白纹伊蚊细胞色素P450 CYP6家族基因多样性的研究(英文)

根据已获得的白纹伊蚊CYP6家族某成员cDNA序列片段AEDR ,设计基因特异性引物 ,以白纹伊蚊总RNA为模板 ,进行cDNA末端快速扩增 ,扩增产物经T -A克隆、测序。结果显示 :通过 5’ RACE获得 1个非全长cDNA序列 (GZS331 ) ,其与CYP6N1、CYP6N2的同源性分别为 59 8%和 59 1 % ,与CYP6N3v1 -v3同源性最高 ,达 83 9% - 84 3% ;通过 3’ RACE获得 6个非全长cDNA序列 ,其中来自抗性株的GZG0 33序列与CYP6N3v1 -v3的同源性达 98 2 % - 99 1 % ,而其余 3’ RACE克隆与CYP6N3v1 -v3的同源性则达 84 3% - 85 6%。上述所有非全长cDNA序列均与哺乳动物CYP3A1以及夜蛾CYP9A1有较高的同源性 ,分别为 2 3% - 36 1 %和 2 7 6% - 34 1 %。用PC/GENE软件所绘制的系统树显示出与同源性分析相一致的结果。所得非全长cDNA序列上报国际P450命名委员会进行统一的命名 ,并对蚊虫中细胞色素P450基因多样性及其形成原因进行了分析     

草鱼CYP1A和ACT基因cDNA片段的克隆与鉴定

以Trizol法分别提取BNF诱导和对照处理草鱼的肝组织总RNA并合成cDNA第一链,以此为模板利用1对ACT特异性引物和(8条)6对CYP1A简并引物进行扩增。结果显示,引物对F0-R0在对照和诱导草鱼中均扩增得到预期ACTcDNA片段,而引物对F4-R4在诱导草鱼中获得预期CYP1A cDNA产物。这两个cDNA片段分别进行克隆、测序和比对,BLAST结果表明草鱼ACTcDNA片段(800 bp)与GenBank中ACT基因(登录号M25013)同源性为99.1%,推导氨基酸序列同源性为99.2%;草鱼CYP1A cDNA片段(439 bp)与鲤鱼同源性最高,为92.5%,推导氨基酸同源性为96.6%。上述序列提交GenBank,获得登录号分别为DQ211096和DQ211095。通过Mega 3.1软件的Neighbor-joining程序对CYP基因的部分cDNA序列和氨基酸序列进行比对分析并绘制进化树,根据CYP1A部分蛋白的系统发育关系,在进化上可以将参与比对的真骨鱼划分为4个主要的分支。     

用改良消减杂交结合选择性PCR法构建老年性白内障消减cDNA文库

为构建含较多大片段的高质量的老年性白内障消减cDNA文库 ,利用生物素标记、磁珠分离的改良消减杂交法获得差异cDNA .利用选择性PCR法扩增其中大片段差异cDNA ,将其与T 载体进行T A连接并转化入大肠杆菌 ,成功构建老年性白内障消减cDNA文库 .共获得 4 0 0 0余个克隆 ,随机挑取的 2 2个克隆中 ,≥ 10 0 0bp的片段有 7个 ,占 31 8% ,≥ 75 0bp有 15个 ,占 6 8 2 % .将≥ 75 0bp的 15个克隆进行反向点杂交 ,排除其中假阳性克隆 ,阳性克隆经测序并与GenBank比较 ,得到 6个已知基因、1个新基因 ,6个已知基因中 4个为全长基因 ,说明所得cDNA片段较大 ,文库质量较高 .改良消减杂交法结合选择性PCR法可以快速有效地获得大片段高质量的消减cDNA文库 ,为进一步筛选、鉴定老年性白内障致病相关基因奠定了基础     

