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1.
中国2个地方品系猪SLA-3原核表达载体构建及表达 总被引:2,自引:1,他引:1
为构建中国地方品系荷包猪及莱芜黑猪SLA-3(命名为SLA-3-HB和SLA-3-LW)原核表达载体及表达目的蛋白,试验通过PCR扩增获得SLA-3胞外区基因,并克隆至pMD19-T Simple载体,转化大肠杆菌Top10感受态细胞,酶切及测序筛选阳性重组质粒;重组质粒经酶切回收,目的片段进一步连接pET-21a(+)表达载体,并转化大肠杆菌BL21感受态细胞,IPTG诱导目的基因的表达;SDS-PAGE检测目的蛋白。结果显示,PCR成功扩增SLA-3-HB及SLA-3-LW胞外区,大小约850 bp,目的基因成功克隆至pMD19-T Simple载体,并筛选序列正确的阳性重组质粒。进一步研究证实,SLA-3-HB及SLA-3-LW成功连接到表达载体pET-21a(+),插入片段长度均为831 bp。经诱导后,SLA-3-HB及SLA-3-LW均成功表达,表达蛋白大小为31 ku,相对表达含量达到40%。本研究成功构建了中国地方品系荷包猪及莱芜黑猪SLA-3原核表达载体,为进一步研究其结构和功能奠定基础。 相似文献
2.
为构建烟台黑猪SLA-2-YTH基因原核表达载体,本研究设计引物PCR扩增SLA-2-YTH胞外区,将其克隆至pMD 19-T Simple 载体,筛选阳性克隆。阳性克隆经酶切后,进一步与表达载体pET-28a(+)连接,转化BL21(Rosseta)感受态细胞并进行诱导表达,SDS-PAGE检测蛋白表达情况。结果显示,SLA-2-YTH胞外区亚克隆大小为834 bp,酶切鉴定证实其成功插入pET-28a(+)表达载体。SDS-PAGE结果显示,SLA-2-YTH基因导入宿主菌后成功表达,蛋白大小约31.0 ku,与预期结果相符,优化后蛋白相对表达量达25%以上。本研究成功构建了烟台黑猪SLA-2-YTH原核表达载体,获得了表达蛋白,为今后进一步的结构和功能研究奠定基础。 相似文献
3.
为提高托佩克猪SLA-2-TPK基因胞外区在pET-21a的表达量,对其5′端进行密码子优化,并设计表达引物,PCR扩增SLA-2-TPK胞外区,然后克隆入pMD○R19-T Simple Vector,经酶切鉴定后连接至pET-21a载体,转化BL21(Rosseta)进行诱导表达,SDS-PAGE检测目的蛋白。PCR结果显示,SLA-2-TPKe大小约为850bp,并成功克隆入pMD○R19-T Simple Vector,双酶切后大小为834bp。酶切后的SLA-2-TPKe成功与pET-21a链接,重组菌经诱导后目的蛋白大小为30.9ku,与密码子优化前重组菌相比,目的蛋白相对表达含量提高约40%。研究证明,密码子优化可明显提高蛋白的表达量,为进行其他蛋白表达研究提供了参考。 相似文献
4.
为了构建荷包猪SLA-3-HB01基因四聚体前体链原核表达载体,并获得SLA-3-HB01表达蛋白,试验以SLA-3-HB01/pMD18-T为模板进行PCR扩增四聚体前体链SLA-3-HB01-BSP,并克隆至pMD19-T载体中,经NdeⅠ和XhoⅠ双酶切筛选阳性克隆并测序,目的基因连接至表达载体pET-21a(+),转化大肠杆菌BL21(DE3)感受态细胞,经IPTG诱导表达,SDS-PAGE检测目的蛋白大小及表达情况,提取包涵体并进行检测。结果显示,PCR成功扩增得到SLA-3-HB01-BSP,大小为896 bp左右。酶切鉴定证实,目的基因成功克隆至pMD19-T载体中,插入片段大小为876 bp,阳性克隆经测序后所获序列与原序列一致,并在3'端带有BSP标签序列。酶切鉴定进一步证实成功构建SLA-3-HB01-BSP/pET-21a(+)重组表达载体,经转化及诱导表达,SDS-PAGE检测显示目的蛋白分子质量在33.5 ku左右。包涵体蛋白分子质量约33.5 ku,与菌体中目的蛋白大小一致,经凝胶成像系统UVP扫描分析,包涵体蛋白纯度接近于90%,符合进行相关结构和功能研究的要求。本研究成功构建了荷包猪SLA-3-HB01基因四聚体前体链的pET-21a(+)重组表达系统,并获得了一定纯度的包涵体蛋白。 相似文献
5.
