CN111004842B - 基于单链rna肽连接酶的jak2基因特定突变检测试剂盒及方法 - Google Patents
基于单链rna肽连接酶的jak2基因特定突变检测试剂盒及方法 Download PDFInfo
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Abstract
本发明提供了一种基于单链RNA肽连接酶的JAK2基因g.[146452_146455delATGA]突变检测试剂盒及方法,是在指数扩增前就直接先对目标突变基因mRNA片段进行捕获富集,然后再对目标基因突变片段进行特异性扩增和检测的。JAK2基因g.[146452_146455delATGA]检测试剂盒主要包括:sRPlaseI连接酶,sRPlaseI连接酶缓冲液,RNase H酶,磁载多肽Ps,短DNA片段P1和P2,引物Pn和Pm,其中sRPlaseI连接酶其氨基酸序列如SEQ ID NO:1所示;检测方法主要包括杂交和RNase H酶消化、sRPlaseI酶连接和磁珠分离、特异性扩增这3部分。本发明提供的检测试剂盒和检测方法,具有特异性强和准确高效、简便经济的特点,可以有效检测出样本中含量低至1%的JAK2基因g.[146452_146455delATGA]突变,可以应用于男性结直肠癌患者肺转移的预测和诊治中。
Description
技术领域
本发明涉及分子生物学领域,具体涉及一种基于单链RNA肽连接酶的JAK2基因g.[146452_146455delATGA]突变检测试剂盒及其检测方法。
背景技术
基因是生物体的遗传物质,由其表达的蛋白质承担着生物体内的各项生命机能。基因发生变异或突变将导致生物体出现不同的生物特性或疾病状态。基因突变是基因在其分子结构上发生的核苷酸组成或排列顺序的改变,主要包括点突变、移码突变、缺失突变和插入突变这四种。基因突变和肿瘤的发生发展密切相关。目前,肿瘤已成为全世界范围内发病率和致死率最高的疾病。根据国家癌症中心2019年发布的数据显示,我国2015年新发癌症病例约392.9万例(平均每天超过1万人被确诊为癌症),死亡人数约233.8万例;近10多年来,我国癌症发病率每年保持约3.9%的增幅,死亡率每年保持约2.5%的增幅,给国人的生命健康造成了重大的威胁和沉重的负担。
在癌症诊治过程中常采用的血清肿瘤标志物和CT等检测手段具有局限性,首先其敏感性和特异性均不高,其次发现有异常时往往已是中晚期,最关键的是无法准确反映出癌灶的分子特征。癌症是一种基因疾病,其发生发展过程中涉及了各种基因突变,它是一个多基因突变累积的过程。因此解析癌症样本中存在的基因突变尤其是驱动基因等关键基因的特定突变,才能从分子本质上体现癌症的真实状况,这对于探究癌症的发生发展机制和预测癌症的发展变化,对于癌症的筛查和诊断,对于癌症的用药和治疗等方面都具有重要的意义。然而在癌症样本中,癌灶部分往往只占检材中的一部分,并且发生特定基因突变的癌细胞也只是癌灶中的一部分(癌灶的异质性),即癌症检测样本中常常存在着大量的野生型基因,尤其是在早癌样本中突变基因只占微小的比例,因此要从中准确有效地检测出特定的基因突变将具有很大的挑战性。
目前有多种分子技术可用于癌症基因突变的检测,如PCR-Sanger测序法、实时荧光定量PCR、扩增阻滞突变系统PCR(ARMS-PCR)、数字PCR、变性高效液相色谱法(D-HPLC)以及二代测序(NGS)等方法。其中多数是基于PCR的方法,然而常规PCR扩增时无法区分野生型基因和突变基因,必需进行特定的设计或解析。如常规应用的PCR-Sanger测序法,就是扩增出特定基因片段,然后进行Sanger测序,利用测序峰图来分析特定基因位点的突变情况;再如商品化的ARMS技术,就是设计针对特定基因突变的扩增引物和检测探针,来实现特定基因突变的特异扩增和检测的;再如非常热门的二代测序技术,就是首先无区分地扩增特定基因片段,再利用二代测序超高通量的并行测序能力测出所有扩增基因片段,最后解析其中的突变。