雌核发育银鲫原肠期胚胎和尾芽期胚胎差异表达基因的呈现

构建了雌核发育银鲫原肠期胚胎和尾芽期胚胎间的抑制性差减杂交cDNA质粒文库。对原肠期’739个和尾芽期816个PCR阳性克隆进行斑点杂交,得到72个原肠期和98个尾芽期斑点杂交阳性克隆。测序和基因数据库比对结果表明：72个原肠期斑点杂交阳性克隆中,包括19个已知基因的cDNA片段和31个没有同源性的cDNA片段;98个尾芽期斑点杂交阳性克隆中,包括52个已知基因的cDNA片段和37个没有同源性的cDNA片段。采用虚拟Northern杂交和RT-PCR证实了部分基因在银鲫胚胎发育过程中的差异表达。这些差异表达基因的呈现为进一步研究银鲫胚胎发育的分子机制奠定了基础。     

两种泥鳅芳香化酶基因的克隆与时空表达

鱼类的性别分化易受发育环境的影响。向性成熟的泥鳅和大鳞副泥鳅个体注射绒毛膜促性腺激素,获得卵子和精子进行人工授精。把胚胎分别置于20℃、25℃和30℃条件下,使其发育。经性腺检查发现随着温度的升高两种泥鳅中雄性个体所占的比例明显升高,获得明显的偏雄比率群体。根据已知细胞色素P450芳香化酶CYP19 b基因序列设计嵌套简并引物用巢式PCR扩增并克隆出了两种泥鳅的CYP19 b的DNA片段。MaCYP19 b片段和Pd-CYP19 b片段分别长1337bp和1473bp。在此基础上用各自的特异引物克隆出两种泥鳅CYP19 b的相应cDNA片段。通过基因组DNA和cDNA序列的比较证明两种泥鳅的CYP19 b基因均包含三个内含子和四个外显子,编码的蛋白质序列长145氨基酸残基。以GAPDH基因为对照,分别对两种泥鳅成体组织和不同发育阶段的胚胎的CYP19 b进行了半定量RT-PCR表达分析,结果表明泥鳅CYP19 b基因只在成体泥鳅卵巢、肾以及原肠胚和神经胚中表达。大鳞副泥鳅CYP19 b基因在成体的脑、卵巢和肾以及神经胚和卵黄吸收期表达。这些结果为揭示细胞色素P450芳香化酶基因与环境性别决定机制的关系奠定了基础。       

鹅源新城疫病毒ZJI株基因组cDNA克隆的序列修饰

将鹅源新城疫病毒ZJI株全基因组cDNA克隆通过酶切切下包含T7启动子区域和转录载体的片段,将其自身环化后获得约6．5kb的质粒。设计引物,利用基因定点突变技术,在此质粒上T7启动子与NDV Leader序列之间突变插入额外的3个G碱基,将此突变最终引入到原基因组cDNA克隆中。应用RT—PCR技术从尿囊液中扩增NDV基因组F／HN基因区域部分片段,利用限制性内切酶BsmBI将扩增片段连接,最终将原cDNA克隆中相应片段替换下。测序结果表明,原基因组cDNA克隆中特定位置碱基插入突变成功,F／HN基因区域碱基突变均得以纠正。以上cDNA克隆的修饰与替换为该毒株的反向遗传研究打下了基础。     

利用锌指基序的保守性从人脑组织分离新的C_2H_2型锌指蛋白基因表达序列

本文利用锌指基序的保守性设计引物,在低严谨条件下扩增人基因组总DNA,获得8个长度呈梯度的PCR扩增产物电泳条带。取其中第2和第3电泳条带,回收DNA片段并将它们克隆,经测序和查新比较,共获得60个含有锌指蛋白基因基序的单一的序列,其中23个为新的锌指蛋白基因DNA片段。以它们为探针,杂交筛选人脑组织cDNA文库,得到初筛cD-NA克隆44个。对其中28个初筛cDNA克隆进行复筛之后,得到20个cDNA单克隆。对这些阳性克隆进行测序,读出18个含有锌指蛋白基因基序的序列,国际联网查新之后,证明其中16个是新的锌指蛋白基因片段。这些新的锌指蛋白基因片段为今后克隆有意义的全长锌指蛋白cDNA提供了重要的实验材料。     

