Genomic structure analysis of SNC6, a progesterone-receptor associated protein gene, and cloning and characterization of its 5＇-flanking region

Objective: To analyze the genomic structure of SNC6, a progesterone\|receptor associated protein gene and its regulatory elements in its 5'\|flanking region. Methods: Genomic sequence from GenBank database (accession number: Z98048) covering the whole SNC6 gene was used to analyze the genomic structure of SNC6 and design primers for PCR amplification of its 5'\|flanking region. A 1894 bp fragment of the 5'\|flanking region \{(-1814\} to +75) was cloned by PCR using genomic DNA from a healthy donor peripheral blood lymphocyte as template. This fragment, as well as 3 shorter derivative fragments (1423 bp, 632 bp and 416 bp, which correspond to -1344 to +75, -552 to +75 and -337 to +75 respectively), were subcloned into pGL2 series luciferase reporter vectors. These constructs were introduced into colorectal cancer cell line SW620 for transient expression of reporter gene and luciferase activities were measured. Results: The genomic structure analysis showed there are 12 exons for SNC6 gene, which spans 32017 bp (nt71529 to nt39513 in Z98048 sequence). All transfected SW620 cells with the above 5\|flanking region\|containing constructs showed luciferase activities. The highest luciferase activities were measured in transfected cells with vectors containing 1894 bp fragments, and the lowest luciferase activities were measured in transfected cells with vectors containing 416 bp fragments. Luciferase activities were higher in transfected cells with vectors containing 632 bp fragments than that in transfected cells with vectors containing 1423 bp fragments. Conclusion: The basic transcription\|promoting element (promoter) for SNC6 expression resides between 0 to -337, and two transcription\|enhancing elements (enhancer) resides between -337 to -552 and -1344 to -1814, whereas one transcription\|inhibiting element (silencer) exists between -552 to -1344.

The hepatitis C virus 5’ untranslated region gene amplified by rapid amplification of cDNA ends and its secondary structure

Objectives: To obtain very end full-length cDNA ofhepatitis C virus (HCV) 5’ untranslated region(5’UTR) and analyze its primary and secondarystructure.Methods: A patient infected genotype 2a HCV wasidentified by reverse transcription-nested polymerasechain reaction (RT-PCR) and restriction fragmentlength polymorphism (RFLP). Total RNA isolatedfrom the serum was used as template, and the cDNAof the 5’ untranslated region was amplified using rap-id amplification of cDNA ends (RACE). The frag-ments were recombinated by A-T clone strategy, andthe recombinants were confirmed by RFLP andPCR, and sequenced subsequently. Secondary struc-tures were analysed by RNAdraw.Results: Very end full-length cDNA of genotype 2aHCV 5’ UTR was obtained by RACE. In five clonesobtained, three contained full-length 5’UTR cDNA;A21G, G170A, T222C, T247C, C339T substitutionswere found as compared to HC-J6. Homological re-sults of HCV-1, HC-J6, HC-C2, HC-J8 were 93.6%-94.4%, 92.1%-93%, 98.8%-99.7%, 96.2%-96.5%, respectively; however, the substitutions didnot alter secondary structure. Two of 5 clones weredeletions of 53bp and 135bp at the 5’terminal ofHCV 5’UTR, respectively.Conclusions: RACE can be used to obtain the full-length cDNA of 2a genotype HCV 5’UTR. Genes de-leted at the 5’ terminal of HCV circulate in hepatitisC patients.

Molecular cloning and analysis of the partial sequence of Rhinopithecus roxellanae growth hormone gene

Growth hormone gene (GH) ofRhinopithecus roxellanae was amplified by PCR based on the sequences of the reported mammalian growth hormone gene for the first time. The amplified fragment was about 1.8 kb. It was cloned and its upper stream was sequenced. This sequencing region consists of a 5′flanking regulatory region, exon I and part of exon II, intron I of growth hormone gene. Comparing the corresponding sequences of growth hormone gene betweenRhinopithecus roxellanae and the porcine, we concluded that the homology reached 81% in the region, and there was high conservation in the 5′flanking sequence. The kinds of amino acids of exon I and exon II for about 90% were the same to those in pig. Many mutations occurred in the degenerate site of the triplet code. In the nucleotides of intron I, there were only 72% homologies with those in pig. It means that introns and 3′flanking sequence maybe play an important part in growth hormone gene regulation of the different animals.

