专利名称:一类在人类肝脏中表达的表达序列标签的制作方法
技术领域:
本发明涉及生物技术领域,尤其涉及一类在人类肝脏中表达的表达序列标签。
背景技术:
肝脏是人体内最大的消化腺。也是体内新陈代谢的中心站。据估计,在肝脏中发生的化学反应有500种以上,实验证明,动物在完全摘除肝脏后即使给予相应的治疗,最多也只能生存50多个小时。这说明肝脏是维持生命活动的一个必不可少的重要器官。肝脏的血流量极为丰富,约占心输出量的1/4。每分钟进入肝脏的血流量为1000-1200ml。肝脏的主要功能是进行糖的分解、贮存糖原;参与蛋白质、脂肪、维生素、激素的代谢;解毒;分泌胆汁;吞噬、防御机能;制造凝血因子;调节血容量及水电解质平衡;产生热量等。在胚胎时期肝脏还有造血功能。
肝脏疫病分为肝炎、肝硬化、脂肪肝、肝癌等。现代医学实验证明,肝病病毒侵入人体后,并不直接引起肝细胞的损害,只是在肝细胞内吸收营养赖以生存,并在肝细胞内复制、繁殖。其复制病毒的“零部件”如表面抗原(HBsAg)、e抗原(HBeAg)释放在肝细胞膜上,引起人体免疫系统对这些抗原物质产生免疫反应,这种反应造成肝细胞的损伤、坏死。免疫反应的强弱决定于肝脏受损程度及临床症状轻重。这场由病毒引发的、免疫系统对肝细胞的战争,使大约25%的患者的肝脏成为战火连绵的战场,肝脏的损伤由此加重。肝病的危害绝不仅仅限于肝脏本身,它还可以引起其它多种疾病。常见的有(1)糖尿病;(2)胰腺炎;(3)胆道感染;(4)功能性肾衰竭;(5)胆汗性肾病;(6)肾小球肾炎;(7)肾小管酸中毒;(8)溶血性贫血;(9)再生障碍性贫血;(10)心肌炎和心包炎;(11)结节性动脉炎;(12)消化性溃疡;(13)自发性腹膜炎;(14)性激素代谢紊乱;(15)甲状腺功能改变;(16)肝性骨病,等等。肝病不仅对患者的身体甚至生命造成危害,而且对患者心理上的打击也是十分沉重的。无论是肝病患者还是病毒携带者,在生活、社交、求职、升学等方面都会受到严重影响。
生物基因组中可转录表达的序列(即基因)仅占总序列的3-5%,对这部分序列进行测定,将直接导致新基因的发现,并获取基因组中与产业化关系最为密切的信息。20世纪80年代,高通量的自动测序的出现,使从质粒互补脱氧核糖核酸(Complementary DNA,简称cDNA)文库随机选取许多cDNA克隆和决定来自非载体两端的几百个碱基的DNA序列成为可能。这些短的DNA序列叫做“表达序列标签”(Expressed Sequence Tags,简称ESTs)。表达序列标签的概念最早是由Adams等在1992年提出来的(Nature,355,642-644)。1992年Sikela和Matsubara(Sikela,et al.Nucleic AcidsRes.19,1837-1843;Matsubara,et al.Nature Genetics,2,173-179)针对获得大量信使核糖核酸(mRNA)序列的迫切需要,提出大规模互补脱氧核糖核酸(cDNA)测序的研究战略。随后Venter创立了大规模表达序列标签技术。其基本特征就是从以质粒为载体,构建完成的目的组织互补脱氧核糖核酸(Complementary DNA,简称cDNA)文库中,随机选择许多cDNA克隆,利用质粒上携带的通用引物对cDNA两端进行一轮脱氧核糖核酸序列测定,所获得的来自3’端或5’端的几百个碱基的非载体短脱氧核糖核酸(DNA)序列。简而言之,表达序列标签是来自表达基因片段3’端或5’端的短脱氧核糖核酸序列,代表一个表达基因的部分转录片段。
表达序列标签可用于新基因克隆、人类基因组图谱绘制、基因组序列编码区的确定等。如果一个表达序列标签在基因组中只出现一次,那么它可以作为序列标签位点(STS)。由表达序列标签构建的物理图谱叫表达图或转录图(expression or transcript map)。利用表达序列标签进行基因图制作,可以加快序列标签位点的制作和新基因的染色体定位。表达序列标签可以作为基因特异性探针,对组织特异性基因表达的研究具有重要的作用。表达序列标签还可以进行新基因的遗传进化关系分析。表达序列标签可以对所有动植物的基因作为一种数据库,通过不同的序列比较可以获得保守序列片段,从而获得基因的遗传进化图谱。正因为表达序列标签具有如此的优越性,因此表达序列标签测序已经成为许多基因组研究机构的工作重点。
由于本发明人类肝脏特异表达基因与一些肝脏疾病相关,因此,研究人类肝脏中特异表达的表达序列标签对探索肝脏疾病的发病机理及研制肝病的治疗药物具有重要意义。
发明内容
本发明要解决的技术问题是提供一类在人类肝脏中表达的表达序列标签。
本发明要解决的技术问题通过如下技术方案实现本发明提供了一类在人类肝脏中表达的表达序列标签的序列,其包括(a)SEQ ID No.1~SEQ ID No.50所示的序列;(b)SEQ ID No.1~SEQ ID No.50所示的序列中每条序列的互补序列;(c)与SEQ ID No.1~SEQID No.50所示的序列中每条序列有至少70%同源性的序列,及(d)上述(a)~(c)中一条或数条的组合。
