CN108265056A - 一种重组户尘螨1类变应原蛋白及其制备方法和应用 - Google Patents
一种重组户尘螨1类变应原蛋白及其制备方法和应用 Download PDFInfo
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Abstract
本发明涉及一种重组户尘螨I型变应原及其编码基因和制备方法,发明人将proDer p1基因在毕赤酵母表达系统中进行了优化,并在分子设计时加入了提高proDer p1表达的作用原件。经过基因优化后proDer p1与现有技术相比具有更高的表达量,且经过纯化工艺纯化获得的重组Der p1与天然蛋白相比具有相似的生物学活性。
Description
技术领域
本发明属于生物工程基因领域,涉及一种重组户尘螨1类变应原及其编码基因和表达纯化方法。
背景技术
尘螨种类繁多,广泛存在于人类生活和工作环境中,其排泄物、代谢物及螨体均具有较强的变应原型,据统计全球约10%的人口尘螨过敏,约80%的外源性哮喘由尘螨引起。
目前,临床上主要采用尘螨变应原粗提液治疗尘螨引起的变态反应性疾病,例如2006年上市的浙江我武生物的“畅迪”粉尘螨滴剂即为粉尘螨代谢培养物的提取液。尘螨变应原主要存在于排泄物和螨体中,采用提取方法耗时长,过程繁琐,成本较高;此外天然变应原提取液的组成非常复杂,恒定其组分非常困难,且容易受到外源性有毒物质、病原体微生物的污染。长期使用尘螨变应原粗提液易导致红晕、肿胀、硬结、坏死等局部反应和休克、水肿、支气管痉挛、荨麻疹、血管性水肿、全身性红斑等全身反应,此外,采用粗提液进行诊断,无法明确患者对变应原各组分的反应程度,易致误诊。
变应原的质量对变态反应疾病的诊断和治疗至关重要,用于免疫诊治的变应原应该是纯品而不宜为粗提取液。重组变应原与粗提液相比具有以下优势:(1)重组变应原具有更高的纯度,与粗提液相比不含非变应原成分、酶类、酶抑制剂和毒性蛋白等;(2)重组蛋白成分单一、具有较好的特异性,粗提液中成分复杂,患者可能只与其中部分成分反应,特异性差;(3)重组变应原与天然提取液相比减少IgE结合的抗原表位,有效降低IgE介导的过敏反应,同时保留变应原T细胞识别所必须的结构域,具有较好的免疫原性,减少免疫治疗的危险性,提高脱敏治疗的效果。
尘螨变应原组成复杂,约有30余种,其中1类和2类变应原是最主要的变应原组分。目前对户尘螨的1类变应原(Der p1)研究最全面的是日本学者Toshiro Takai等在2005年进行的研究,文章表明Der p1在毕赤酵母系统中表达时需要加入Der p1蛋白的前肽(带前肽的Der p1,记为proDer p1),否则无法在真核表达系统中进行表达,然后再经过活化过程得到与天然蛋白氨基酸序列一致的成熟的Der p1蛋白;文章中未对proDer p1基因进行优化,产量较低,暂时还没有更进一步的研究报道。
发明内容
为了克服以上缺点,发明人将proDer p1基因在毕赤酵母表达系统中进行了优化,并在分子设计时加入了提高proDerp1表达的作用原件,发明人惊喜地发现,经过基因优化后proDer p1与现有技术相比具有更高的表达量;发明人对proDer p1的活化工艺进行了深入研究和优化,采用了更具有操作性和可放大的活化工艺,经过纯化后的成熟Der p1蛋白与天然蛋白相比具有相似的生物学活性。
本发明的一个目的是提供一种编码proDer p1蛋白的DNA序列,其碱基序列如SEQID NO:1所示。该序列针对毕赤酵母表达系统进行了密码子优化,其更利于proDer p1在毕赤酵母中表达。
本发明的另一个目的是提供一种proDer p1蛋白,其氨基酸序列如SEQ ID NO:3所示。
本发明的另一个目的是提供一种Der p1蛋白,其氨基酸序列如SEQ ID NO:4所示。
本发明的另一个目的是提供一种含有上述编码优化后proDer p1基因的载体,优选的,所述的载体为pAO815,pPIC9,pPIC9K,pPIC3.5,pPIC3.5K,pPICZα A、B、C或pGAPZα A、B、C,更优选为pPIC3.5K,pPICZα A或pGAPZα A。
本发明的另一个目的是提供一种包含上述所述载体的毕赤酵母菌株,优选的,所述毕赤酵母菌株为SMD1168、GS115、KM71、X33或KM71H,更优选为KM71或X33菌株。
作为优选,编码proDer p1蛋白的DNA序列与毕赤酵母上AOX1的ATG仅相差242bp;编码proDer p1蛋白的DNA序列前有alpha-factor信号肽和Kozak序列GCCACCATGG。
本发明的另一个目的是提供一种proDer p1蛋白的表达方法,所述方法包含下述步骤:
A.构建含有上述编码proDer p1基因的载体;
B.将步骤A的载体线性化后转入毕赤酵母菌株中,并在合适的条件下培养;
C.回收纯化蛋白质。
上述所述载体优选为pPIC3.5K,pPICZα A或pGAPZα A。
上述所述毕赤酵母菌株优选为KM71或X33菌株。
更优选的,上述所述载体为pPICZαA,并且上述所述毕赤酵母菌株为X33菌株。
本发明的另一个目的是提供一种重组Der p1蛋白纯化方法,所述纯化方法如下:
A.将proDer p1发酵液低温高速离心收集上清,于5KD透析袋,25mM乙酸钠,pH=4.5缓冲液中透析48h,0.45μm滤膜过滤。
B.第一步阳离子层析,用平衡缓冲液平衡层析柱,接着运用纯化系统将步骤A中已活化的成熟Der p1发酵液通过分离填料,然后运用洗脱缓冲液梯度洗脱,收集洗脱峰,平衡缓冲液为50mM乙酸钠,pH=4.5,洗脱缓冲液为50mM乙酸钠,1.0M氯化钠,pH=4.5。