中华鳖孵化一周胚胎的肾脏/尿生殖嵴混合组织的cDNA文库构建与特征

为克隆到与胚胎发育有关的新基因,以孵化一周的中华鳖(Trionyxsinensis)胚胎的肾脏及尿生殖嵴混合组织为原始材料,采用SMART和长距离PCR技术,构建了一个中华鳖cDNA表达文库。分析结果表明,该未扩增的cDNA文库大约含有4.134×105个克隆。任意挑取了192个克隆,提取质粒后用SfiⅠ酶切鉴定表明没有插入片段的克隆为9个,插入了cDNA片段的克隆为183个,插入的cDNA片段大小范围为0.4-3.8kb。其中,插入片段在0.4-1.0kb之间的克隆为19个,在1.1-2.0kb之间的克隆为53个,在2.1-3.0kb之间的克隆为92个,大于3.1kb的克隆为19个。另外,任意挑选45个克隆,提取质粒后,从5′端进行测序,Blast分析表明,除了21个序列在GenBank中找不到同源序列外,其余24个序列在GenBank中均被证实有各自相应的同源序列,这些序列代表6种类型的基因核糖体蛋白基因、代谢酶基因、组织特异性表达的基因、转录因子基因、受体蛋白基因及其它基因。该发育阶段特异性cDNA文库可以进一步用于中华鳖胚胎发育过程中相关基因的鉴定分离、结构功能分析、以及表达调控机制等研究。     

用一个简单快速的RT-PCR技术筛选白细胞介素-6作用相关基因

为了研究白细胞介素-6(IL-6)作用相关基因以及一些可能受IL-6调控的基因,利用一个简单快速的以PCR为基础的方案,检测了IL-6处理和未处理的Sko007细胞中基因表达的差异,克隆并鉴定了差异表达基因的cDNA片段.首先用6-mer寡核苷酸引物进行反转录从而最大限度地将mRNA编码区序列生成cDNA;然后用2或3个较长的随机引物进行PCR扩增,并以不同引物组合重复PCR增扩;扩增产物在2%琼脂糖凝胶上电泳分离,回收差异片段并直接用于克隆、测序及进一步分析.在此研究中,获得了3个表达序列标签(EST),其中一个为新的基因片段,反向RNA杂交有力证实了它们与IL-6作用的相关性.进一步的生物信息学分析表明,新基因片段STRF17在多种组织中表达.     

Analysis of cytochrome P450 genes in silkworm genome (Bombyx mori)

Cytochrome P450 monooxygenases (P450) are im-portant metabolic enzymes involved in the metabolism not only of a wide range of endogenous compounds such as fatty acids, steroids, hormones or vitamins, but also of exogenous substrates such as drugs, chemicals including environmental pollutants, such carcinogens as polycyclic aromatic hydrocarbons, and pesticides[1]. P450s are found virtually in all aerobic organisms, including organisms as diverse as in insects, plants, mammals, birds and bacter…     

Functional evaluation of genetic and environmental regulators of p450 mRNA levels