试验旨在构建荷包猪猪白细胞抗原1(swine lymphocyte antigen 1,SLA-1)重链四聚体前体链并研究其在表达载体pET-21a(+)中蛋白的表达情况。以SLA-1全基因序列为模板,结合表达载体的特点设计引物,利用PCR扩增技术在SLA-1-HB01胞外区序列C-末端加载上可生物素酰化序列(BirA substrate peptide,BSP)。将PCR扩增产物SLA-1-HB01-BSP克隆到pEASY T1载体上,筛选出阳性克隆菌SLA-1-HB01-BSP/pEASY T1,经双酶切后进一步与表达载体pET-21a(+)连接,再转化到E.coli BL21感受态细胞中构建pET-21a(+)/SLA-1-HB01-BSP重组表达菌,通过IPTG诱导蛋白表达,SDS-PAGE检测蛋白的大小及表达情况,提取包涵体检测蛋白的纯度。PCR扩增结果显示,SLA-1-HB01-BSP大小为898 bp,与理论值相符,扩增片段成功克隆至pEASY T1载体构建克隆菌,经Nde Ⅰ和Xho Ⅰ双酶切筛选及测序,成功获得阳性克隆菌株SLA-1-HB01-BSP/pEASY T1,插入的目的基因片段大小为876 bp。阳性克隆菌株与pET-21a(+)表达载体经Nde Ⅰ和Xho Ⅰ双酶切后进行连接,转化E coli BL21感受态细胞后获得pET-21a(+)/SLA-1-HB01-BSP重组表达菌,经IPTG诱导表达,SDS-PAGE检测目的蛋白大小为31.4 ku。进一步检测分析发现,目的蛋白以包涵体形式存在,且蛋白纯度达到80%以上。本研究成功构建了荷包猪SLA-1-HB01重链四聚体前体链的pET-21a(+)重组表达体系,为下一步进行猪SLA Ⅰ类分子四聚体的检测奠定基础。 相似文献
6.
为了构建荷包猪SLA-3-HB01基因四聚体前体链原核表达载体,并获得SLA-3-HB01表达蛋白,试验以SLA-3-HB01/pMD18-T为模板进行PCR扩增四聚体前体链SLA-3-HB01-BSP,并克隆至pMD19-T载体中,经NdeⅠ和XhoⅠ双酶切筛选阳性克隆并测序,目的基因连接至表达载体pET-21a(+),转化大肠杆菌BL21(DE3)感受态细胞,经IPTG诱导表达,SDS-PAGE检测目的蛋白大小及表达情况,提取包涵体并进行检测。结果显示,PCR成功扩增得到SLA-3-HB01-BSP,大小为896bp左右。酶切鉴定证实,目的基因成功克隆至pMD19-T载体中,插入片段大小为876bp,阳性克隆经测序后所获序列与原序列一致,并在3′端带有BSP标签序列。酶切鉴定进一步证实成功构建SLA-3-HB01-BSP/pET-21a(+)重组表达载体,经转化及诱导表达,SDS-PAGE检测显示目的蛋白分子质量在33.5ku左右。包涵体蛋白分子质量约33.5ku,与菌体中目的蛋白大小一致,经凝胶成像系统UVP扫描分析,包涵体蛋白纯度接近于90%,符合进行相关结构和功能研究的要求。本研究成功构建了荷包猪SLA-3-HB01基因四聚体前体链的pET-21a(+)重组表达系统,并获得了一定纯度的包涵体蛋白。 相似文献
7.