本发明借助于申请人前期研究获取的单链RNA肽连接酶sRPlaseI(详见申请人之前提交的发明专利申请:一种单链RNA肽连接酶sRPlaseI及其使用方法,申请号:2020100773325),提出了一种特定基因突变的检测新方法,与现有方法不同的是本发明方法是在指数扩增前,先利用sRPlaseI酶连接和磁珠吸附直接对目标突变基因的mRNA片段进行捕获富集,然后再对目标基因突变片段进行特异性扩增和检测的。这是一种全新的特定基因突变检测方法,具有特异性强和准确高效、简便经济的特点。基于此,本发明将其应用于JAK2基因g.[146452_146455delATGA]突变的检测,提供了具体的检测试剂盒及其检测方法。
发明内容
本发明提供了基于特定单链RNA肽连接酶sRPlaseI的JAK2基因g.[146452_146455delATGA]突变的检测试剂盒及其对应的检测方法。
本发明解决其技术问题所采用的技术方案如下:
本发明的目的之一在于提供一种基于特定单链RNA肽连接酶sRPlaseI的JAK2基因g.[146452_146455delATGA]突变的检测试剂盒,其主要组分包括:(1)sRPlaseI连接酶,sRPlaseI连接酶的氨基酸序列如SEQ ID NO:1所示,对应的基因编码序列如SEQ ID NO:2所示;(2)sRPlaseI连接酶缓冲液,由pH为7.5的500mM Tris-Hcl、100mM Mg2+、10mM ATP和10mMDTT组成组成,每1μl反应体系中添加0.1μl的连接酶缓冲液;(3)RNase H酶,采用美国Thermo Fisher公司产品,包括其配套的缓冲液;(4)磁载多肽Ps,其中多肽Ps的氨基酸序列为N’-EAGAGAGAGAGAGAGAGAGAGAGAGMANCEHL-C’,其N端氨基酸E需要进行生物素修饰;(5)短DNA片段P1,其序列为5’-ATAGATCTGTAAAGGAGAAAATA-3’;(6)短DNA片段P2,其序列为5’-GCAAAATTTACATAATAATTTTTTCAG-3’;(7)引物Pm,其序列为5’-ATGATCCAGAATGCTGGAAC-3’;(8)引物Pn,其序列为5’-GTCTCAAAAAGCTGAGTTGAA-3’。
其中,试剂盒组分(4)即磁载多肽Ps的主要制备步骤为:1)取0.1ml磁珠按照链霉亲和素磁珠产品说明书中方法进行磁珠的准备,用15ml的离心管装载,采用磁珠产品中自带的缓冲液,最终得到10ml工作液状态下的磁珠液;2)往1)中的磁珠液中加入10mmol/l的多肽Ps溶液0.1ml,采用垂直旋转混匀仪室温下保持充分混匀10min;3)借助磁力架并用缓冲液洗涤已包被多肽的磁珠3次,去除未结合物质,之后加入适量超纯水进行重悬,则可得到磁载多肽Ps悬液。除了本发明试剂盒各组分外,JAK2基因g.[146452_146455delATGA]突变的检测还需要一些常规通用组分,如反转录酶等,可以自行采备。
本发明的目的之二在于提供一种基于特定单链RNA肽连接酶sRPlaseI的JAK2基因g.[146452_146455delATGA]突变的检测方法,即采用上述试剂盒进行JAK2基因g.[146452_146455delATGA]突变检测的检测方法,其主要包括如下步骤:
(1)杂交和RNase H酶消化
以提取的待测样本RNA为模板,加入特异性的短DNA片段杂交构建含局部DNA-RNA双链的目标基因mRNA,再采用RNase H酶消化掉杂交区域上的RNA片段,使获得的特定mRNA片段暴露出其上的突变区域即sRPlaseI酶识别区,具体做法为:往提取的待测样本RNA中分别加入短DNA片段P1和P2各1μmol,再将体系先升温至65℃保温30s后迅速降温至20℃保温10min进行杂交反应;之后加入1μl的RNase H酶(5U/μl)及配套的RNase H酶缓冲液,再用RNase-free水补足至50μl酶解体系,在37℃下消化5min,即获得特定的mRNA片段。
(2)sRPlaseI酶连接和磁珠分离
利用sRPlaseI酶催化突变基因的特定mRNA片段和多肽Ps的共价连接,再通过磁珠将连接产物分离出来,具体做法是首先配制sRPlaseI酶连接反应体系:50μl 的RNase H酶消化产物,1μl的1ng/μL的磁载多肽Ps,10μl的连接酶缓冲液(由pH为7.5的500mM Tris-Hcl、100mM Mg2+、10mM ATP和10mM DTT组成组成),0.2μg的sRPlaseI连接酶,最终用灭菌超纯水补足至总体积为100μl;反应条件为:将连接体系置于37℃下保温5min。连接反应结束后,将连接反应产物全部吸出,转移到1.5ml灭菌塑料离心管中,并加入250μl灭菌超纯水,后将离心管置于磁力架上3min以让磁珠吸附在离心管壁上,小心吸出并废弃其中的液体,将离心管从磁力架上移开并再加入250μl灭菌超纯水重悬,后再将离心管置于磁力架上3min以让磁珠重新吸附在离心管壁上,再次小心吸出并废弃其中的液体,最后再将离心管从磁力架上移开并再加入10μl灭菌超纯水重悬磁珠,即得到磁载多肽Ps和突变基因mRNA片段的连接产物,转入灭菌PCR管中待用。
