CN103773776B - 一种人源抗虫基因及其编码的抗Cry1C毒素独特型单链抗体与应用 - Google Patents
一种人源抗虫基因及其编码的抗Cry1C毒素独特型单链抗体与应用 Download PDFInfo
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Abstract
本发明涉及一种核苷酸序列如SEQ?ID?NO.1所示的人源抗虫基因,以及由该人源抗虫基因编码的氨基酸序列为SEQ?ID?NO.2的抗Cry1C毒素独特型单链抗体;该抗体为“β”类型,具有杀虫活性,经原核系统表达后,其初级培养物具有与稻纵卷叶螟中肠围食膜特异性受体BBMV的结合活性;本发明不经动物免疫而获得“β”类型的抗Cry1C毒素独特型单链抗体,制备周期短,氨基酸序列小,适合体外大规模生产,同时,本发明作为全新的新抗虫基因资源,对降低现有Bt毒素广泛使用存在的各类安全风险、替代Bt毒素用于农业害虫的生物防治、减少杀虫剂的使用具有重要意义。
Description
技术领域
本发明涉及基因工程和生物防治领域,特别是一种人源抗虫基因及其编码的抗Cry1C毒素独特型单链抗体与应用。
背景技术
目前全球广泛用于生物防治病虫害的杀虫基因是苏云金芽孢杆菌(Bacillusthuringiensis,Bt)的Bt毒素基因(例如Cry1C、Cry1Ab、Cry1B、Cry1F等)。苏云金芽孢杆菌是一种昆虫性病原细菌,其产生的Bt毒素对多种农、林害虫都有具有特异性毒杀作用。到1987年比利时植物遗传系统公司(PlantGeneticSystems)就在世界上首次报道了转Bt基因抗虫烟草获得成功,到现在,Bt基因已经被转到玉米、水稻、棉花、番茄、马铃薯、烟草等世界主要农作物中。据2012年国际生物技术应用服务组织统计,中国种植的转Bt棉面积就已经超过390万公顷,占棉花种植总面积的71.5%。然而,随着转Bt基因作物的应用和推广,其在基因逃逸、改变土壤微生物生态结构、物种的耐药性以及危害正常免疫系统等方面可能存在的潜在危害备受社会关注。“转Bt基因玉米根际微生物和细菌生理群多样性”(王敏等,生态学杂志,2010年03期)和“转Bt基因玉米对土壤细菌数量多样性的影响”(刘玲等,生态与农村环境学报,2011年03期)分别对室内、室外种植转Bt玉米的土壤进行了细菌数量和多样性分析,结果都发现种植转Bt玉米的与空白对照组相比出现显著差异。
“Cry1AcprotoxinfromBacillusthuringiensissp.kurstakiHD73bindstosurfaceproteinsinthemousesmallintestine”(Vázquez-Padrón等,BiochemBiophysResCommun,2000年01期)在动物试验发现,当小鼠摄取的Bt内、外毒蛋白达到10mg/kg和100mg/kg时,小鼠的T细胞ANAE阳性率、脾脏指数及巨噬细胞的吞噬功能均出现了明显的抑制反应,随着摄取剂量的增加,这种抑制作用越发明显。试验还发现,当Bt毒素蛋白在动物体内的蓄积系数大于6.24时,可以导致肝脏、肾脏及胃肠道等损伤,在肝脏和肾脏中可以观察到细胞肿胀和空泡样变性异象,并且能看见肾小球血管上皮细胞的病变,当然这也不能排除是由免疫反应造成的。长期大剂量使用Bt毒素蛋白,还会导致动物白细胞总数和血红蛋白含量显著性下降,这也说明Bt毒素蛋白具有明显的免疫抑制毒性。开拓具有Bt毒素生物活性的替代生物效应物(例如:抗独特型抗体)是开发生物农药领域研究的热点。
1974年,丹麦免疫学家Jerne在其“免疫网络学说(ImmuneNetworkTheory)”中首次提出抗独特型抗体的概念。抗独特型抗体(Anti-idiotypeantibody,以下简称Anti-Id)是指针对位于抗体分子可变区的独特型(Idiotype,Id)产生的特异性抗体。Bona等根据Id与Anti-Id的血清学反应以及AId的功能,将抗独特型抗体分为4种类型(α,β,γ和ε)。β型抗独特型抗体由于具有“内影像”作用,即具有与(半)抗原相同的抗原决定簇,因而可以具有抗原的功能和生物活性。