Analysis and validation of genome-specific DNA variations in 5′flanking conserved sequences of wheat low-molecular-weight glutenin subunit genes

The thirty-three 5′ flanking conserved sequences of the known low-molecular-weight subunit (LMW-GS) genes have been divided into eight clusters, which was in agreement with the classification based on the deduced N-terminal protein sequences. The DNA polymorphism between the eight clusters was obtained by sequence alignment,; a total of 34 polymorphic positions were observed in the approximately 200 bp regions, among which 18 polymorphic positions were candidate SNPs. Seven cluster-specific primer sets were designed for seven out of eight clusters containing cluster-specific bases, with which the genomic DNA of the ditelosomic lines of group 1 chromosomes of a wheat variety ‘Chinese Spring’ was employed to carry out chromosome assignment. The subsequent cloning; DNA sequencing of PCR fragments validated the sequences specificity of the 5′ flanking conserved sequences between LMW-GS gene groups in different genomes. These results suggested that the coding; 5′ flanking regions of LMW-GS genes are likely to have evolved in a concerted fashion. The seven primer sets developed in this study could be used to isolate the complete ORFs of seven groups of LMW-GS genes, respectively,; therefore possess great value for further research in the contributions of a single LMW-GS gene to wheat quality in the complex genetic background; the efficient selections of quality-related components in breeding programs.

鳜鱼(Siniperca chuatsi)β-肌动蛋白基因cDNA全序列与5′侧翼区的克隆与分析

采用RT-PCR及RACE法,分离、克隆鳜鱼β-肌动蛋白基因cDNA全序列,再用基因组步行法(Genome Walker)克隆鳜鱼β-肌动蛋白基因5′调控区。序列分析结果表明,鳜鱼β-肌动蛋白基因全长1897bp,其中5′-UTR长94bp,3′-UTR长675bp,编码区长1128bp,编码375个氨基酸。将所得序列与其它动物类群的β-肌动蛋白基因序列进行比较分析显示,鱼类、两栖类、鸟类、哺乳类等不同类群脊椎动物β-肌动蛋白氨基酸序列同源性均在96%以上,说明该基因在生物进化过程中高度保守。通过鳜鱼与其它脊椎动物β-肌动蛋白基因的核苷酸序列构建的进化树显示,脊椎动物β-肌动蛋白聚类成3个分支,鱼类β-肌动蛋白基因形成一个独立的分化群,说明鱼类β-肌动蛋白基因起源于一个共同祖先。克隆得到的鳜鱼β-肌动蛋白基因5'侧翼序列长1399bp,对其进行序列分析,在其起始密码字ATG上游200bp范围内发现含有CAATbox、CC(A/T)6GG(CArGbox)、TATA box对转录调控起重要作用的顺式元件,同时在侧翼区也发现含有GC box、MYOD、YY1、SP1、GATA等多个潜在调控元件。鳜鱼β-肌动蛋白基因5′侧翼序列的克隆成功,为今后转基因鳜鱼的研究工作奠定了基础。