C.第二步首先将B中收集得到的Der p1蛋白峰用20mM磷酸盐pH=6.0溶液超滤,平衡缓冲液平衡层析柱,将超滤的Der p1蛋白溶液上阴离子层析填料,收集穿透峰,平衡缓冲液为20mM磷酸盐,pH=6.0。
D.第三步将C中穿透峰加入硫酸铵至终浓度1.5M,pH=6.0,平衡缓冲液平衡层析柱,Der p1样品上疏水层析填料,洗脱缓冲液梯度洗脱,平衡缓冲液为1.5M硫酸铵,20mM磷酸盐,pH=6.0,洗脱缓冲液为20mM磷酸盐,pH=6.0。
本发明的另一个目的是提供重组Der p1蛋白在制备治疗尘螨变态反应性疾病药物中的应用。所述变态反应性疾病为过敏性鼻炎、过敏性哮喘等。
本发明的重组Der p1蛋白具有较高的表达量,且与天然蛋白具有相似的生物学活性。
附图说明
图1表示优化前后重组proDer p1基因序列对比图。
其中优化前序列对应的为天然proDer p1基因核苷酸序列;优化后序列对应的为本发明的重组proDer f1的基因核苷酸序列,即密码子优化后的序列。
图2-a,2-b为优化前后proDer p1基因在毕赤酵母表达系统中的CAI指数。
其中,图2-a表示天然proDer p1基因核苷酸序列在毕赤酵母表达系统中CAI指数经程序计算为0.77;图1-b表示优化后的本发明的proDer p1密码子在毕赤酵母表达系统中CAI指数经程序计算为0.90。
图3-a,3-b为密码子优化前后proDer p1基因在毕赤酵母表达宿主中最优密码子频率分布区域图。
其中图3-a表示proDer p1天然基因核苷酸序列在毕赤酵母系统中最优密码子频率分布区域图,从图中可以看出:proDer p1天然基因核苷酸序列的低利用率密码子出现百分比为9%;图2-b表示优化后的本发明的proDer p1密码子在毕赤酵母系统中最优密码子频率分布区域图,优化后的本发明的proDer p1密码子序列低利用率密码子出现为0。
图4-a,4-b为密码子优化前后proDer p1基因在毕赤酵母表达系统中平均GC碱基含量分布区域图。
其中,图4-a表示proDer p1天然基因核苷酸序列在毕赤酵母表达系统中平均GC碱基含量为:41.68%;图4-b表示优化后的本发明的proDer p1密码子在毕赤酵母表达系统中平均GC碱基含量为:46.22%。
图5为密码子优化后proDer p1基因PCR产物的琼脂糖凝胶电泳图。
其中,泳道1为500bp DNA Ladder;泳道2为两端含有XhoI和XbaI酶切位点的重组proDer p1基因PCR产物。
图6为密码子优化后proDer p1表达质粒pPICZα-proDer p1构建过程图。
图7为密码子优化后proDer p1基因在宿主工程菌中的表达鉴定图。
其中,图7-a为密码子优化后proDer p1基因宿主工程菌株通过甲醇诱导表达一周后,菌液上清SDS-PAGE凝胶电泳图。其中泳道3为10-250KD范围的预染蛋白上样Marker;泳道1-10为通过Zeocin筛选出来的proDer p1基因各阳性单克隆宿主工程菌株培养菌液上清。
图7-b为密码子优化后proDer p1基因宿主工程菌株通过甲醇诱导表达一周后,菌液上清蛋白免疫印迹图。其中泳道1为10-250KD范围的预染蛋白上样Marker;泳道2-10为通过Zeocin筛选出来的proDer p1基因各阳性单克隆宿主工程菌株培养菌液上清。
图8为proDer p1发酵液上清第一步阳离子层析色谱图和凝胶电泳图。
其中,图8-a为proDer p1发酵液上清第一步阳离子层析色谱图;图8-b为proDerp1发酵液上清第一步阳离子层析收集样品凝胶电泳图,泳道1为11-100KD非预染蛋白Marker,泳道2为proDer p1发酵液纯化前上清,泳道3为穿透液,泳道4-10为各洗脱分管。
图9为Der p1蛋白第二步阴离子层析色谱图和凝胶电泳图。
其中,图9-a为Der p1发酵液上清阴离子层析色谱图;图9-b为Der p1发酵液上清阴离子层析收集样品凝胶电泳图,泳道1为11-100KD非预染蛋白Marker,泳道2为Der p1蛋白纯化前上清,泳道3为Der p1蛋白穿透液,泳道4为Der p1蛋白洗脱峰。
图10为Der p1蛋白第三步疏层析色谱图和凝胶电泳图。
其中,图10-a为Der p1蛋白第三步疏水层析色谱图;图10-b为Der p1蛋白疏水层析收集样品凝胶电泳图,泳道1为11-100KD非预染蛋白Marker,泳道2-8为各洗脱分管。
图11为重组Der p1与天然Der p1分别与阳性血清斑点免疫印迹鉴定图,其中nDerp1表示天然Der p1蛋白,rDerp1表示重组Der p1蛋白,NC为pH7.4PBS溶液。
图12为PCR扩增GAP基因琼脂糖凝胶电泳图,其中泳道1为250bp DNA Ladder,泳道2为GAP基因。
图13为PCR鉴定GAP基因T载体阳性克隆琼脂糖凝胶电泳图,其中泳道1为250bpDNA Ladder,泳道2-11为蓝白斑筛选获得的阳性克隆,泳道12为蓝白斑筛选获得的阴性克隆。
图14为PCR扩增proDer p1基因琼脂糖凝胶电泳图,其中泳道1为500bpDNALadder,泳道2为proDer p1基因。
图15为PCR鉴定proDer p1基因T载体阳性克隆琼脂糖凝胶电泳图,其中泳道1为500bp DNA Ladder,2,3为蓝白斑筛选获得的阴性克隆,泳道4-16为蓝白斑筛选获得的阳性克隆,泳道17为阳性对照(proDer p1基因)
图16为标准质粒扩增曲线图。
其中图16-a为T-GAP标准质粒扩增曲线图,图16-b为T-proDer p1标准质粒扩增曲线图。
图17为标准质粒熔解曲线图。
其中图17-a为T-GAP标准质粒熔解曲线图,图17-b为T-proDer p1标准质粒熔解曲线图。
图18为标准质粒标准曲线图。
其中图18-a为T-GAP标准质粒标准曲线图,图18-b为T-proDer p1标准质粒标准曲线图。