《中国兽医学报》2016,(7):1178-1182
用real-time PCR方法扩增家兔PepTⅠmRNA序列,通过原核表达体外获得家兔PepTⅠ蛋白,旨在制备多克隆抗体。试验通过RT-PCR方法成功扩增出2 001bp的家兔PepTI基因片段,设计特异性引物成功扩增出抗原表位相对集中的1 071bp大小的片段,构建重组表达质粒,获得融合蛋白。结果显示:家兔PepTⅠ基因片段成功的连接到pMD18-T载体上,重组克隆载体双酶切后回收目的片段分别连接到原核表达载体pET-32a、pET-28a,经转化提取质粒测序验证后表明,成功构建原核表达载体pET-32a-P、pET-28a-P,将重组质粒转化至感受态细胞BL21(DE3)后IPTG诱导,成功表达出PepTⅠ融合蛋白,目的蛋白相对分子质量大小约为44 000,与预期试验结果相符。结果表明:本试验成功扩增出家兔PepTⅠmRNA序列,并且通过原核表达获得家兔PepTI融合蛋白。 相似文献
8.
从牛分支杆菌培养物中抽提总DNA,扩增了MPT83基因,并克隆入pMD-18-T Simple Vector,将测序正确的目的基因插入表达载体pET-32a(+)中,转化BL21(DE3)宿主菌,IPTG诱导表达,用亲和层析方法对表达蛋白进行了纯化。经测序,构建的克隆质粒pMD-MPT83与Gen-Bank中的序列一致;构建的表达质粒pET-MPT83经PCR和BamHI+HindⅢ双酶切鉴定构建正确;经SDS-PAGE分析,在约42ku处出现新的蛋白条带,4h后表达量即达到高峰;Westernblotting分析表明,融合蛋白能够被牛分支杆菌阳性血清所识别;纯化的表达蛋白经SDS-PAGE电泳,出现清晰的单一条带。表明MPT83基因原核表达载体构建成功。 相似文献
9.
猪白细胞抗原(swine leukocyte antigen,SLA)在猪免疫系统中起递呈抗原作用,对其展开研究可为猪相关传染病的预防提供依据。研究发现,托佩克猪SLA-1-632-TPK基因编码序列发生碱基缺失(距离SLA-1-632-TPK基因5'端632 bp处丢失1个碱基"C"),导致移码突变。为矫正SLA-1-632-TPK基因,设计2对矫正引物,以原重组质粒SLA-1-632-TPK/pMD18-T为模板,利用剪切重叠延伸PCR(splicing overlap extention PCR,SOE-PCR)技术分别扩增SLA-1-632-TPK 5'和3'端,之后进行拼接,最后扩增全序列从而矫正目的基因,并进一步连接pMD19-T Simple载体,通过单菌落PCR筛选阳性克隆并测序,并通过GENETYX version 9.0软件对所测序列进行分析。结果显示,SOE-PCR成功扩增得到5'和3'端片段,大小约为650和590 bp,与理论设计值大小(648和585 bp)接近,经过拼接以后,得到全长约1 200 bp,与理论设计值1 223 bp接近。菌落PCR结果显示,矫正基因成功克隆入pMD19-T Simple载体。序列分析结果显示,托佩克猪SLA-1-632-TPK基因距离5'端632 bp处丢失的碱基"C"得到矫正并正确编码。本研究成功矫正了SLA-1-632-TPK基因,并构建其重组质粒SLA-1-TPK/pMD19-T,为下一步研究SLA-1-TPK蛋白表达和相关功能奠定基础。 相似文献
10.