(3)突变基因片段特异性扩增
以(2)中经磁珠分离的连接产物上的mRNA为模板,采用Pm和Pn引物对JAK2基因的g.[146452_146455delATGA]突变片段进行反转录和特异性扩增。扩增结束后,将扩增产物送基因公司进行Sanger测序分析,分析测序结果获取突变情况。
其中上述检测方法中用到的sRPlaseI连接酶,sRPlaseI连接酶缓冲液,RNase H酶,磁载多肽Ps,短DNA片段P1和P2,引物Pm和Pn均为本发明提供的JAK2基因g.[146452_146455delATGA]突变检测试剂盒中组分。其余常规通用组分如反转录酶等自备。由于是对特定mRNA进行捕获和扩增,因此相关耗材和试剂应采用RNase-free级别。
附图说明
图1是基于单链RNA肽连接酶sRPlaseI的JAK2基因g.[146452_146455delATGA]突变检测原理示意图。
图2是常规PCR-Sanger测序法(图A)和本发明方法(图B)在JAK2基因g.[146452_146455delATGA]突变处的Sanger测序图谱,圆圈处为突变一端位点。图中的检测对象为JAK2基因g.[146452_146455delATGA]突变含量为31.2%的样本。g.[146452_146455delATGA]突变代表其中一条链缺失了第146452-146455位点的ATGA核苷酸片段,在图中加粗表示;下划线部分为连接酶识别位点。
具体实施方式
参照申请人之前提交的发明专利申请(一种单链RNA肽连接酶sRPlaseI及其使用方法,申请号:2020100773325),本发明申请人前期研究获取到了一种可用于催化特定单链RNA和特定多肽共价连接的单链RNA肽连接酶sRPlaseI,并探究了其酶学特性。sRPlaseI酶的氨基酸序列如SEQ ID NO:1所示,对应的基因编码序列如SEQ ID NO:2所示。sRPlaseI酶可以识别5’末端起始为5’-AUGAUCCAG-3’序列且其5’末端核糖核苷酸A为磷酸化状态的特定RNA单链和C末端起始为N’-MANCEHL-C’这7肽的特定多肽链,并催化RNA单链5’末端磷酸化的腺嘌呤核糖核苷酸A和多肽链C末端的亮氨酸L之间发生脱水缩合反应形成O=P-C=O构造磷碳键,使得单链RNA和多肽以共价键相互连接在一起。其中N’-MANCEHL-C’这7肽具体为N’-甲硫氨酸-丙氨酸-天冬酰胺-半胱氨酸-谷氨酸-组氨酸-亮氨酸-C’。
申请人前期在探究结直肠癌转移相关基因时发现了系列新的基因突变,其中在约80%的男性结直肠癌肺转移患者样本中发现普遍存在JAK2基因的g.[146452_146455delATGA]新突变。JAK2基因的g.[146452_146455delATGA]突变是指JAK2野生型基因(参考NCBI登录号为NG_009904.1的序列)第146452-146455位点发生了缺失突变,该位点缺失了ATGA这4个核苷酸。g.[146452_146455delATGA]突变后JAK2基因该突变处其中一条链序列变成5’-ATGATCCAG-3’,其互补链序列为5’-CTGGATCAT-3’,互补链为转录模板链,则对应的mRNA序列为5’-AUGAUCCAG-3’,此mRNA序列能够被sRPlaseI酶所识别,在此基础上申请人构建了JAK2基因g.[146452_146455delATGA]突变的检测试剂盒和对应的检测方法,其检测原理详见图1。
申请人前期研究表明样本中野生型基因和突变型基因均有被转录,且突变基因在表达上有异常升高,因此这两者的mRNA(多拷贝/细胞)相对于其基因(单拷贝/细胞)本身都是大量存在的。假设从样本提取的mRNA当中含有大量的野生型JAK2基因的mRNA和相对微量的含g.[146452_146455delATGA]突变的JAK2突变基因的mRNA,图1展示了以这两类mRNA为起始,采用本发明方法获取突变基因特定mRNA片段的过程,图中JAK2基因g.[146452_146455delATGA]突变处用星号标识示意。JAK2基因mRNA上的黑色标识区域为sRPlaseI酶的识别区,突变基因mRNA上的该区域序列(5’-AUGAUCCAG-3’)恰可以被sRPlaseI酶所识别;而由于sRPlaseI酶对识别区的严谨性,野生型基因mRNA上的该区域序列(5’-AUGAUCAUGACAG-3’)是无法被sRPlaseI酶所识别的。