目前普遍认为采用噬菌体展示技术,通过构建噬菌体抗体库,经特异性筛选,可以获得具有靶标抗原类似效应的抗独特型抗体。采用噬菌体展示技术筛选特异性抗体的过程称为“淘选(Panning)”,主要包括结合、洗涤、洗脱和扩增4个步骤。Raats等采用抗皮质醇单克隆抗包被做为固相抗原直接进行筛选,在进行筛选之前,用相同种属的阴性单克隆抗体进行负筛选以避免筛选到与抗体恒定区结合的重组抗体片段,最终成功筛选到针对皮质醇的Anti-Id。Goletz等同样利用噬菌体抗体展示系统并研究比较了不同洗脱方法对抗独特型抗体片段筛选结果的影响,最终筛选到的96个克隆中有28个为具有抗独特型特性的阳性克隆。目前针对可替代Bt活性效应物,特别是抗Bt毒素类型的抗独特型单链抗体(以下简称Anti-IdScFvs)小分子多肽等相关材料及产品还未见报道。
发明内容
针对目前转Bt毒素作物及其毒素制剂的广泛应用存在的安全隐患及超敏反应等问题,开拓具有Bt毒素生物活性的可替代生物效应物及其在生物防治害虫中的应用,本发明是这样实现的:
一种人源抗虫基因,其核苷酸序列如SEQIDNO.1所示。
本发明中,由SEQIDNO.1编码的抗Cry1C毒素独特型单链抗体,其氨基酸序列如SEQIDNO.2所示。
本发明中,一种含有人源抗虫基因SEQIDNO.1的原核表达载体。
本发明中,一种人源抗虫基因SEQIDNO.1在农业害虫防治方面的应用。
本发明中,一种含氨基酸序列如SEQIDNO.2所示的抗Cry1C毒素独特型单链抗体的杀虫剂。
本发明从公开的人类基因库中,筛选获得1种具有杀虫活性的“β”类型抗Cry1C毒素独特型单链抗体,该单链抗体经原核系统表达,其初级培养物具有与稻纵卷叶螟中肠围食膜特异性受体BBMV的结合活性,本发明不经动物免疫而获得“β”类型的抗Cry1C毒素独特型单链抗体,制备周期短,氨基酸序列小,适合体外大规模生产;同时,本发明作为全新的新抗虫基因资源,对探索拓展具有模拟Bt毒素生物活性的新型抗虫基因资源,降低现有Bt毒素广泛使用存在的各类安全风险乃至以后可能替代Bt用于农业害虫的生物防治,减少杀虫剂的使用等具有重要的科学及现实意义。
附图说明
图1为E8ELISA检测结果示意图。
图2为E8生物学测定结果示意图。
图3为分别喂食经E8、CK+、CK-浸泡过的水稻叶片后的稻纵卷叶螟三龄幼虫死亡情况示意图。
图4为分别喂食经E8、CK+、CK-浸泡过的甘蓝片后的小菜蛾三龄幼虫死亡情况示意图。
具体实施方式
实施例1筛选人源抗虫基因
实施例所涉及的试剂和培养基配方:
(1)2×TY液体培养基:
在900mL双蒸水中加入16g胰蛋白胨,10g酵母提取物和5gNaCl,搅拌混匀,用双蒸水定容到1L,置于高压灭菌锅中,121℃,20min灭菌,冷却后,置于4℃保存备用。
(2)2×TY-AG液体培养基:
在2×TY的培养基中加入终浓度为100μg/ml氨苄青霉素和质量比为1%葡萄糖。
(3)2×TY-AK液体培养基:
在2×TY的培养基中加入终浓度为100μg/ml氨苄青霉素、50μg/ml卡那霉素。
(4)2×TY-AKG液体培养基:
在2×TY的培养基中加入终浓度为100μg/ml氨苄青霉素、50μg/ml卡那霉素和质量比为1%葡萄糖。
(5)TYE固体培养基:
在900ml双蒸水中加入15.0g琼脂糖,8gNaCl,10g胰蛋白胨,5g酵母提取物,用双蒸水定容到1L,置于高压灭菌锅中,121℃,20min灭菌,冷却后,置于4℃保存备用。
(6)TYE-AG固体培养基:
在TYE固体培养基中加入终浓度为100μg/ml氨苄青霉素和质量比为1%葡萄糖。
(7)PBS溶液
称取NaCl8.0g,KCl0.2g,Na2HPO4·12H2O2.9g,KH2PO40.2g,分别加入到蒸馏水中,充分溶解后,定容到1L。
(8)PBST溶液
在PBS溶液中加入体积比为0.05%的吐温-20。
(9)PEG/NaCl溶液:
称取20gPEG8000,14.61gNaCl,加80ml去离子水,定容到100ml,置于高压灭菌锅中,121℃,20min灭菌,冷却后,置于4℃保存备用。
(10)柠檬酸盐缓冲液(CPBS,底物缓冲液,pH5.5):
取C6H7O8(柠檬酸)21g,Na2HPO4·12H2O71.6g,分别加入到蒸馏水中充分溶解后定容到1L。
(11)四甲基联苯胺(TMB)溶液:
称取10mg四甲基联苯胺溶于1ml二甲基亚砜中,避光,置于4℃保存备用。
(12)底物显色溶液:
10ml配方成分:9.875mlCPBS、100μlTMB溶液、25μl体积比为20%H2O2。
实施例所涉及材料来源:
抗Cry1C多克隆抗体、BBMV、不相关的抗独特型单链抗体、非“β”类型的Anti-IdScFv、甘蓝叶片、小菜蛾三龄幼虫均由江苏省农业科学院农业部农产品质量安全控制技术与标准重点实验室提供;
人源化的噬菌体抗体库、TG1细菌和辅助噬菌体KM13购于英国SourceBioScience公司;
HRP-羊抗M13-IgG购于武汉博士德公司;
Cry1C毒素和Cry1Ab毒素购于上海佑隆生物科技有限公司;
水稻叶片和纵卷叶螟三龄幼虫由扬州绿源生物化工有限公司提供。
实施例1筛选抗Cry1C毒素独特型单链抗体
(1)取人源化的噬菌体抗体库菌液20μl加入到200ml2×TY-AG液体培养基中,37℃恒温培养到OD600为0.4,取50ml菌液,加入1×1012pfu辅助噬菌体KM13进行超感染,于37℃孵育30min后以3300g离心10min,弃上清液,用100ml2×TY-AKG液体培养基重悬沉淀,30℃培养过夜;次日3300g离心30min,收集上清液并加入20mlPEG/NaCl溶液,冰浴1h后再3300g离心30min,用4mlPBS重悬沉淀;重悬液以11600g离心10min,上清液即为扩增的噬菌体抗体库;
(2)取步骤1获得的扩增的噬菌体抗体库进行4轮淘筛:第1轮淘筛将4ml100μg/ml的抗Cry1C多克隆抗体包被于细胞培养瓶底部,4℃过夜,次日分别用1mlPBS清洗细胞培养瓶3次后加入混匀的1ml扩增的噬菌体抗体库与4ml3%的MPBS溶液,置于摇床于室温下缓慢摇动1h,再静置1h后倾去培养瓶中液体,分别用1mlPBST溶液洗瓶20次,加入1ml10mg/ml的胰蛋白酶(Trypsin)洗脱特异性结合的噬菌体抗体,洗脱液即为第1轮淘筛的噬菌体抗体;第2、3、4轮淘筛的包被抗Cry1C多克隆抗体浓度分别为50μg/ml、25μg/ml、10μg/ml,所使用的噬菌体抗体为前一轮淘筛获得的噬菌体抗体,淘筛方法与第1轮相同;取第4轮淘筛的噬菌体抗体10μl侵染1ml处于对数生长期的TG1细菌,37℃孵育1h后,涂布于TYE-AG固体培养基上,37℃培养过夜;次日随机挑取单菌落,接种到含100μl/孔2×TY-AG液体培养基的96孔板中,37℃培养过夜;次日从板孔中吸出2μl菌液转接到新的96孔板孔中,37℃孵育2h,每孔加入25μl滴度为1012的辅助噬菌体KM13,30℃孵育2h,1800g离心10min,用150μl2×TY-AK液体培养基重悬沉淀后30℃培养过夜,次日1800g离心30min,分别取上清液;
(3)取4μg/ml的抗Cry1C多克隆抗体加入到96孔板中,100μl/孔,4℃过夜,次日每孔分别加入100μl步骤2获得的上清液,阴性对照加100μl2×TY-AK液体培养基,37℃水浴2h,每孔用250μlPBST洗板后,每孔加入100μl1:5000稀释的HRP-羊抗M13-IgG,37℃孵育2h;每孔加入100μl底物显色溶液,室温下反应10~20min至出现蓝色,最后每孔加入50μl浓度为2mol/L的H2SO4快速终止反应后用酶标仪测定OD450值,其中溶液OD450值/阴性对照OD450值大于2.1的,判断为阳性,与该溶液对应的步骤2中的上清液即为筛选到的含有抗Cry1C毒素独特型单链抗体的上清液。
以Sanger测序法测定筛选到的抗Cry1C毒素独特型单链抗体核苷酸序列为SEQIDNO.1如下:
tctatttcaaggagacagtcataatgaaatacctattgcctacggcagccgctggattgt60
tattactcgcggcccagccggccatggccgaggtgcagctgttggagtctgggggaggct120
tggtacagcctggggggtccctgagactctcctgtgcagcctctggattcacctttagca180
gctatgccatgagctgggtccgccaggctccagggaaggggctggagtgggtctcatcga240