Variations in the activities of Cytochrome P450s are one of the major factors responsible for inter-individual differences in drug clearance rates, which may cause serious toxicity or inefficacy of therapeutic drugs. Various mRNA level is one of the key factors for different activity of the major P450 genes. Although both genetic and environmental regulators of P450 gene expression have been widely investigated, few studies have evaluated the functional importance of cis- and trans-regulatory factors and environmental factors in the modulation of inter-individual expression variations of the P450 genes. In this study, we measured the mRNA levels of seven major P450 genes (CYP1A1, CYP1A2, CYP2C9, CYP2C19, CYP2D6, CYP3A4 and CYP3A5) in 96 liver biopsy samples from Chinese population. Both trans-acting (mRNA levels and non-synonymous SNPs of putative regulator genes) and cis-acting (gene copy number and functional SNPs) factors were investigated to identify the determinants of the expression variations of these seven P450 genes. We found that expression variations of most P450 genes, regulator genes and housekeeping genes were positively correlated at the mRNA level. After partial correlation analysis using ACTB and GAPDH expression to eliminate the effect of global regulators, a UPGMA (Unweighted Pair Group Method with Arithmetic Mean) tree was constructed to reveal the effects of specific regulation networks potentially masked by global regulators. Combined with the functional analysis of regulators, our results suggested that expression variation at the mRNA level was mediated by several factors in a gene-specific manner. Cis-acting genetic variants might play key roles in the expression variation of CYP2D6 and CYP3A5, environmental inducers might play key roles in CYP1A1 and CYP1A2 variation and global regulators might play key roles in CYP2C9 variation. In addition, the functions of regulators that play less important roles in controlling expression variation for each P450 gene were determined.     

The cytochrome P450 gene superfamily in Drosophila melanogaster: annotation, intron-exon organization and phylogeny

The cytochrome P450 gene superfamily is represented by 90 sequences in the Drosophila melanogaster genome. Of these 90 P450 sequences, 83 code for apparently functional genes whereas seven are apparent pseudogenes. More than half of the genes belong to only two families, CYP4 and CYP6. The CYP6 family is insect specific whereas the CYP4 family includes sequences from vertebrates. There are eight genes coding for mitochondrial P450s as deduced from their homology to CYP12A1 from the house fly. The genetic map of the distribution of D. melanogaster P450 genes shows (a) the absence of P450 genes on the chromosome 4 and Y, (b) more than half of the P450 genes are found on chromosome 2, and (c) the largest cluster contains nine genes. Sequence alignments were used to draw phylogenetic trees and to analyze the intron-exon organization of each functional P450 gene. Only five P450 genes are intronless. We found 57 unique intron positions, of which 23 were phase zero, 19 were phase one and 15 were phase two. There was a relatively good correlation between intron conservation and phylogenetic relationship between members of the P450 subfamilies. Although the function of many P450 proteins from vertebrates, fungi, plants and bacteria is known, only a single P450 from D. melanogaster, CYP6A2, has been functionally characterized. Gene organization appears to be a useful tool in the study of the regulation, the physiological role and the function of these P450s.     

Metabolic imidacloprid resistance in the brown planthopper,Nilaparvata lugens,relies on multiple P450 enzymes

Target insensitivity contributing to imidacloprid resistance in Nilaparvata lugens has been reported to occur either through point mutations or quantitative change in nicotinic acetylcholine receptors (nAChRs). However, the metabolic resistance, especially the enhanced detoxification by P450 enzymes, is the major mechanism in fields. From one field-originated N. lugens population, an imidacloprid resistant strain G25 and a susceptible counterpart S25 were obtained to analyze putative roles of P450s in imidacloprid resistance. Compared to S25, over-expression of twelve P450 genes was observed in G25, with ratios above 5.0-fold for CYP6AY1, CYP6ER1, CYP6CS1, CYP6CW1, CYP4CE1 and CYP425B1. RNAi against these genes in vivo and recombinant tests on the corresponding proteins in vitro revealed that four P450s, CYP6AY1, CYP6ER1, CYP4CE1 and CYP6CW1, played important roles in imidacloprid resistance. The importance of the four P450s was not equal at different stages of resistance development based on their over-expression levels, among which CYP6ER1 was important at all stages, and that the others might only contribute at certain stages. The results indicated that, to completely reflect roles of P450s in insecticide resistances, their over-expression in resistant individuals, expression changes at the stages of resistance development, and catalytic activities against insecticides should be considered. In this study, multiple P450s, CYP6AY1, CYP6ER1, CYP4CE1 and CYP6CW1, have proven to be important in imidacloprid resistance.     