图19为待测样品扩增曲线图。
其中图19-a为待测样品以GAP-1,GAP-2引物扩增时得到的扩增曲线图,图19-b为待测样品以5’AOX,3’AOX引物扩增得到的扩增曲线图。
图20为待测样品熔解曲线图。
其中图20-a为待测样品以GAP-1,GAP-2引物扩增时得到的熔解曲线图,图20-b为待测样品以5’AOX,3’AOX引物扩增得到的熔解曲线图。
具体实施方式
下面结合具体实施例,进一步阐述本发明,应理解,引用实施例仅用于说明本发明而不用于限制本发明的范围。
实施例1重组proDer p1密码子优化
发明人根据EMBL-EBI已公开的proDer p1的DNA序列(ENA登录号:FM177224.1),如SEQ ID No:2所示,对该基因进行密码子优化后得到本发明的proDer p1基因,核苷酸序列如SEQ ID No:1所示,氨基酸序列如SEQ ID No:3所示。下面是对proDer p1密码子优化前后各参数对比如下:
1.密码子适应指数(CAI)
由图2-a可知,密码子没有优化前,proDer p1原始基因在毕赤酵母表达系统中密码子适应指数(CAI)为0.77。由图2-b可知,通过密码子优化,proDer p1基因在毕赤酵母表达系统中CAI指数为0.9。通常CAI=1时被认为该基因在该表达系统中是最理想的高效表达状态,CAI指数越低表明该基因在该宿主中表达水平越差,因此可以看出经过了密码子优化后得到的基因序列可以提高proDer p1基因在毕赤酵母表达系统中的表达水平。
2.最优密码子使用频率(POP)
由图3-a可知,基于毕赤酵母表达载体,密码子没有优化前,proDer p1基因序列的低利用率密码子(利用率低于40%的密码子)出现百分比为9%。这条未进行优化的基因采用串联稀有密码子,这些密码子可能降低翻译效率,甚至能够解散翻译装配物。由图3-b可知,通过密码子优化后,proDer p1基因在毕赤酵母系统中出现低利用率密码子的频率为0。
3.GC碱基含量(GC curve)
GC含量理想分布区域为30%-70%,在这个区域外的出现任何峰都会不同程度地影响转录和翻译效率。由图4-a、图4-b的proDer p1基因的GC碱基平均含量分布区域图对比可知,由图4-a中显示proDer p1基因GC碱基平均含量为41.68%,由图4-b中显示出优化后去除在30%-70%区域外出现的GC含量峰值,最终得到优化后proDer p1的GC碱基平均含量为46.22%。
实施例2:含有proDer p1基因的表达质粒构建
将密码子优化后的proDer p1在5’端引入XhoI酶切位点序列,在3’端引入XbaI酶切位点序列,并进行全基因合成,将合成的基因片段,构建到pUC57质粒(由南京金斯瑞科技有限公司提供)中,得到一种长期保存质粒,记为pUC57-proDer p1质粒。
以pUC57-proDer p1质粒为模板,进行PCR扩增,所用引物序列如下:
上游引物(SEQ ID No:5):
M13F:TGT AAA ACG ACG GCC AGT
下游引物(SEQ ID No:6):
M13R:CAG GAA ACA GCT ATG AC
反应总体积50μL,其中浓度为10μmol/L引物各加2.5μL,浓度为10mmol/L的dNTP加1μL,所用DNA聚合酶为Q5(#M0491L,购自New England BioLabs公司),2U/μL,加0.5μL。反应条件为98℃5秒、55℃45秒、72℃30秒,25个循环后,产物经1.0%琼脂糖凝胶电泳分析,结果显示产物大小与预期大小(1000bp)一致(结果如图5所示)。分别用XhoI(#R0146S,购自NewEngland BioLabs公司)和Xba I(#R01445S,购自New England BioLabs公司)双酶切后,1%琼脂糖电泳,得到的基因产物用DNA凝胶回收试剂盒(DP214,购自北京天根生化科技有限公司)纯化。用T4连接酶(#M0202S,购自New England BioLabs公司)连接到pPICZα A质粒(V173-20,购自Invitrogen公司)中,转化到DH5α感受态细胞(CB101,购自北京天根生化科技有限公司)中,在含有博来霉素(购自Invitrogen公司)的LB固体培养基中37℃培养过夜。第二天挑取阳性克隆菌测序,比对,与预期序列完全一致,即得到proDer p1密码子优化后的表达质粒,记为pPICZα-proDer p1(质粒构建如图6所示)。
实施例3:含有重组proDer p1基因毕赤酵母宿主工程菌株的构建
YPDS固体培养基配制:Invitrogen公司Easy SelectPichia Expression Kit说明书提供,其中酵母提取物10g/L,蛋白胨20g/L,葡萄糖20g/L,琼脂糖15g/L,山梨醇182g/L。
1.含有密码子优化后proDer p1宿主工程菌株的构建
按照Invitrogen公司Easy SelectPichia Expression Kit说明书的方法制备成电感受态细胞。将实施例2得到的质粒pPICZα-proDer p1,用Sac I限制性内切酶(#R0156S,购自New England Biolabs)酶切线性化,乙醇沉淀后将线性化载体,电转化毕赤酵母X33感受态细胞中,涂布于YPDS固体培养基,30℃培养直到转化子长出。
实施例4:含有密码子优化后proDer p1基因工程菌株诱导表达及鉴定
BMGY培养基配制:Invitrogen公司Easy SelectPichia Expression Kit说明书提供,其中酵母提取物10g/L,蛋白胨20g/L,K2HPO43g/L,KH2PO411.8g/L,YNB 13.4g/L,生物素4×10-4g/L,甘油10g/L。