奶牛乳铁蛋白基因5′侧翼区遗传多态性及其与乳腺炎关联性分析

牛乳铁蛋白(Lactoferrin,LF)是保护乳腺组织的防御因子之一,是具有多种功能的糖蛋白。关于牛LF基因的多态性研究的报道较多,但其多态性与奶牛乳腺炎相关性的研究较少。文章采用PCR-RFLP、CRS-PCR对268头中国荷斯坦牛LF基因启动子区的-926(G/A)、-915(T/G)、-478(/G)、+72(T/C)突变进行基因型分型,应用最小二乘线性模型分析LF基因多态性与体细胞评分(Somaticcellscore,SCS)的相关性。结果表明,新发现+72(T/C)和-478(/G)对SCS有显著影响,而其他两个位点对SCS影响不显著(P>0.05)。+72(T/C)的AB基因型是优良基因型,其个体的SCS值均显著低于AA型(P<0.01)、BB型个体(P<0.05)。-478(/G)位点的C等位基因是优良的等位基因,CC基因型个体的SCS值极显著低于CD、DD基因型个体(P<0.01)。因此,LF基因+72(T/C)的AB基因型和-478(/G)位点的CC基因型均是奶牛乳腺炎抗性的优良基因型,可作为分子标记应用于奶牛乳腺炎抗性筛选。

山羊FSHR基因5'端侧翼序列的克隆与分析

为找寻山羊FSH受体基因的SNP突变位点,进行FSH受体基因的多态性分析和探索该受体基因在山羊多胎中的可能作用,利用比较基因组学的方法,根据绵羊FSH受体基因序列设计引物,以湖南湘东黑山羊基因组为模板,PCR扩增了FSH受体基因5' 端侧翼调控区,通过克隆进行了序列测定及分析,并与牛、绵羊该区段序列进行了比较.结果表明,PCR扩增获得的片段为844 bp,与中国西门塔尔牛该段序列相比,同源性为94.08%,在-364 bp处的左翼发生了多碱基插入,湘东黑山羊该序列有5个碱基的插入,另在-625^-619 bp处的7个碱基缺失;与澳洲绵羊的FSHR基因比较,同源性为93.60%,在-367 bp处的左翼,湘东黑山羊该段序列有2个碱基的插入,在-630,-145,-97 bp 处各有1个碱基缺失.

鸡8个功能基因5′-侧翼区与内含子的SNP多样性比较

本研究旨在探讨鸡功能基因5′-侧翼区的单核苷酸多态性(SNP)水平。作者以白来航鸡、隐性白洛克鸡、杏花鸡、丝羽乌骨鸡、固始鸡、红色原鸡为材料,扩增了GH、DDBC1、RIKEN、RASGRP3、IGF1、THRSP、VIP及PRL共8个基因的5′-侧翼区DNA序列。扩增序列全长为8,399bp,SNP的总数为161个,平均每52bp出现一个SNP。8个功能基因5′-侧翼区核苷酸多样性的θ均值和π均值分别为0.00620±0.00110和0.00559±0.00100。比较检验表明,5′-侧翼区的SNP多样性显著低于内含子区域。5′-侧翼区是基因表达的一个重要调控区域,在分子进化和系统发生过程中承受着比内含子区域更大的选择压,其较低的SNP多样性是适应性较好的表现。Tajima检验与Fu和Li检验表明,与鸡繁殖性状显著关联的VIP基因和PRL基因很可能是人工选择或自然选择的目的基因。

鲢鱼可溶性谷胱甘肽S-转移酶(sGST)基因cDNA全序列与5′调控区的克隆与分析

淡水鱼类可溶性谷胱甘肽S-转移酶(sGST)在微囊藻毒素去毒代谢过程中具有独特的关键作用,因而也称为微囊藻毒素去毒酶.从淡水食毒藻鱼类鲢鱼(Hypophthalmichthysmolitrix)肝脏通过简并引物克隆微囊藻毒素去毒酶基因cDNA核心序列,应用5′RACE和3′RACE技术分别扩增该序列的5′末端和3′末端序列,最后通过序列拼接获得鲢鱼肝脏微囊藻毒素去毒酶基因cDNA全序列.序列分析结果表明,鲢鱼肝脏微囊藻毒素去毒酶基因cDNA全长920bp,其中5′-UTR长74bp,3′-UTR长174bp,编码区长672bp,编码223个氨基酸.应用基因组步行法,在鲢鱼克隆得到淡水鱼类微囊藻毒素去毒酶基因5′侧翼区878bp序列.与哺乳动物及海水鱼sGST基因不同,鲢鱼微囊藻毒素去毒酶基因的5′侧翼区,发现存在多个脂多糖反应元件(LPSRE),表明来源于毒藻的脂多糖可能对鲢鱼微囊藻毒素去毒酶基因表达有潜在调控作用.