试验旨在通过基因工程方法获得重组猪SLA-DRB蛋白。根据基因库猪SLA-DRB基因序列设计合成特异性引物,引物两端分别加上BamHⅠ和XhoⅠ酶切位点及保护碱基;提取长白猪肠系淋巴结RNA,用RT-PCR的方法扩增猪SLA-DRB基因cDNA,并将其克隆到pMD18-T载体上,测序后经BamHⅠ和XhoⅠ双酶切后克隆到pET-32a( )中,构建原核表达载体pET-32a-DRB;将重组表达质粒转化至宿主菌Rosseta中,诱导表达。结果表明,成功扩增出猪SLA-DRB基因cD-NA,经DNA序列测定,所得基因与国外报道的序列99.9%相同;成功构建原核表达载体pET-32a-DRB;经IPTG诱导,表达出了6×His-DRB融合蛋白,对表达的蛋白用SDS-PAGE电泳分析,得到了约50kDa左右蛋白,与预期大小相符,表明猪SLA-DRB基因在大肠杆菌中成功的进行了表达。 相似文献
11.
In order to construct the prokaryotic expressing vector of SLA-1 derived form Yorkshire pig and express the interest of protein, a pair of primers was designed to amplify the extracellular domain of SLA-1 gene from Yorkshire pig (named SLA-1-DYKe) by PCR. Then the PCR product was cloned into pMD®19-T Simple Vector and transformed into Escherichia coli TOP10. After cleaved by Nde Ⅰ and Xho Ⅰ, the positive clones were selected to be sequenced. Analyzing by biological soft, the fragment from positive clone with correct sequence was inserted into pET-28a (+) and transformed into E.coli BL21(DE3). After induction and expression, the interest of protein was detected by SDS-PAGE. The results showed that the extracellular domain of SLA-1-DYKe was successfully amplified with the fragment length of 837 bp. The interest of SLA-1 gene was successfully cloned into pMD®19-T Simple Vector and the positive recombinant plasmids with correct sequences were obtained. The SLA-1-DYKe from positive recombinant plasmids was further inserted into pET-28a(+). After transformed into E.coli BL21(DE3) and induction, the SLA-1-DYKe was successfully expressed. The molecular weight of the protein was about 34 ku. It was concluded that the prokaryotic expressing vector of SLA-1 was constructed successfully from Yorkshire pigs and then the expressed protein was obtained, which would lay a base for studying on the structure and function of SLA-1 from Yorkshire pig in the future. 相似文献
12.
To construct tetramer precursor chain of swine lymphocyte antigen 1 (SLA-1) heavy chain in Hebao pig and study its protein expression in the pET-21a (+) vector,the SLA-1 complete genome sequence was referenced with the characteristics of the expression vector,and a pair of primers was designed to integrate the BirA substrate peptide (BSP) sequence at the C-terminus of the SLA-1-HB01 and the SLA-1-HB01-BSP was amplified by PCR. Then,the products were cloned into the pEASY T1 vector and the positive clones of SLA-1-HB01-BSP/pEASY T1 was selected. After the double digestion,the interest of the gene in positive clone was further ligated into the pET-21a (+) expression vector and transformed into E.coli BL21 to construct the recombinant strain of pET-21a (+)/SLA-1-HB01-BSP. After induction with IPTG,the target protein were detected by SDS-PAGE. Finally,the inclusion body of the SLA-1-HB01-BSP was isolated and detected to evaluate its purity. The PCR results showed that the length of SLA-1-HB01-BSP was about 898 bp,which was consistent with the theoretical value. The amplified fragment was successfully cloned into pEASY T1 vector, and the positive clones were identified by Nde Ⅰ and Xho Ⅰ digestion. The size of inserted fragment was 876 bp. The interest of gene was also inserted into pET-21a (+) and transformed into E.coil BL21 successfully. After induction,SDS-PAGE detection results showed that the target protein was 31.4 ku. Further detection showed that the target protein was mainly expressed as inclusion bodies,and the purity of the protein was about 80%. In this study,the recombinant tetramer precursor of SLA-1-HB01 heavy chain was constructed in pET-21a (+) expression line successfully, which would lay a foundation to detect the tetramer of SLA class Ⅰ molecular. 相似文献
13.