ttagtaagcatggtagtaggacaacttacgcagactccgtgaagggccggttcaccatct300
ccagagacaattccaagaacacgctgtatctgcaaatgaacagcctgagagccgaggaca360
cggccgtatattactgtgcgaaacggagtaggctgtttgactactggggccagggaaccc420
tggtcaccgtctcgagcggtggaggcggttcaggcggaggtggcagcggcggtggcgggt480
cgacggacatccagatgacccagtctccatcctccctgtctgcatctgtaggagacagag540
tcaccatcacttgccgggcaagtcagagcattagcagctatttaaattggtatcagcaga600
aaccagggaaagcccctaagctcctgatctatcatgcatcccacttgcaaagtggggtcc660
catcaaggttcagtggcagtggatctgggacagatttcactctcaccatcagcagtctgc720
aacctgaagattttgcaacttactactgtcaacagcggcatcagcggcctcggacgttcg780
gccaagggaccaaggtggaaatcaaacgggcggccgcacatcatcatcaccatcacgggg840
ccg843
以Sanger测序法测定筛选到的抗Cry1C毒素独特型单链抗体核苷酸翻译后的氨基酸序列为SEQIDNO.2,如下:
H-CDR1
MKYLLPTAAAGLLLLAAQPAMAEVQLLESGGGLVQPGGSLRLSCAASGFTFSSYAMSWVR60
H-CDR2--
QAPGKGLEWVSSISKHGSRTTYADSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCAK120
H-CDR1-----------Link------------------
RSRLFDYWGQGTLVTVSSGGGGSGGGGSGGGGSTDIQMTQSPSSLSASVGDRVTITCRAS180
L-CDR1L-CDR2
QSISSYLNWYQQKPGKAPKLLIYHASHLQSGVPSRFSGSGSGTDFTLTISSLQPEDFATY240
L-CDR3His-tag
YCQQRHQRPRTFGQGTKVEIKRAAAHHHHHHGAAEQKLISEEDLNGAASTP291
申请人将此抗Cry1C毒素独特型单链抗体自命名为E8。
实施例2制备E8的初级培养物
将实施例1筛选到的含有抗Cry1C毒素独特型单链抗体的上清液按体积比1:100转接到10ml2×TY-AG液体培养基中,37℃孵育2h,加入100μl滴度为1012的辅助噬菌体KM13进行救援,30℃孵育2h,1800g离心10min,去上清液,用2×TY-AK液体培养基重悬沉淀菌种,于30℃、250rpm振荡培养过夜;次日1800g离心30min,其上清液即为含有E8初级培养物的上清液。
实施例3E8的亚型鉴定
(1)竞争抑制ELISA检测实验
实验分为6个实验组与相应的对照组,分别依表1配制溶液
表1竞争抑制ELISA检测实验溶液配制
分组 | E8 | 不相关的抗独特型单链抗体 | 2×TY液体培养基 |
实验组1 | 5 μl | 45 μl | |
对照组1 | 5 μl | 45 μl | |
实验组2 | 10 μl | 40 μl | |
对照组2 | 10 μl | 40 μl | |
实验组3 | 20μl | 30μl | |
对照组3 | 20μl | 30μl | |
实验组4 | 30μl | 20μl | |
对照组4 | 30μl | 20μl | |
实验组5 | 40μl | 10μl | |
对照组5 | 40μl | 10μl | |
实验组6 | 50μl | ||
对照组6 | 50μl |
表1中E8为实施例2获得的含E8初级培养物的上清液;