牛FSHR基因5′端侧翼序列的分析和多态性研究

以中国西门塔尔牛基因组DNA为模板 ,参照绵羊的FSHR基因序列设计和合成引物 ,PCR扩增获得长度为 931bp ,包括 5′端侧翼 797bp和结构基因第一外显子区 134bp的牛FSHR基因片段。将该片段克隆于PUC18载体中 ,作序列分析发现 :牛的FSHR基因转录启动子的遗传结构与人和鼠的FSHR基因不同 ,它的基因转录启动区含有TATA盒和类CAAT盒序列。在检索出的转录调节元件、或特征性序列位点 ,牛与绵羊在 5个序列位点有碱基变异 ,这可能与牛和绵羊的产仔率高低不同相关。对 34头份中国西门塔尔牛的扩增产物 ,应用PCR RFLP方法进行多态性分析 ,TaqⅠ酶切出现了多态性 ,酶切产物电泳呈现 3种基因型 ,由 2种等位基因构成。通过对基因频率和基因型频率在种用公牛、双胎母牛和随机牛类群中分布的比较研究结果 ,认为该基因与牛的繁殖性状存在连锁相关。

鸡生长激素基因5′端部分调控区的克隆分析

利用PCR技术扩增、克隆、测序了7个跨越不同生长速度的鸡品种(系)的生长激素(GH)基因的5′端部分调控区。这7个品种(系)分别为:高生长速度的宝罗肉鸡父本;较高生长速度和一定的产蛋性能的宝罗肉鸡母本;肉蛋兼用型的芦花鸡;中等生长速度和中等体重的蛋鸡品种洛岛红和农大褐;生长速度较慢体重较轻的蛋鸡品种北京白鸡和生长速度很慢但又不是矮小型的地方品种丝毛乌骨鸡。所扩增的片段长度为760bp,包括了转录起始位点5′端侧翼区的473bp、两个可能的TATA框、组织特异性转录因子结合位点、第一个外显子和部分第一内含子。所有克隆的鸡GH基因5′端调控区与Tanaka发表的序列相比,均在-34碱基的位置上缺失一个胞嘧啶C,在+160与+161碱基之间多1个胸腺嘧啶丁,在+175碱基的位置上出现了以腺嘌呤A替换了鸟嘌呤G的情况。7个品种(系)之间的比较显示,鸡GH基因启动区具有极高的保守性,在具有不同生长速度的鸡品种间不存在任何差异。说明鸡的不同生长速度和成年体重,不是由于生长激素5′调控区变异造成的。鸡生长激素基因表达的差异可能受到内含子或3′端侧翼序列的影响。

人肝刺激因子基因5′-侧翼序列克隆和结构分析

为探讨人肝刺激因子 (humanhepaticstimulatorsubstance ,hHSS)基因表达调控的分子机制 ,分离人了hHSS基因组DNA ,克隆其 5′ 侧翼序列 4 890bp ,与GenBank比对后 ,将hHSS基因定位于人 16号染色体。通过逆转录PCR(RT PCR)和 5′RACE确定hHSS基因转录起始位点 。

草鱼α-淀粉酶基因5'侧翼序列克隆与分析

应用PCR和Genome Walking技术克隆获得长度为168 bp的草鱼（Ctenopharyngodon idellus）α-淀粉酶基因外显子Ⅰ序列和2 063 bp的5＇侧翼序列。将草鱼α-淀粉酶基因外显子Ⅰ序列与已知几种鱼类α-淀粉酶基因外显子Ⅰ序列比对,相似度为68%～86%。将草鱼α-淀粉酶基因5＇侧翼序列进行生物信息学分析,确定了其转录起始区域及转录起始位点（TSS）;在TSS上游30 bp处有1个TATA-box,-58 bp处有CCAAT-box;在5＇侧翼序列中还发现有GATA-1、OCT-1、GR、HNF-3、AP1和SP1等转录因子结合位点。草鱼α-淀粉酶基因5＇侧翼序列的克隆,为进一步研究不同食性鱼类α-淀粉酶基因侧翼序列的差异、鱼类α-淀粉酶基因的表达、功能及调控机理奠定基础。