BMMY培养基配制:Invitrogen公司Easy SelectPichia Expression Kit说明书提供,其中酵母提取物10g/L,蛋白胨20g/L,K2HPO43g/L,KH2PO411.8g/L,YNB13.4g/L,生物素4×10-4g/L,甲醇5mL/L。
1.密码子优化后proDer p1工程菌株甲醇诱导表达
挑取实施例3获得的宿主单克隆工程菌于5mL BMGY培养基中,于50mL无菌离心管中30℃,220rpm培养,至OD600=1.0-2.0时,取1mL保存菌种,并将剩余菌液重悬后转移到BMMY中小量诱导表达,每隔24h补加甲醇至终浓度为1%。一周后,离心收集菌液上清,通过SDS-PAGE凝胶电泳和蛋白免疫印迹分析,观察表达产物条带亮度,图7-a,图7-b为含有Derp1基因工程菌株诱导表达鉴定图。由图7-a,图7-b可知,proDer p1蛋白在工程菌株中得到了显著表达。
实施例5:重组Der p1蛋白的纯化
本专利构建的Der p1,主要采用离子交换,疏水层析纯化方法获得。层析填料选择为HiTrap SP FF,HiTrap Q FF,HiTrap Phenyl HP,具体步骤如下:
1.发酵液的除杂预处理
按实施例4得到proDer p1宿主工程菌株发酵液,12000rpm,15min低温离心收集上清,于5KD透析袋,25mM乙酸钠,pH=4.5缓冲液中透析48h,0.45μm滤膜过滤即得处理后发酵液上清。
2.阳离子交换层析
将上一步处理的发酵液上SP FF阳离子交换层析柱,平衡缓冲液为50mM NaAc,pH=4.5,洗脱缓冲液为50mM NaAc,1.0M NaCl,pH=4.5,按照12%,25%,100%等度洗脱,样品峰主要集中在25%洗脱峰,图8-a为Der p1离子交换纯化色谱图,图8-b为Der p1离子交换层析后SDS-PAGE分析图。
3.阴离子交换层析
收集上一步纯化的Der p1蛋白峰,样品用20mM NaH2PO4,pH=6.0溶液超滤,上HiTrap Q FF层析填料,平衡缓冲液为20mM NaH2PO4,pH=6.0,洗脱缓冲液为20mM NaH2PO4,1.0M NaCl,pH=6.0,收集Der p1穿透峰,图9为Der p1蛋白穿透峰。
4.疏水层析
收集阴离子层析Der p1穿透峰,加入硫酸铵至终浓度为1.5M,上述处理后的发酵液上清上Phenyl HP层析柱,平衡缓冲液为20mMNaH2PO4,1.5M(NH4)2SO4,pH=6.0;洗脱缓冲液为20mM NaH2PO4,pH=6.0,按照25%,50%,70%,100%等度洗脱,Der p1蛋白主要集中在75%洗脱峰,图10-a为Der p1疏水层析纯化色谱图,图10-b为Der p1疏水层析SDS-PAGE分析图。每升发酵液目的蛋白产量高达200mg以上。
实施例6:Der p1蛋白活性的分析
将纯化得到的Der p1蛋白用pH=7.4PBS缓冲液透析,BCA蛋白浓度测定试剂盒(Cat No:23225,购自Pierce公司)测定蛋白浓度,倍比稀释至250ng,125ng,62.5ng,31.25ng,15.625ng,通过斑点免疫印迹方法,天然Der p2做对照,比较与户尘螨病人血清反应性;图11为重组Der p1和天然Der p1(NA-DP1-1,购自Indoor Biotechnologies公司)与阳性血清斑点免疫印迹图,结果说明重组Der p1与天然Der p1相比与血清反应性基本一致,说明重组Der p1与天然Der p1相比具有相似的生物学活性。
实施例7:重组proDer p1工程菌株基因拷贝数的测定
1.接种X33菌株:于YPD培养基中培养24h,基因组提取试剂盒(购自北京天根生化科技有限公司)提取X33基因组,以X33基因组为模板,GAP-1,GAP-2引物扩增GAP基因,所用引物序列如下:
上游引物(SEQ ID No:7)
GAP-1:GGTATTAACGGTTTCGGACGTATTG
下游引物(SEQ ID No:8)
GAP-2:GATGTTGACAGGGTCTCTCTCTTGG
反应总体积50μL,其中浓度为10μmol/L引物各加2.5μL,浓度为10mmol/L的dNTP加1μL,所用DNA聚合酶为Taq DNA Polymerase(M0267S,购自New England BioLabs公司),2U/μL,加0.5μL。反应条件为94℃10分钟,94℃30秒、55℃30秒、68℃60秒,68℃5分钟,30个循环后,产物经1.0%琼脂糖凝胶电泳分析,结果显示产物大小与预期大小(400bp)一致(结果如图12所示)。得到的基因产物用DNA凝胶回收试剂盒(DP214,购自北京天根生化科技有限公司)纯化,连接到pGM-T载体试剂盒(VT202-01,购自北京天根生化科技有限公司)中,转化到Top10感受态细胞(CB101,购自北京天根生化科技有限公司)中,在蓝白斑筛选培养基上37℃培养过夜。第二天挑取白色克隆菌PCR鉴定,所用引物为GAP-1,GAP-2,PCR反应条件与上述条件一致,产物经1.0%琼脂糖凝胶电泳分析,结果显示产物大小与预期大小(400bp)一致(结果如图13所示),取阳性克隆送南京金斯瑞生物科技有限公司测序,比对,与预期序列完全一致,即得到GAP基因的T载体克隆,记为T-GAP,接种测序正确的T-GAP克隆于LB液体培养基37℃培养过夜,抽提质粒(质粒小提试剂盒DP103,购自北京天根生化科技有限公司),即得到作为实时定量PCR的标准质粒。
2.以实施例2中pPICZα-proDer p1质粒为模板,5’AOX,3’AOX引物扩增proDer p1基因,所用引物序列如下:
上游引物(SEQ ID No:9):
5’AOX:GACTGGTTCCAATTGACAAGC