图1所示的JAK2突变基因检测过程主要包括杂交和RNase H酶消化、sRPlaseI酶连接和磁珠分离、特异性扩增这3部分。(1)首先以样本中的总RNA或mRNA提取物为模板,加入靶向目标基因mRNA特定区域的短DNA片段P1和P2,P1和P2可以和mRNA特定区域互补,其中P1靶向紧邻sRPlaseI酶识别区(即黑色区域)的上游区域,旨在构建含局部mRNA-DNA杂交区的mRNA。接着加入RNase H酶(可消化DNA-RNA杂交链中的RNA,但不消化单链或双链DNA和单链或双链RNA)进行处理,则mRNA上被短DNA片段P1和P2互补结合的特定RNA局部片段将被消化掉,此时得到的mRNA消化产物的5’端暴露出了sRPlaseI酶识别区(即黑色区域)。(2)再加入sRPlaseI酶和另外一种底物即多肽Ps,则体系中突变基因的mRNA片段就可以被sRPlaseI酶所识别,并将其和多肽Ps进行共价连接得到连接产物,而野生型基因的mRNA片段则没有被识别和连接。由于多肽Ps借助其N末端E氨基酸上修饰的生物素被连接在包被有链霉亲和素的磁珠上,因此突变基因的mRNA片段和多肽Ps的连接产物此时就借助多肽Ps连接到了磁珠上,于是利用磁力架就可以有效地分离出突变基因的mRNA片段了。(3)最后以捕获的突变基因mRNA片段为模板,采用靶向突变基因片段的引物对(Pm和Pn)进行反转录PCR就可以实现对突变基因片段的特异和高效扩增了,再利用Sanger测序等技术解析特异性扩增产物中的突变。
因此,本发明提供了一种基于特定单链RNA肽连接酶sRPlaseI的JAK2基因g.[146452_146455delATGA]突变的检测试剂盒,其主要组分包括:(1)sRPlaseI连接酶,sRPlaseI连接酶的氨基酸序列如SEQ ID NO:1所示,对应的基因编码序列如SEQ ID NO:2所示;(2)sRPlaseI连接酶缓冲液,由pH为7.5的500mM Tris-Hcl、100mM Mg2+、10mM ATP和10mMDTT组成组成,每1μl反应体系中添加0.1μl的连接酶缓冲液;(3)RNase H酶,采用美国Thermo Fisher公司产品,包括其配套的缓冲液;(4)磁载多肽Ps,其中多肽Ps的氨基酸序列为N’-EAGAGAGAGAGAGAGAGAGAGAGAGMANCEHL-C’,其N端氨基酸E需要进行生物素修饰;(5)短DNA片段P1,其序列为5’-ATAGATCTGTAAAGGAGAAAATA-3’;(6)短DNA片段P2,其序列为5’-GCAAAATTTACATAATAATTTTTTCAG-3’;(7)引物Pm,其序列为5’-ATGATCCAGAATGCTGGAAC-3’;(8)引物Pn,其序列为5’-GTCTCAAAAAGCTGAGTTGAA-3’。
其中,试剂盒组分(4)即磁载多肽Ps的主要制备步骤为:1)取0.1ml磁珠按照链霉亲和素磁珠产品说明书中方法进行磁珠的准备,用15ml的离心管装载,采用磁珠产品中自带的缓冲液,最终得到10ml工作液状态下的磁珠液;2)往1)中的磁珠液中加入10mmol/l的多肽Ps溶液0.1ml,采用垂直旋转混匀仪室温下保持充分混匀10min;3)借助磁力架并用缓冲液洗涤已包被多肽的磁珠3次,去除未结合物质,之后加入适量超纯水进行重悬,则可得到磁载多肽Ps悬液。除了本发明试剂盒各组分外,JAK2基因g.[146452_146455delATGA]突变的检测还需要一些常规通用组分,如反转录酶等,可以自行采备。
此外,本发明提供了一种基于特定单链RNA肽连接酶sRPlaseI的JAK2基因g.[146452_146455delATGA]突变的检测方法,即采用上述试剂盒进行JAK2基因g.[146452_146455delATGA]突变检测的检测方法,其主要包括如下步骤:
(1)杂交和RNase H酶消化