2个尼罗罗非鱼群体GHSR基因5＇侧翼序列的多态性及其遗传多样性分析

该试验以快长尼罗罗非鱼(Oreochromis niloticus)和普通尼罗罗非鱼2个群体为研究对象,通过PCR扩增与测序,获得GHSR基因5'侧翼区序列77条,片段大小为1 217 bp。共检测出变异位点57个,包括12个插入/缺失位点和45个多态性位点。共发现16种单倍型,其中Hap2可能为原始单倍型。16种单倍型在进化树中聚为A和B 2支,A支中有11种单倍型,在普通群体和快长群体中均有分布,但快长群体中所占比例较高;B支中有5种单倍型,均分布于普通群体中。遗传多样性参数显示普通尼罗罗非鱼群体的核苷酸多样性(Pi)、单倍型多样性(Hd)和平均核苷酸差异数(K)都高于快长尼罗罗非鱼群体。AMOVA分析结果显示快长和普通尼罗罗非鱼2个群体之间的Fst为-0.200 0(P>0.1),表明2个群体间遗传分化不明显,且2个群体的遗传差异主要来自群体内(120%)。

杜氏盐藻硝酸盐还原酶基因5′上游序列的克隆与功能分析

目的:克隆杜氏盐藻硝酸盐还原酶(NR)基因5′上游序列,并对其功能进行分析。方法:利用BamHI、EcoRI、HindIII、PstI、SalI、Xbal6种限制性内切酶分别酶切盐藻基因组DNA,并与接头连接,构建成盐藻基因组步行文库。采用LA-PCR方法,从上述盐藻步行基因组文库中扩增NR基因5′上游序列,测序并进行分析。为检测其表达特性,构建了该片段与GUS嵌合基因的表达载体pNR-GUS,通过电击法将所构建的重组表达载体转化盐藻,组织化学染色法观察GUS的表达。结果:从盐藻基因组步行文库中扩增出约1200bp特异片段,序列分析表明5′上游序列含有启动子的特征性序列。GUS瞬时表达染色结果显示,该DNA片段具有硝酸盐诱导和铵抑制的启动子活性。结论:所克隆的盐藻的5′上游序列可能是一种具有“开关”活性的可控性启动子。

马鹿生长激素基因的克隆与5′侧翼序列分析

根据报道的哺乳动物GH基因序列设计引物 ,首次利用PCR方法扩增和克隆了马鹿GH基因 ,该基因大小约为 1.8kb .对该基因上游 34 0bp核苷酸测序及分析表明 ,测序区域包括 5′侧翼序列 ,第一外显子和部分第一内含子 .第一外显子所编码的所有氨基酸与猪的相比完全相同 .初步认为GH基因在马鹿基因组中为单基因 .

扩展青霉碱性脂肪酶基因5’端侧翼区域的克隆与鉴定

应用衔接头PCR技术,扩增得到约2000 bp的扩展青霉碱性脂肪酶基因5’端侧翼区域的单一产物。对该产物测序并提交GenBank数据库(GenBank accession DQ677520),经序列比对分析,发现该序列具有真核启动子序列的基本结构特征,含有TATA盒、CAAT盒、GC盒等元件。将扩增得到的脂肪酶基因5’端侧翼序列,连接到含有绿色荧光蛋白(GFP)报告基因的质粒中,构建了一个重组表达质粒,转化大肠杆菌细胞。荧光显微观察大肠杆菌阳性转化子发出荧光,侧翼序列含有启动子功能得到确认。