分别向表1配制好的溶液中加入50μl10μg/ml的抗Cry1C多克隆抗体37℃孵育2h,后分别加入到包被有2μg/mlCry1C毒素的96孔板中(所述包被有2μg/mlCry1C毒素的96孔板为前一天取2μg/ml的Cry1C毒素加入到96孔板中,100μl/孔,4℃过夜)反应2h;每孔用250μlPBST洗板3次后每孔分别加入100μl1:5000稀释的HRP-羊抗兔IgG室温孵育1h;每孔用250μlPBST洗板3次后,每孔分别加入100μl底物显色溶液,室温下反应10~20min至出现蓝色,最后每孔分别加入50μl浓度为2mol/L的H2SO4快速终止反应;用酶标仪测定OD450值。
实验结果如图1所示,可见抑制率随着E8含量的增加而增大,对照组则无竞争抑制现象,说明E8为β型抗独特型单链抗体,能够模拟Cry1C毒素与其竞争结合抗Cry1C毒素多克隆抗体。
(2)生物学测定实验
实验分为实验组1、实验组2、实验组3、阳性对照组、阴性对照组1、阴性对照组2、阴性对照组3;实验步骤如下:
(a)封闭:将100μl/孔5μg/mlBBMV包被于96孔板中,4℃过夜,次日每孔用250μlPBST洗板3次后,分别加入200μl质量比为3%的BSA于室温孵育2h,进行封闭;
(b)加样:将步骤1封闭后的96孔板用250μl/孔的PBST洗板3次后,分别向96孔板按照表2进行加样:
表2E8生物学测定实验溶液配制
分组 | 2μg/ml Cry1C毒素 | E8 | 非“β”类型的Anti-Id ScFv | 2×TY-AG液体培养基 | CPBS |
实验组1 | 50 μl | 10 μl | 40μl | ||
实验组2 | 50 μl | 30 μl | 20μl | ||
实验组3 | 50 μl | 50 μl | |||
阳性对照组 | 50 μl | 50 μl | |||
阴性对照组1 | 50 μl | 10 μl | 40μl | ||
阴性对照组2 | 50 μl | 30 μl | 20μl | ||
阴性对照组3 | 50 μl | 50 μl |
表2中,E8为实施例2获得的含E8初级培养物的上清液;
(c)将步骤b加样后的96孔板于室温下孵育2h,每孔用250μlPBST洗板3次后,然后每孔加入100μl10μg/ml抗Cry1C多克隆抗体,再每孔用250μlPBST洗板3次,每孔加入100μl1:5000稀释的HRP-羊抗兔IgG室温孵育1h;每孔用250μlPBST洗板3次,每孔加入100μl底物显色溶液,室温下反应10~20min至出现蓝色,最后每孔加入50μl浓度为2mol/L的H2SO4快速终止反应后,用酶标仪测定OD450值。
实验结果如图2所示,与阳性对照相比,抗Cry1C毒素独特型单链抗体E8(实验组1、2、3)能够抑制Cry1C毒素与其受体BBMV结合;而非“β”类型的阴性对照则无抑制现象,进一步证实了E8为“β”类型。
实施例4抗Cry1C毒素独特型单链抗体杀虫活性验证
实验分为实验组与对照组:
实验组用实施例2获得的含有E8初级培养物的上清液(E8);
阳性对照组采用浓度为0.2g/L的Cry1Ab毒素(CK+);
阴性对照组采用非“β”类型的Anti-IdScFvs(CK-);
实验步骤:
取实验组、阳性对照组、阴性对照组各10ml,置于灭菌后的培养皿中,分别放入6片水稻叶片和6片甘蓝叶片,浸泡30min,取出晾干;稻纵卷叶螟三龄幼虫和小菜蛾三龄幼虫以晾干后的叶片喂食。
实验结果如图3、4所示,其中,图3为分别喂食经E8、Cry1Ab毒素(CK+)、非“β”类型的Anti-IdScFvs(CK-)浸泡过的水稻叶片后的稻纵卷叶螟三龄幼虫死亡情况,图4为分别喂食经E8、Cry1Ab毒素(CK+)、非“β”类型的Anti-IdScFvs(CK-)浸泡过的甘蓝片后的小菜蛾三龄幼虫死亡情况,可看出,E8具有较好的杀虫效果。
SEQUENCELISTING
<110>江苏省农业科学院
<120>一种人源抗虫基因及其编码的抗Cry1C毒素独特型单链抗体与应用
<130>2
<160>2
<170>PatentInversion3.3
<210>1
<211>843
<212>DNA
<213>人工筛选
<400>1
tctatttcaaggagacagtcataatgaaatacctattgcctacggcagccgctggattgt60