以提取的待测样本RNA为模板,加入特异性的短DNA片段杂交构建含局部DNA-RNA杂交双链的目标基因mRNA,再采用RNase H酶消化掉杂交双链上的RNA片段,使获得的特定mRNA片段暴露出其上的突变所在区域即sRPlaseI酶识别区,具体做法为:往提取的待测样本总RNA中分别加入短DNA片段P1和P2各1μmol,再将体系先升温至65℃保温30s后迅速降温至25℃保温10min以进行杂交反应;之后加入1μl的RNase H酶(5U/μl)及配套的RNase H酶缓冲液,再用RNase-free水补足至50μl酶解体系,在37℃下消化5min,即获得特定的mRNA片段。
(2)sRPlaseI酶连接和磁珠分离
利用sRPlaseI酶催化突变基因的特定mRNA片段和多肽Ps的共价连接,再通过磁珠将连接产物分离出来,具体做法是首先配制sRPlaseI酶连接反应体系:50μl 的RNase H酶消化产物,1μl的1ng/μL的磁载多肽Ps,10μl的连接酶缓冲液(由pH为7.5的500mM Tris-Hcl、100mM Mg2+、10mM ATP和10mM DTT组成组成),0.2μg的sRPlaseI连接酶,最终用灭菌RNase-free超纯水补足至总体积为100μl;反应条件为:将连接体系置于37℃下保温5min。连接反应结束后,将连接反应产物全部吸出,转移到1.5ml灭菌塑料离心管中,并加入250μl灭菌超纯水,后将离心管置于磁力架上3min以让磁珠吸附在离心管壁上,小心吸出并废弃其中的液体,将离心管从磁力架上移开并再加入250μl灭菌超纯水重悬,后再将离心管置于磁力架上3min以让磁珠重新吸附在离心管壁上,再次小心吸出并废弃其中的液体,最后再将离心管从磁力架上移开并再加入10μl灭菌超纯水重悬磁珠,即得到磁载多肽Ps和突变基因mRNA片段的连接产物,转入灭菌PCR管中待用。
(3)突变基因片段特异性扩增
以(2)中经磁珠分离的连接产物上的mRNA为模板,采用Pm和Pn引物对JAK2基因的g.[146452_146455delATGA]突变片段进行反转录和特异性扩增。扩增结束后,将扩增产物送基因公司进行Sanger测序分析,分析测序结果获取突变情况。
其中上述检测方法中用到的sRPlaseI连接酶,sRPlaseI连接酶缓冲液,RNase H酶,磁载多肽Ps,短DNA片段P1和P2,引物Pm和Pn均为本发明提供的JAK2基因g.[146452_146455delATGA]突变检测试剂盒中组分。其余常规通用组分如反转录酶等自备。由于是对特定mRNA进行捕获和扩增,因此相关耗材和试剂应采用RNase-free级别。
以下结合具体实施例,进一步阐述本发明。
实施例1体系和方法构建
收集福建省内经临床病理确诊且行切除术的结直肠癌患者,并且这些患者曾经因临床诊治需要有在第三方基因公司进行过包含JAK2基因在内的癌症基因或全外显子组或全基因组测序(二代测序法)。在这些结直肠癌患者充分知情同意和满足临床诊治的情况下取其术后石蜡包埋组织样本,并收集其基因检测报告和数据。符合条件的结直肠癌患者共26例,二代基因测序测得的患者JAK2基因突变情况(已知)如表2所示。由于发生g.[146452_146455delATGA]突变的JAK2突变基因在表达上有异常升高(癌症突变基因异常表达),因此选择从其mRNA出发进行突变检测将有助于提高检测量,从而提升检出率,并且突变基因对应的特定mRNA片段也恰好符合做为单链RNA肽连接酶sRPlaseI的底物。因此本实施例将采用上述基于特定单链RNA肽连接酶sRPlaseI的JAK2基因g.[146452_146455delATGA]突变检测试剂盒和检测方法,对这26例结直肠癌患者样本进行JAK2基因g.[146452_146455delATGA]突变的检测,具体如下。
(1)杂交和RNase H酶消化
采用德国Qiagen公司的石蜡包埋组织总RNA提取试剂盒(AllPrep RNA FFPE Kit)按照说明书方法提取患者石蜡组织切片样本中的总RNA。设计并合成相关DNA片段和引物,往提取的待测样本总RNA中分别加入短DNA片段P1和P2各1μmol,再将体系先升温至65℃保温30s后迅速降温至20℃保温10min进行杂交反应;之后加入1μl的RNase H酶(5U/μl)及配套的RNase H酶缓冲液,再用RNase-free水补足至50μl酶解体系,在37℃下消化5min,即获得特定的mRNA片段。