试验旨在克隆羊种布鲁氏菌LpxB基因并进行原核表达和蛋白的生物信息学分析。以布鲁氏菌M5-90株基因组为模板,参照GenBank中M5-90株基因组DNA序列,用DNAMAN软件设计1对引物,通过聚合酶链式反应(PCR)扩增得到大小为1 188 bp的LpxB基因,将其连接入pMD20-T载体上,构建pMD20-T-LpxB重组质粒,将其转化到E.coli DH5α感受态细胞中,经BamH Ⅰ和 Xho Ⅰ双酶切鉴定正确后扩大培养。将BamH Ⅰ和 Xho Ⅰ双酶切获得的LpxB片段连接入pET-28a,构建重组质粒pET-28a-LpxB,转化到E.coli BL21(DE3)中,双酶切鉴定正确后扩大培养。经IPTG诱导其表达,用SDS-PAGE和Western blotting对蛋白进行鉴定。运用DNAMAN、BioEdit等软件对LpxB基因编码的氨基酸序列进行分析。结果表明,本研究成功克隆了LpxB基因并进行了蛋白表达,在LpxB蛋白二级结构中,α-螺旋、伸展链、β-折叠和无规卷曲分别占52.41%、14.94%、8.10%和24.55%。 相似文献
14.
NIE Xin ZHAO Tian-jing CAO Rui-yong PENG Dong-mei LI Guo-hua LI Ya-ying XU Kai-lian ZHU Hua-pei PANG Feng WANG Feng-yang DU Li 《中国畜牧兽医》2016,43(7):1681-1687
The study was aimed to clone and express LpxB gene,and perform the bioinformatics analysis of protein.The genomic DNA of Brucella melitensis M5-90 was used as template.According to the genome sequence of M5-90 on GenBank,a pair of primers was designed.LpxB gene,which was 1 188 bp,was amplified by PCR,and was ligated into pMD20-T vector.The constructed recombinant plasmid pMD20-T-LpxB was transformed into E.coli DH5α.The recombinant plasmid was confirmed by endonuclease digestion and sequencing.The coding region of LpxB from pMD20-T was digested by BamHⅠ and XhoⅠ.Then,the fragment was inserted into prokaryotic expression vector pET-28a,and the positive plasmid was named pET-28a-LpxB.The pET-28a-LpxB was transformed into E.coli BL21 (DE3).The expressed protein was identified by SDS-PAGE and Western blotting.DNAMAN and BioEdit softwares were used to analyze the sequence of amino acids encoded LpxB gene.The results showed that the CDS of LpxB was successfully cloned and expressed.The secondary structure of LpxB protein consisted structure α -helix,extended strand,β-turn and random coil which accounted for 52.41%,14.94%,8.10% and 24.55%,respectively. 相似文献
15.
猪繁殖与呼吸综合征病毒非结构蛋白Nsp9基因的克隆与原核表达 总被引:2,自引:0,他引:2
通过PCR方法从重组质粒pSK-B2扩增得到非结构蛋白Nsp9的基因片段。将基因克隆至原核表达载体pET-28a( ),得到重组表达载体pET-28-Nsp9,转化Escherichia coliBL21(DE3)细胞。经IPTG诱导,Nsp9蛋白以包涵体形式表达,SDS-PAGE分析表明重组蛋白的分子量约为27.3 kD,表达量占菌体蛋白的43.2%。Western-Blotting结果表明重组蛋白可被PRRSV阳性血清所识别。表达的重组蛋白为进一步研究PRRSV的免疫特性和分子生物学功能奠定了基础。 相似文献
16.
参照GenBank中已发表的ApxⅣ基因序列,以自行分离的AppDNA为模板,利用PCR方法扩增出ApxⅣ3’端,大小为552bp的保守基因序列。将PCR产物克隆到pMD18-T Simple Vector中,获得重组质粒pMD-ApxⅣ,对其重组质粒pMD-ApxⅣ进行BamHI、HindIII双酶切,并将酶切产物克隆到原核表达载体pET-32a(+)中,构建了重组表达质粒pET-ApxⅣ。将表达质粒转化至大肠杆菌BL21中,用IPTG诱导表达,通过SDS-PAGE和Western blot分析,结果表明pET-ApxⅣ在BL21中成功表达,并能被App阳性血清所识别,具有良好的免疫原性。表达蛋白的分子质量约为39.5KDa。利用HiTrapFFcrude columns将表达的蛋白进行了纯化。 相似文献