈癌的新指标, 选取151例宫颈癌患者的血浆和30例患者的宫颈癌组织为研究对象,用MSP的方法检测FHIT基因5′端CpG岛甲基化状态, 并对MSP产物进行克隆和测序。结果在宫颈癌患者血浆和组织中, FHIT基因5′端CpG岛甲基化率为30.46%和53.33%, 血浆和组织的总体符合率为80%。而对照中均未检测到甲基化状态。随着患者临床分期和组织学分级的增加, FHIT基因甲基化的检出率也在逐渐的增加。表明宫颈癌患者的血浆和肿瘤组织中FHIT基因5′端CpG岛甲基化的发生是高频事件, 使用FHIT基因作为标记可以对宫颈癌患者进行无创伤诊断和预后的评估。     

犬圆环病毒全基因组克隆与序列分析

犬圆环病毒(Dog circovirus,DogCV)是近年来新发现的一种哺乳动物圆环病毒。为研究DogCV中国流行毒株基因组特性和遗传进化,以犬血清样品提取的DNA为模板,采用重叠PCR技术首次获得DogCV中国流行毒株的全基因组序列,命名为JZ98/2014。序列分析表明JZ98/2014全基因组长度为2063nt,编码3个主要开放阅读框:ORF V1(Rep蛋白,303个氨基酸)、ORF C1(Cap蛋白,270个氨基酸)和ORF C2(106个氨基酸)。同源性比较显示JZ98/2014与美国、欧洲流行毒株的全基因组序列同源性为82.1%-89.5%,而Rep和Cap基因同源性分别为82.1%-89.5%和84.6%-89.1%。遗传进化树分析显示,目前世界流行的DogCV存在多个分支,而JZ98/2014与美国、欧洲流行毒株处于不同分支。