由于目标基因mRNA总量不多且所加的RNase H酶充足,兼之RNA是很容易被酶解的,因此消化反应的条件和时间要求并不需要特别严格,就足以对目标基因mRNA的两处局部DNA-RNA杂交区上的RNA片段进行充分消化了,则获得的特定mRNA消化产物将在5’端暴露出sRPlaseI酶的识别位点,即图1中JAK2基因mRNA片段上的黑色标识部分。由于RNase H酶消化针对的是3’5’-磷酸二酯键,因此酶解产物为5’磷酸和3’羟基末端核苷酸链,即最终目标mRNA片段的5’末端核苷酸A将会带有游离的磷酸基团。
(2)sRPlaseI酶连接和磁珠分离
RNase H酶酶解结束后,按照表1所示体系和条件进行sRPlaseI酶连接反应。申请人前期研究表明sRPlaseI酶可以识别5’末端起始为5’-AUGAUCCAG-3’序列且其5’末端核糖核苷酸A为磷酸化状态的特定RNA单链和C末端起始为N’-MANCEHL-C’这7肽的特定多肽链,并催化RNA单链5’末端磷酸化的腺嘌呤核糖核苷酸A和多肽链C末端的亮氨酸L之间发生脱水缩合反应形成O=P-C=O构造磷碳键,使得单链RNA和多肽以共价键相互连接在一起。在表1体系中,RNase H酶消化产物中的JAK2突变基因mRNA片段和添加的多肽Ps即为sRPlaseI连接酶的底物。此时JAK2突变基因mRNA片段的5’端含有5’-AUGAUCCAG-3’单链RNA序列,且经RNase H酶消化后此序列位于5’末端且同时5’末端的核糖核苷酸A含有游离磷酸基团,因此可以被sRPlaseI连接酶所识别(详见图1)。所添加的底物Ps为多肽,其氨基酸序列为N’-EAGAGAGAGAGAGAGAGAGAGAGAGMANCEHL-C’,简记为N’-E(AG)12MANCEHL-C’,其中C端的9氨基酸链N’-MANCEHL-C’是sRPlaseI酶的识别区,而N末端E氨基酸即谷氨酸用生物素进行修饰,紧接着是AG(即丙氨酸和甘氨酸)的多聚体氨基酸链,有12组共24个氨基酸,用(AG)12表示。多肽Ps其N端的这25个氨基酸(即N’-E(AG)12)主要是用于和链霉亲和素磁珠连接的,即其是做为linker的,这样突变基因的mRNA片段基于sRPlaseI酶而和多肽Ps的共价连接产物就可以借助多肽Ps的N端上连接的磁珠得以从体系中分离出来了(参见图1)。
表1 sRPlaseI酶连接反应体系和条件
委托生物公司合成多肽Ps,其N末端氨基酸E需要进行生物素修饰,要求纯度不低于95%。合成多肽Ps后需要先借助生物素和亲和素体系将其制备成磁载多肽,生物素与链霉亲和素的结合是目前自然界中已知的最强的非共价相互作用。采用美国Thermo Fisher公司的链霉亲和素磁珠M-280(DynabeadsTM M-280 Streptavidin,Invitrogen),按照说明书方法依靠生物素(Biotin,多肽Ps的N末端氨基酸E上的修饰基团)和链霉亲和素(包被在M-280磁珠表面)之间强的亲和作用力,制备包被多肽Ps的磁珠。磁载多肽Ps制备的主要步骤为:1)取0.1ml磁珠按照链霉亲和素磁珠M-280产品说明书中方法进行M-280磁珠的准备,用15ml的离心管装载,缓冲液采用的是磁珠产品中自带的B&W Buffer,最终得到10ml工作液状态下的磁珠液;2)往1)中的磁珠液中加入10mmol/L的多肽Ps溶液0.1ml,采用垂直旋转混匀仪室温下保持充分混匀10min;3)借助磁力架并用B&W Buffer洗涤已包被多肽的磁珠3次,去除未结合物质,之后加入适量超纯水进行重悬,则可得到磁载多肽Ps悬液。对于表1中使用的磁载多肽Ps,1ng/μl指的是多肽Ps的浓度,不计其上的磁珠。参照申请人之前提交的发明专利申请(一种单链RNA肽连接酶sRPlaseI及其使用方法,申请号:2020100773325)制备sRPlaseI连接酶。
如表1中条件将sRPlaseI连接酶反应体系置于37℃下保温5min。将连接反应产物(100μl)吸出,转移到1.5ml灭菌塑料离心管中,并加入250μl灭菌超纯水,后将离心管置于磁力架上3min以让磁珠吸附在离心管壁上,小心吸出并废弃其中的液体,将离心管从磁力架上移开并再加入250μl灭菌超纯水重悬,后再将离心管置于磁力架上3min以让磁珠重新吸附在离心管壁上,再次小心吸出并废弃其中的液体,最后再将离心管从磁力架上移开并再加入10μl灭菌超纯水重悬磁珠,即得到磁载多肽Ps和突变基因mRNA片段的连接产物,转入灭菌PCR管中待用。