下游引物(SEQ ID No:10):
3’AOX:GGCAAATGGCATTCTGACAT
反应总体积50μL,其中浓度为10μmol/L引物各加2.5μL,浓度为10mmol/L的dNTP加1μL,所用DNA聚合酶为Taq DNA Polymerase(#M0267S,购自New England BioLabs公司),2U/μL,加0.5μL。反应条件为94℃10分钟,94℃30秒、49℃30秒、68℃60秒,68℃5分钟,30个循环后,产物经1.0%琼脂糖凝胶电泳分析,结果显示产物大小与预期大小(1500bp)一致(结果如图14所示)。得到的基因产物用DNA凝胶回收试剂盒(DP214,购自北京天根生化科技有限公司)纯化,连接到pGM-T载体试剂盒(VT202-01,购自北京天根生化科技有限公司)中,转化到Top10感受态细胞(CB104,购自北京天根生化科技有限公司)中,在蓝白斑筛选培养基上37℃培养过夜。第二天挑取白色克隆菌PCR鉴定,所用引物为5’AOX,3’AOX,PCR反应条件与上述条件一致,产物经1.0%琼脂糖凝胶电泳分析,结果显示产物大小与预期大小(1500bp)一致(结果如图15所示),取阳性克隆送南京金斯瑞生物科技有限公司测序,比对,与预期序列完全一致,即得到proDer p1的T载体克隆,记为T-proDer p1,接种测序正确的T-proDer p1克隆于LB液体培养基37℃培养过夜,质粒小提试剂盒抽提质粒(DP103,购自北京天根生化科技有限公司),即得到作为实时定量PCR的标准质粒。
3.基因拷贝数的计算:
微量核酸分析仪(Nanodrop2000,ThermoFisher)测定标准质粒浓度(ng/μL)。根据以下公式计算GAP和proDer p1的拷贝数:
Copies/u=(6.02×1023)×(ng/μl×10-9)/(DNA length×660)
4.待测样品处理
接种pPICZα-proDer p1-X33工程菌株于YPD液体培养基中30℃培养过夜,第二天抽提基因组,并用微量核酸定量仪测定其浓度(ng/μL)及纯度。
5.标准曲线的建立
将已知拷贝数的标准质粒T-GAP和T-proDer p1分别梯度稀释至108,107,106,105,104,103copies/μl,分别以GAP-1和GAP-2、5’AOX和3’AOX为引物进行荧光定量PCR,图16-a为T-GAP标准质粒扩增曲线图,16-b为T-proDer p1标准质粒扩增曲线图,图17-a为T-GAP标准质粒熔解曲线图,17-b为T-proDer p1标准质粒熔解曲线图,每个梯度重复测定3次,以验证标准曲线的重复性。以Ct值为纵坐标、起始模板拷贝数为横坐标建立标准曲线图,图18-a为T-GAP标准质粒的的标准曲线图,图18-b为T-proDer p1标准质粒的的标准曲线图。
6.proDer p1基因在重组菌株中拷贝数测定
取抽提的pPICZα-proDer p1-X33基因组样品,将其依次进行10倍稀释,得到原液、10-1、10-2、10-3四个梯度。分别以GAP-1和GAP-2、5’AOX和3’AOX为引物进行荧光定量PCR,每个梯度重复测定3次。图19-a为以GAP-1,GAP-2为引物待测样品的扩增曲线图,图19-b为以5’AOX和3’AOX为引物待测样品的扩增曲线图,图20-a为以GAP-1,GAP-2为引物待测样品的熔解曲线图,图20-b为以5’AOX和3’AOX为引物待测样品的熔解曲线图。GAP基因在毕赤酵母中以单拷贝的形式存在,因此用GAP基因的拷贝数可以表征模板中基因组的起始拷贝数,proDer p1基因的拷贝数于GAP基因的拷贝数比值即为proDer p1基因在毕赤酵母基因组中的拷贝数;表1所示为proDer p1基因在毕赤酵母基因工程菌株中拷贝数检测结果,测定的拷贝数在4.98-5.46之间,消除系统误差取平均值,最终确定proDer p1基因的在重组菌株中拷贝数为5。
表1.实时荧光定量PCR法检测proDer p1在基因组中拷贝数结果
实施例9:proDer p1基因组中作用原件的分析
毕赤酵母没有稳定的附加质粒,表达载体与宿主染色体发生同源重组,外源基因表达框架整体整合于染色体中以实现外源基因的表达;典型的毕赤酵母表达载体含有醇氧化酶基因的调控序列,主要的结构包括AOX启动子、多克隆位点、转录终止和polyA姓曾基因序列(TT)、筛选标记等。启动子是基因表达调控的顺式原件,也是基因工程表达载体的重要原件,启动子在转录水平上的重要作用决定了基因的表达水平。
按照实施例8中方法提取proDer p1基因组,按照实施例8步骤2中方法从基因组中扩增得到proDer p1基因,以5’AOX和3’AOX为引物,送样到南京金斯瑞生物科技有限公司测定proDer p1基因插入基因组中前后位置的作用原件。基因组测序结果表明proDer p1基因表达框架在毕赤酵母染色体中的整合方式为单一交叉插入,使得proDer p1基因可利用酵母染色体上的AOX启动子进行基因表达,因此表达量更高。
通常外源编码序列的第一个ATG与AOX1的ATG距离越近、表达效果越好;在基因构建时发明人选用了与AOX1的ATG距离最近的酶切位点,通过基因组测序发现proDer p1基因与AOX1的ATG仅相差242bp;此外在proDer p1基因前加上了alpha-factor信号肽和Kozak序列GCCACCATGG,此信号肽和序列可在真核生物中极大地提高转录和翻译效率,提高proDerp1基因的表达效率。
序列表
<110> 江苏众红生物工程创药研究院有限公司 常州京森生物医药研究所有限公司
<120> 一种重组户尘螨1类变应原蛋白及其制备方法和应用
<130> 一种重组户尘螨1类变应原蛋白及其制备方法和应用
<160> 10