tattactcgcggcccagccggccatggccgaggtgcagctgttggagtctgggggaggct120
tggtacagcctggggggtccctgagactctcctgtgcagcctctggattcacctttagca180
gctatgccatgagctgggtccgccaggctccagggaaggggctggagtgggtctcatcga240
ttagtaagcatggtagtaggacaacttacgcagactccgtgaagggccggttcaccatct300
ccagagacaattccaagaacacgctgtatctgcaaatgaacagcctgagagccgaggaca360
cggccgtatattactgtgcgaaacggagtaggctgtttgactactggggccagggaaccc420
tggtcaccgtctcgagcggtggaggcggttcaggcggaggtggcagcggcggtggcgggt480
cgacggacatccagatgacccagtctccatcctccctgtctgcatctgtaggagacagag540
tcaccatcacttgccgggcaagtcagagcattagcagctatttaaattggtatcagcaga600
aaccagggaaagcccctaagctcctgatctatcatgcatcccacttgcaaagtggggtcc660
catcaaggttcagtggcagtggatctgggacagatttcactctcaccatcagcagtctgc720
aacctgaagattttgcaacttactactgtcaacagcggcatcagcggcctcggacgttcg780
gccaagggaccaaggtggaaatcaaacgggcggccgcacatcatcatcaccatcacgggg840
ccg843
<210>2
<211>291
<212>PRT
<213>人工筛选
<400>2
MetLysTyrLeuLeuProThrAlaAlaAlaGlyLeuLeuLeuLeuAla
151015
AlaGlnProAlaMetAlaGluValGlnLeuLeuGluSerGlyGlyGly
202530
LeuValGlnProGlyGlySerLeuArgLeuSerCysAlaAlaSerGly
354045
PheThrPheSerSerTyrAlaMetSerTrpValArgGlnAlaProGly
505560
LysGlyLeuGluTrpValSerSerIleSerLysHisGlySerArgThr
65707580
ThrTyrAlaAspSerValLysGlyArgPheThrIleSerArgAspAsn
859095
SerLysAsnThrLeuTyrLeuGlnMetAsnSerLeuArgAlaGluAsp
100105110
ThrAlaValTyrTyrCysAlaLysArgSerArgLeuPheAspTyrTrp
115120125
GlyGlnGlyThrLeuValThrValSerSerGlyGlyGlyGlySerGly
130135140
GlyGlyGlySerGlyGlyGlyGlySerThrAspIleGlnMetThrGln
145150155160
SerProSerSerLeuSerAlaSerValGlyAspArgValThrIleThr
165170175
CysArgAlaSerGlnSerIleSerSerTyrLeuAsnTrpTyrGlnGln
180185190
LysProGlyLysAlaProLysLeuLeuIleTyrHisAlaSerHisLeu
195200205
GlnSerGlyValProSerArgPheSerGlySerGlySerGlyThrAsp
210215220
PheThrLeuThrIleSerSerLeuGlnProGluAspPheAlaThrTyr
225230235240
TyrCysGlnGlnArgHisGlnArgProArgThrPheGlyGlnGlyThr