(3)突变基因片段特异性扩增
以(2)中经磁珠分离的连接产物上的mRNA为模板,采用日本Takara公司的一步法高保真RT-PCR试剂盒(PrimeScript High Fidelity RT-PCR Kit)以及引物对Pm(其序列为5’-ATGATCCAGAATGCTGGAAC-3’)和Pn(其序列为5’-GTCTCAAAAAGCTGAGTTGAA-3’),按照说明书中的体系和条件进行JAK2基因g.[146452_146455delATGA]突变所在基因片段的扩增。将扩增产物送基因公司进行Sanger测序分析,分析测序结果获取突变情况。除Takara公司外,亦可采用其它品牌反转录扩增试剂。
26例结直肠癌患者癌灶样本的JAK2基因g.[146452_146455delATGA]突变检测结果如表2所示。除了患者自身事先做的二代基因测序和本发明检测方法有JAK2基因突变结果外,同时在本实施例中采用常规的PCR-Sanger测序法分析其JAK2基因g.[146452_146455delATGA]突变情况以做对比,具体是参照常规PCR的扩增体系和条件(退火温度为52℃),采用对应于P1的反向互补的引物(即5’-TATTTTCTCCTTTACAGATCTAT-3’)和Pn以及从相同样本中提取的癌灶样本基因组DNA为模板进行扩增。
表2 26例结直肠癌患者的JAK2基因突变情况
注:-表示未检测或未检出。
表2中的二代测序结果显示有16例结直肠癌患者其JAK2基因没有发生突变,本发明方法和常规PCR-Sanger测序法在这16例患者样本中也均没有检测出JAK2基因的g.[146452_146455delATGA]突变,这同二代测序结果是一致的。在另外5例患者样本中,二代测序和本发明方法均检测出了JAK2基因的g.[146452_146455delATGA]突变,而常规PCR-Sanger测序法只在其中的2例中检出此突变。进一步分析二代测序数据发现,这5例检出JAK2基因g.[146452_146455delATGA]突变的患者样本中也都含有野生型JAK2基因片段,其中常规PCR-Sanger测序法检出突变的这2例其g.[146452_146455delATGA]突变基因含量(参照二代测序得到的JAK2基因目标片段的Reads数目计算,具体为该区域g.[146452_146455delATGA]突变片段Reads数/该区域总Reads数)均超过20%;而5例中常规PCR-Sanger测序法未能检出突变的另外3例,其突变基因含量均低于20%(参照二代测序数据,这3例的突变基因含量分别是18.5%、6.8%、0.97%)。
以常规PCR-Sanger测序法检出突变的2例样本中的其中1例为例(突变基因含量为31.2%),常规PCR-Sanger测序法和本发明方法在JAK2基因g.[146452_146455delATGA]突变处的Sanger测序图谱如图2所示。图2中常规PCR-Sanger测序法的Sanger测序峰图(图A)显示,从g.[146452_146455delATGA]突变发生处向右起同时存在两条测序模板序列,可知在突变处有一个移码突变即g.[146452_146455delATGA],表明同时存在JAK2野生型基因片段和g.[146452_146455delATGA]突变片段,且野生型基因片段含量远大于突变基因含量,若非人工查看且测序效果很好(基本没有背景),则很可能就认为体系中不存在JAK2基因的g.[146452_146455delATGA]突变了。然而图2中本发明方法的Sanger测序峰图(图B)显示,体系中有且仅有突变基因片段,野生型基因片段完全被剔除掉了。由此表明本发明方法是十分准确和有效的。
常规PCR-Sanger测序法是基因分析的金标准,技术成熟、应用广泛且具有经济简便等优点。表2和图2结果显示,常规PCR-Sanger测序法无法检出低丰度的特定基因突变片段,这和文献中的报道是一致的。然而本发明方法对于低至1.0%的突变基因片段也可以实现准确和有效的检测,这主要得益于本发明方法在进行突变基因扩增之前,基于dRPlaseI酶连接和磁珠将突变基因的特定mRNA片段捕获分离出来,从而只针对突变基因片段进行扩增,而避免了大量野生型基因的干扰。