<170> SIPOSequenceListing 1.0
<210> 1
<211> 912
<212> DNA
<213> Dermatophagoides pteronyssinus
<400> 1
agaccatcct ccatcaagac tttcgaagag tacaagaagg ctttcaacaa gtcctacgct 60
actttcgagg acgaagaggc tgctagaaag aacttcttgg aatccgttaa gtacgttcag 120
tccaacggtg gtgctatcaa ccacttgtct gacttgtctt tggacgagtt caagaacaga 180
ttcttgatgt ccgctgaagc tttcgagcac ttgaaaacac agttcgactt gaacgctgaa 240
actaacgctt gttccatcaa cggtaacgct ccagctgaaa tcgacttgag acagatgaga 300
actgttactc caatcagaat gcagggtggt tgtggttctt gttgggcttt ttctggtgtt 360
gctgctactg aatccgctta cttggcttac agacaacagt ccttggactt ggctgaacaa 420
gagttggttg actgtgcttc ccaacatggt tgtcacggtg acactattcc aagaggtatc 480
gagtacatcc agcacaacgg tgttgttcaa gaatcctact acagatacgt tgctagagag 540
cagtcctgta gaagaccaaa cgctcaaaga ttcggtatct ccaactactg tcagatctac 600
ccacctaacg ctaacaagat cagagaggct ttggctcaaa ctcactccgc tatcgctgtt 660
atcatcggta tcaaggactt ggacgctttc agacactacg acggtagaac tatcatccag 720
agagacaacg gttaccagcc aaactaccac gctgttaata tcgttggtta ctctaacgct 780
caaggtgttg actactggat cgttagaaac tcctgggaca ctaactgggg tgataacggt 840
tacggttact tcgctgctaa cattgacttg atgatgattg aagagtaccc atacgttgtt 900
atcttgcatt aa 912
<210> 2
<211> 909
<212> DNA
<213> Dermatophagoides pteronyssinus
<400> 2
cgtccatcat cgatcaaaac ttttgaagaa tacaaaaaag ccttcaacaa aagttatgct 60
accttcgaag atgaagaagc tgcccgtaaa aactttttgg aatcagtaaa atatgttcaa 120
tcaaacggag gtgccatcaa ccatttgtcc gatttgtcgt tggatgaatt caaaaaccga 180
ttcttgatga gtgcagaagc ttttgaacac ctcaaaactc aattcgattt gaatgctgaa 240
actaacgcct gcagtatcaa tggaaatgct ccagctgaaa tcgatttgcg acaaatgcga 300
actgtcactc ccattcgtat gcaaggaggc tgtggttcat gttgggcttt ctctggtgtt 360
gccgcaactg aatcagctta tttggcttac cgtaatcaat cattggatct tgctgaacaa 420
gaattagtcg attgtgcttc ccaacacggt tgtaatggtg ataccattcc acgtggtatt 480
gaatacatcc aacataatgg tgtcgtccaa gaaagctact atcgatacgt tgcacgagaa 540
caatcatgcc gacgaccaaa tgcacaacgt ttcggtatct caaactattg ccaaatttac 600
ccaccaaatg caaacaaaat tcgtgaagct ttggctcaaa cccacagcgc tattgccgtc 660
attattggca tcaaagattt agacgctttc cgtcattatg atggccgaac aatcattcaa 720
cgcgataatg gttaccaacc aaactatcac gctgtcaaca ttgttggtta cagtaacgca 780
cagggtgtcg attattggat cgtacgaaac agttgggata ccaattgggg tgataatggt 840
tacggttatt ttgctgccaa catcgatttg atgatgattg aagaatatcc atatgttgtc 900
attctctaa 909
<210> 3
<211> 302
<212> PRT
<213> Dermatophagoides pteronyssinus
<400> 3
Arg Pro Ser Ser Ile Lys Thr Phe Glu Glu Tyr Lys Lys Ala Phe Asn
1 5 10 15