245250255
LysValGluIleLysArgAlaAlaAlaHisHisHisHisHisHisGly
260265270
AlaAlaGluGlnLysLeuIleSerGluGluAspLeuAsnGlyAlaAla
275280285
SerThrPro
290
Claims (5)
1.一种人源抗虫基因,其核苷酸序列如SEQIDNO.1所示。
2.一种由权利要求1所述人源抗虫基因编码的抗Cry1C毒素独特型单链抗体,其氨基酸序列如SEQIDNO.2所示。
3.一种含有权利要求1所述人源抗虫基因的原核载体。
4.一种如权利要求1所述人源抗虫基因在农业害虫防治方面的应用。
5.一种含权利要求2所述抗Cry1C毒素独特型单链抗体的杀虫剂。
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JP2016535246A JP6211703B2 (ja) | 2014-01-26 | 2015-01-09 | ヒト耐虫遺伝子およびそれによりコードされた抗Cry1C毒素イディオタイプ一本鎖抗体ならびに用途 |
PCT/CN2015/070422 WO2015109953A1 (zh) | 2014-01-26 | 2015-01-09 | 一种人源抗虫基因及其编码的抗Cry1C毒素独特型单链抗体与应用 |
BR112016016027-4A BR112016016027B1 (pt) | 2014-01-26 | 2015-01-09 | Gene de resistência a inseto derivado de humanos e anticorpo de cadeia única de idiotipo anti-toxina crylc codificado pelo mesmo e uso do mesmo |
US15/025,805 US9745385B2 (en) | 2014-01-26 | 2015-01-09 | Anthropogenic insect-resistant gene and Cry1C toxin idiotype single-chain antibody encoded thereby and application thereof |
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-
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Non-Patent Citations (3)
Title |
---|
Isolation of single chain variable fragment (scFv) specific for Cry1C toxin from human single fold scFv libraries;Yun Wang et al.;《Toxicon》;20121231;第60卷;图2,第2节材料和方法 * |
两种Bt毒素单链抗体制备与抗体检测技术研究;王耕;《中国优秀博士学位论文全文数据库(电子期刊)农业科技辑》;20131215;正文第46页至第49页 * |
人源化抗Cry1B毒素蛋白单链抗体的原核表达及生物学活性测定;徐重新 等;《南京农业大学学报》;20121231;第36卷(第3期);全文 * |
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EP3048171A4 (en) | 2017-03-01 |
EP3048171A1 (en) | 2016-07-27 |
EP3048171B1 (en) | 2018-05-02 |
JP6211703B2 (ja) | 2017-10-11 |
WO2015109953A1 (zh) | 2015-07-30 |
BR112016016027B1 (pt) | 2022-02-08 |
JP2017505111A (ja) | 2017-02-16 |
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