斑鳜胃蛋白酶原C及其5′侧翼区的克隆及序列特征分析

采用RT-PCR和RACE等技术克隆了斑鳜(Siniperca scherzeri)胃蛋白酶原C(pepsinogen C,PGC)的cDNA全长和部分DNA序列,结果表明:PGC cDNA序列全长1 505 bp,5′端非翻译区37 bp,3′端非翻译区304 bp,开放阅读框架(ORF)1 164 bp,共编码含有387个氨基酸的蛋白质,包括由16个氨基酸组成的信号肽、39个氨基酸的激活肽和332个氨基酸的成熟肽。斑鳜PGC氨基酸序列与斜带石斑鱼、伯氏豚虾虎鱼、狼鲈、美洲红点鲑4种鱼的相似度分别为92.0%、91.5%、90.2%、89.1%,与非洲爪蟾、鸡、人、兔、褐家鼠的序列相似度分别为76.8%、72.8%、72.5%、69.9%、67.3%,表明PGC基因在长期的进化中较为保守。PGC基因由9个外显子和8个内含子组成,内含子剪切位点符合GT-AG规则,在第7含子中发现(GACA)6、(CA)6类型的微卫星序列,第8内含子中发现(TG)5类型的微卫星序列。采用锚定PCR方法获得了PGC 5′侧翼区长1 924 bp的序列,启动子区域位于-40^+10 bp,包含TATA盒以及GATA-1、CdxA、Hand1/E47、AP-1、Nkx-2、S8、FOX J2等转录因子的结合位点。结果为进一步研究该基因的表达、功能及其转录调控特征奠定了分子基础。

猪肿瘤坏死因子α基因5'侧翼区域多态性分析

利用直接测序法研究猪肿瘤坏死因子α(Tumor necrosis factor,TNF-α)基因5'侧翼区域多态性,并作多态位点与仔猪腹泻和生长性状关联分析。发现在TNF-α基因5'侧翼区域存在6个SNPs位点,建立针对SNP:-1048T/C和SNP:-1016A/G的Hha ⅠPCR-RFLP和Taq Ⅰ PCR-RFLP分型技术。Hha ⅠPCR-RFLP研究发现,在民猪群体中存在TC和CC两种基因型,在长白猪群体中存在TT、TC和CC三种基因型。Taq Ⅰ PCR-RFLP研究发现,在民猪和长白猪群体中仅存在AG和GG两种基因型。性状关联分析结果表明,TC比CC基因型民猪具有较高的35日龄断奶重(P<0.05)和日增重(P<0.05);TT基因型长白猪腹泻指数高于TC基因型个体(P=0.06)和CC个体(P=0.06);TT基因型长白猪出生重显著高于TC和CC基因型长白猪(P<0.05)。结果表明,猪TNF-α基因对仔猪腹泻和生长性状有一定影响,但HhaⅠ位点能否作为新遗传标记有待进一步研究。

团头鲂PGPH α亚基基因5’端侧翼序列克隆及其表达载体的构建

首先运用PCR-末端加尾法克隆了团头鲂（Megalobrama amblycephala）脑下垂体糖蛋白激素α亚基（Pituitary glycoprotein hormone α subunit,PGPH α）基因5’端侧翼序列;然后利用生物信息学理论对该序列进行了序列分析;最后在序列分析结果的基础上,构建了荧光素酶质粒表达载体。序列分析结果显示,克隆所得到的团头鲂PGPH α亚基基因5’端侧翼序列长1399bp;其序列中包含潜在的TATA盒、GC盒,以及ERE、TRE、CRE、PGBE等对PGPH α亚基基因转录调控起重要作用的转录因子结合位点;启动子区域位于-40-10bp处。利用PCR方法扩增得到了全长1439bp以及1120bp、532bp、173bp均包含转录起始位点下游40bp序列的缺失片段,并将其连接至pGL3-Basic报告基因载体,成功构建了团头鲂PGPH α亚基基因5’端侧翼序列的表达载体,为进一步研究、分析其转录调控机制提供了基础。