此外,表2中采用本发明方法检出JAK2基因g.[146452_146455delATGA]突变的5例患者中有4例为男性结直肠癌肺转移患者,因此该突变的检测对于男性结直肠癌肺转移具有重要的临床意义,对于其肺转移机制研究、以及预测和诊治工作有很大的价值。表2中二代测序还测出了JAK2基因除g.[146452_146455delATGA]突变以外的其它突变(有5例),而本发明方法和常规PCR-Sanger测序法均只检测JAK2基因的一部分,并未检测或检出其它突变,因此这5例JAK2基因的其它突变未明。
实施例2样本验证
进一步的收集30例临床病理确诊的男性结直肠癌患者,且确诊时未见转移,在取得患者充分知情同意和满足临床诊治的情况下取其术后癌灶组织,采用德国Qiagen公司的组织RNA和DNA提取试剂提取样本中的总RNA和基因组DNA。以提取的RNA为模板,参照实施例1采用本发明方法和常规PCR-Sanger测序法进行JAK2基因的g.[146452_146455delATGA]突变检测,结果如表3所示。采用本发明方法检出JAK2基因g.[146452_146455delATGA]突变的患者有7例,而常规PCR-Sanger测序只检出了其中的2例。随访这30例患者,本发明方法检出突变的7例患者当中有6例在半年内发生了肺转移,而未检出突变的23例患者当中在半年内发生了肺转移的只有2例,可见JAK2基因的g.[146452_146455delATGA]突变对男性结直肠癌患者肺转移具有良好的提示意义,有望做为肺转移的分子标志物。然而常规PCR-Sanger测序法由于未对突变片段进行特异性捕获和扩增检测,因此在大量野生型基因mRNA背景下往往无法对一开始为低丰度的突变基因mRNA片段实现有效准确的检测。
表3 30例患者JAK2基因g.[146452_146455delATGA]突变情况及意义
综上可知,本发明提供的JAK2基因g.[146452_146455delATGA]突变检测试剂盒和对应的检测方法,具有特异性强和准确高效、简便经济的特点,可以有效检测出样本中含量低至1%的JAK2基因g.[146452_146455delATGA]突变。
序列表
<110> 福建晨欣科生物科技有限公司
<120> 基于单链RNA肽连接酶的JAK2基因特定突变检测试剂盒及方法
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Claims (1)
1.一种JAK2基因g.[146452_146455delATGA]突变的检测试剂盒,其特征在于试剂盒包括:(1)sRPlaseI连接酶,sRPlaseI连接酶的氨基酸序列如SEQ ID NO:1所示,对应的基因编码序列如SEQ ID NO:2所示;(2)sRPlaseI连接酶缓冲液,pH为7.5,由500mM Tris-Hcl、100mM Mg2+、10mM ATP和10mM DTT组成,每1μl反应体系中添加0.1μl的连接酶缓冲液;(3)RNase H酶及其配套的缓冲液,采用美国Thermo Fisher公司产品;(4)磁载多肽Ps,即包被多肽Ps的链霉亲和素磁珠,其中多肽Ps的氨基酸序列为N’-EAGAGAGAGAGAGAGAGAGAGAGAGMANCEHL-C’,其N端氨基酸E已经经过生物素修饰;(5)短DNA片段P1,其序列为5’-ATAGATCTGTAAAGGAGAAAATA-3’;(6)短DNA片段P2,其序列为5’-GCAAAATTTACATAATAATTTTTTCAG-3’;(7)引物Pm,其序列为5’-ATGATCCAGAATGCTGGAAC-3’;和(8)引物Pn,其序列为5’-GTCTCAAAAAGCTGAGTTGAA-3’;所述JAK2基因g.[146452_146455delATGA]突变是以NCBI登录号为NG_009904.1的JAK2野生型基因作为参考序列的。
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| CN106119386A (zh) * | 2016-08-18 | 2016-11-16 | 上海睿昂生物技术有限公司 | 检测人jak2基因突变的pcr试剂盒 |
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