Lys Ser Tyr Ala Thr Phe Glu Asp Glu Glu Ala Ala Arg Lys Asn Phe
20 25 30
Leu Glu Ser Val Lys Tyr Val Gln Ser Asn Gly Gly Ala Ile Asn His
35 40 45
Leu Ser Asp Leu Ser Leu Asp Glu Phe Lys Asn Arg Phe Leu Met Ser
50 55 60
Ala Glu Ala Phe Glu His Leu Lys Thr Gln Phe Asp Leu Asn Ala Glu
65 70 75 80
Thr Asn Ala Cys Ser Ile Asn Gly Asn Ala Pro Ala Glu Ile Asp Leu
85 90 95
Arg Gln Met Arg Thr Val Thr Pro Ile Arg Met Gln Gly Gly Cys Gly
100 105 110
Ser Cys Trp Ala Phe Ser Gly Val Ala Ala Thr Glu Ser Ala Tyr Leu
115 120 125
Ala Tyr Arg Gln Gln Ser Leu Asp Leu Ala Glu Gln Glu Leu Val Asp
130 135 140
Cys Ala Ser Gln His Gly Cys Asn Gly Asp Thr Ile Pro Arg Gly Ile
145 150 155 160
Glu Tyr Ile Gln His Asn Gly Val Val Gln Glu Ser Tyr Tyr Arg Tyr
165 170 175
Val Ala Arg Glu Gln Ser Cys Arg Arg Pro Asn Ala Gln Arg Phe Gly
180 185 190
Ile Ser Asn Tyr Cys Gln Ile Tyr Pro Pro Asn Ala Asn Lys Ile Arg
195 200 205
Glu Ala Leu Ala Gln Thr His Ser Ala Ile Ala Val Ile Ile Gly Ile
210 215 220
Lys Asp Leu Asp Ala Phe Arg His Tyr Asp Gly Arg Thr Ile Ile Gln
225 230 235 240
Arg Asp Asn Gly Tyr Gln Pro Asn Tyr His Ala Val Asn Ile Val Gly
245 250 255
Tyr Ser Asn Ala Gln Gly Val Asp Tyr Trp Ile Val Arg Asn Ser Trp
260 265 270
Asp Thr Asn Trp Gly Asp Asn Gly Tyr Gly Tyr Phe Ala Ala Asn Ile
275 280 285
Asp Leu Met Met Ile Glu Glu Tyr Pro Tyr Val Val Ile Leu
290 295 300
<210> 4
<211> 222
<212> PRT
<213> Dermatophagoides pteronyssinus
<400> 4
Thr Asn Ala Cys Ser Ile Asn Gly Asn Ala Pro Ala Glu Ile Asp Leu
1 5 10 15
Arg Gln Met Arg Thr Val Thr Pro Ile Arg Met Gln Gly Gly Cys Gly
20 25 30
Ser Cys Trp Ala Phe Ser Gly Val Ala Ala Thr Glu Ser Ala Tyr Leu
35 40 45
Ala Tyr Arg Gln Gln Ser Leu Asp Leu Ala Glu Gln Glu Leu Val Asp
50 55 60
Cys Ala Ser Gln His Gly Cys His Gly Asp Thr Ile Pro Arg Gly Ile
65 70 75 80
Glu Tyr Ile Gln His Asn Gly Val Val Gln Glu Ser Tyr Tyr Arg Tyr
85 90 95
Val Ala Arg Glu Gln Ser Cys Arg Arg Pro Asn Ala Gln Arg Phe Gly
100 105 110
Ile Ser Asn Tyr Cys Gln Ile Tyr Pro Pro Asn Ala Asn Lys Ile Arg
115 120 125
Glu Ala Leu Ala Gln Thr His Ser Ala Ile Ala Val Ile Ile Gly Ile
130 135 140
Lys Asp Leu Asp Ala Phe Arg His Tyr Asp Gly Arg Thr Ile Ile Gln
145 150 155 160
Arg Asp Asn Gly Tyr Gln Pro Asn Tyr His Ala Val Asn Ile Val Gly
165 170 175
Tyr Ser Asn Ala Gln Gly Val Asp Tyr Trp Ile Val Arg Asn Ser Trp
180 185 190
Asp Thr Asn Trp Gly Asp Asn Gly Tyr Gly Tyr Phe Ala Ala Asn Ile
195 200 205
Asp Leu Met Met Ile Glu Glu Tyr Pro Tyr Val Val Ile Leu
210 215 220