Drosophila melanogaster CYP6A8, an insect P450 that catalyzes lauric acid (omega-1)-hydroxylation

Only a handful of P450 genes have been functionally characterized from the approximately 90 recently identified in the genome of Drosophila melanogaster. Cyp6a8 encodes a 506-amino acid protein with 53.6% amino acid identity with CYP6A2. CYP6A2 has been shown to catalyze the metabolism of several insecticides including aldrin and heptachlor. CYP6A8 is expressed at many developmental stages as well as in adult life. CYP6A8 was produced in Saccharomyces cerevisiae and enzymatically characterized after catalytic activity was reconstituted with D. melanogaster P450 reductase and NADPH. Although several saturated or non-saturated fatty acids were not metabolized by CYP6A8, lauric acid (C12:0), a short-chain unsaturated fatty acid, was oxidized by CYP6A8 to produce 11-hydroxylauric acid with an apparent V(max) of 25 nmol/min/nmol P450. This is the first report showing that a member of the CYP6 family catalyzes the hydroxylation of lauric acid. Our data open new prospects for the CYP6 P450 enzymes, which could be involved in important physiological functions through fatty acid metabolism.     

Isolation and sequence analysis of P450 genes from a pyrethroid resistant colony of the major malaria vector Anopheles funestus.

Pyrethroid resistance has been demonstrated in populations of Anopheles funestus from South Africa and southern Mozambique. Resistance is associated with elevated P450 monooxygenase enzymes. In this study, degenerate primers based on conserved regions of Anopheles gambiae P450 CYP4, 6 and 9 families were used to amplify genomic and cDNA templates from A. funestus. A total of 12 CYP4, 12 CYP6 and 7 CYP9 partial genes have been isolated and sequenced. BLAST results revealed that A. funestus P450s generally have a high sequence identity to A. gambiae with above 75% identity at the amino acid level. The exception is CYP9J14. The A. gambiae P450 showing highest identity to CYP9J14 exhibits only 55% identity suggesting that CYP9J14 may have arisen from a recent duplication event. Molecular phylogenetic analysis based on amino acid sequences also supported this hypothesis. Intron positions, but not size, were highly conserved between the two species. The high level of orthology that exists in the P450 gene families of these two species may facilitate the prediction of individual P450 protein function.     

Permethrin Induction of Multiple Cytochrome P450 Genes in Insecticide Resistant Mosquitoes,Culex quinquefasciatus

The expression of some insect P450 genes can be induced by both exogenous and endogenous compounds and there is evidence to suggest that multiple constitutively overexpressed P450 genes are co-responsible for the development of resistance to permethrin in resistant mosquitoes. This study characterized the permethrin induction profiles of P450 genes known to be constitutively overexpressed in resistant mosquitoes, Culex quinquefasciatus. The gene expression in 7 of the 19 P450 genes CYP325K3v1, CYP4D42v2, CYP9J45, (CYP) CPIJ000926, CYP325G4, CYP4C38, CYP4H40 in the HAmCqG8 strain, increased more than 2-fold after exposure to permethrin at an LC50 concentration (10 ppm) compared to their acetone treated counterpart; no significant differences in the expression of these P450 genes in susceptible S-Lab mosquitoes were observed after permethrin treatment. Eleven of the fourteen P450 genes overexpressed in the MAmCqG6 strain, CYP9M10, CYP6Z12, CYP9J33, CYP9J43, CYP9J34, CYP306A1, CYP6Z15, CYP9J45, CYPPAL1, CYP4C52v1, CYP9J39, were also induced more than doubled after exposure to an LC50 (0.7 ppm) dose of permethrin. No significant induction in P450 gene expression was observed in the susceptible S-Lab mosquitoes after permethrin treatment except for CYP6Z15 and CYP9J39, suggesting that permethrin induction of these two P450 genes are common to both susceptible and resistant mosquitoes while the induction of the others are specific to insecticide resistant mosquitoes. These results demonstrate that multiple P450 genes are co-up-regulated in insecticide resistant mosquitoes through both constitutive overexpression and induction mechanisms, providing additional support for their involvement in the detoxification of insecticides and the development of insecticide resistance.