<210> 5
<211> 18
<212> DNA
<213> 人工引物()
<400> 5
tgtaaaacga cggccagt 18
<210> 6
<211> 17
<212> DNA
<213> 人工引物()
<400> 6
caggaaacag ctatgac 17
<210> 7
<211> 25
<212> DNA
<213> 人工引物()
<400> 7
ggtattaacg gtttcggacg tattg 25
<210> 8
<211> 25
<212> DNA
<213> 人工引物()
<400> 8
gatgttgaca gggtctctct cttgg 25
<210> 9
<211> 21
<212> DNA
<213> 人工引物()
<400> 9
gactggttcc aattgacaag c 21
<210> 10
<211> 21
<212> DNA
<213> 人工引物()
<400> 10
gcaaatggca ttctgacatc c 21
Claims (9)
1.编码proDer p1蛋白的DNA序列,其碱基序列如SEQ ID NO:1所示。
2.重组proDer p1蛋白,其氨基酸序列如SEQ ID NO:3所示。
3.重组Derp1蛋白,其氨基酸序列如SEQ ID NO:4所示。
4.含有权利要求1所述编码proDerp1基因的载体,所述的载体为pAO815,pPIC9,pPIC9K,pPIC3.5,pPIC3.5K,pPICZαA、B、C或pGAPZαA、B、C。
5.包含权利要求1所述载体的毕赤酵母菌株,所述毕赤酵母菌株为SMD1168、GS115、KM71、X33或KM71H。
6.如权利要求4所述毕赤酵母菌株,其特征是编码proDer p1蛋白的DNA序列与毕赤酵母上AOX1的ATG相差242bp;编码proDer p1蛋白的DNA序列前有alpha-factor信号肽和Kozak序列GCCACCATGG。
7.重组proDer p1蛋白的表达方法,所述方法包含下述步骤:
A.构建含有如权利要求1所述的编码proDerp1基因的载体;
B.将步骤A的载体线性化后转入毕赤酵母菌株中,并在合适的条件下培养;
C.回收纯化蛋白质。
8.重组Derp1蛋白纯化方法,所述纯化方法如下:
A.将如权利要求6所述的proDer p1发酵液低温高速离心收集上清,于5KD透析袋,25mM乙酸钠,pH=4.5缓冲液中透析48h,0.45μm滤膜过滤。
B.第一步阳离子层析,用平衡缓冲液平衡层析柱,接着运用纯化系统将步骤A中已活化的成熟Derp1发酵液通过分离填料,然后运用洗脱缓冲液梯度洗脱,收集洗脱峰,平衡缓冲液为50mM乙酸钠,pH=4.5,洗脱缓冲液为50mM乙酸钠,1.0M氯化钠,pH=4.5。
C.第二步首先将B中收集得到的Der p1蛋白峰用20mM磷酸盐pH=6.0溶液超滤,平衡缓冲液平衡层析柱,将超滤的Derp1蛋白溶液上阴离子层析填料,收集穿透峰,平衡缓冲液为20mM磷酸盐,pH=6.0。
D.第三步将C中穿透峰加入硫酸铵至终浓度1.5M,pH=6.0,平衡缓冲液平衡层析柱,Der p1样品上疏水层析填料,洗脱缓冲液梯度洗脱,平衡缓冲液为1.5M硫酸铵,20mM磷酸盐,pH=6.0,洗脱缓冲液为20mM磷酸盐,pH=6.0。
9.如权利要求4所述的重组Der p1蛋白在制备治疗尘螨变态反应性疾病药物中的应用。
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Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN108265058A (zh) * | 2016-12-31 | 2018-07-10 | 江苏众红生物工程创药研究院有限公司 | 一种重组粉尘螨1类变应原蛋白及其制备方法和应用 |
| CN113846115A (zh) * | 2021-09-24 | 2021-12-28 | 广州医科大学 | 一种屋尘螨I类变应原pro-Der p 1重组蛋白及其制备方法与应用 |
| CN115724995A (zh) * | 2022-08-24 | 2023-03-03 | 吉林大学第一医院 | Der p 1融合蛋白及其应用 |
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| CN109265530A (zh) * | 2018-10-10 | 2019-01-25 | 无锡市人民医院 | 一种屋尘螨过敏原Der p 29基因重组蛋白及其应用 |
| CN109134638B (zh) * | 2018-10-10 | 2021-08-13 | 无锡市人民医院 | 一种屋尘螨过敏原Der p 22基因重组蛋白及其应用 |
| CN109265529A (zh) * | 2018-10-10 | 2019-01-25 | 无锡市人民医院 | 一种屋尘螨过敏原Der p 33基因重组蛋白及其应用 |
| CN109456989B (zh) * | 2018-10-31 | 2022-03-29 | 陕西慧康生物科技有限责任公司 | 一种提高毕赤酵母分泌表达的载体的构建方法 |
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| US20200123523A1 (en) | 2020-04-23 |
| CN108265056B (zh) | 2019-08-30 |
| US11359191B2 (en) | 2022-06-14 |
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