较佳地,所述序列包括具有SEQ ID No.1~SEQ ID No.50所示的序列。
本发明还提供了一种探针分子,所述的探针分子含有上述序列中约8-100个连续的核苷酸。
由本发明的在人类肝脏中表达的表达序列标签,可以方便的寻找出在人类肝脏中特异表达的表达序列标签,从而寻找出人类肝脏疾病相关基因,从而在研究肝脏疾病的致病机理以及开发治疗肝脏疾病的药物中发挥重要作用。
具体实施例方式
下面结合附图
对本发明作进一步详细的说明。应理解,这些实施例仅用于说明本发明而不是限制本发明的范围。下列实施例中未注明具体条件的实验方法,通常按照常规条件如Sambrook等人,分子克隆实验室手册(New YorkCold Spring Harbor Laboratory Press,1989)中所述的条件,或按照制造厂商所建议的条件。
实施例1人肝脏组织的mRNA的分离组织分离(Tissue isolation)肝脏来源于5个成年男性,在肝脏切除手术后,将肝脏组织立即置于液氮中冷冻保存。
mRNA的分离(mRNA isolation)取出肝脏组织,用研钵研碎,加入盛有裂解液的50ml管,充分振荡后,再移入玻璃匀浆器内,匀浆后移至50ml新管,抽提总RNA(TRIzol Reagents,Gibco,NY,USA)。用甲醛变性胶电泳鉴定总RNA质量。用带Oligo d(T)的纤维素柱分离总RNA中的mRNA,定量。
实施例2cDNA文库的构建(Constuct ion of cDNA library)以mRNA为模板,合成双链cDNA。补平末端后,加含EcoRI切点的接头。磷酸化EcoRI末端后,用XhoI限制性内切酶消化1.5小时,再进行片断分离。过柱筛选长度>500bp的片段,用酚-氯仿抽提,乙醇沉淀,无菌水溶解,连接至Uni-ZAP XR载体(Strategene,CA9203,USA),以ZAP-cDNA Gigapack III Gold Cloning Kit(Strategene,CA9203,USA)进行包装,宿主菌使用XL 1 Blue MRF’(Strategene,CA9203,USA)细菌。涂板并测定滴度。
实施例3测序及数据库建立(Seqencing and Database Constructing)挑选文库中有外源片段插入的克隆,扩增后抽提质粒(QiagenGermany),用T3和T7作为3’和5’端的通用引物,采用终止物荧光标记(Big-Dye,Perkin-Elmer,USA)的方法,在ABI 377测序仪(Perkin-Elmer,USA)上进行EST大规模测序。测序结果用FACTURA软件去除载体序列,传输到SUN Ultra 450 Server上进行下一步的处理。所有的序列信息再用GCG软件包(Wisconsin group,USA)中的BLAST和FASTA软件搜索已有的数据库(Genebank+EMBL),将无同源性或同源性低于95%的序列视为新基因建立数据库。
实施例4基因的全长克隆(Cloning of Full-length cDNA)在得到的新基因片段序列信息基础上,进行cDNA全长克隆,分两阶段进行(1)“电子克隆”(Electronic Cloning)以新基因片段序列作为探针搜寻dbEST数据库,将重叠序列>50bp,同源性在98%以上的表达序列标签(Expressed Sequence Tag,简称“EST”)序列认为同一序列(Consensus Sequence),取出并用AUTOASSEMBLER软件进行连接,部分EST可以延伸探针序列。再用STRIDER软件分析被延伸的序列是否具有完整的开放阅读框架(Open ReadingFrame,ORF),用BLAST搜寻Genbank或SwissProt以确定该序列的核苷酸和氨基酸水平上是否与其他物种有同源性,以帮助判别所得到的基因全长完整性如何。通过电子克隆的方法,通常可获取人肝脏相关基因的全长序列。
(2)cDNA末端快速扩增(Rapid Amplification of cDNAEnds,RACE)如果通过“电子克隆”方法仍未得到完整的cDNA全长,则在已有序列5’或3’端设计引物,在人类肝脏Marathon-Ready cDNA文库(Clontech Lab,Inc,USA)中进行长距离PCR反应。然后对PCR产物克隆、测序。用AUTOASSEMBLER及STRIDER软件分析被延长的序列有无完整的ORF,如无,重复上述过程直至获得全长。
(3)RT-PCR对于5’和3’端的已知的序列,如果中间有一段间隙(gap)无法从已有的公共数据库或自身数据库获得,可考虑采用RT-PCR的方法。在序列5’端设计引物,3’端引物采用Oligo-dT,在肝脏总RNA库中进行扩增。然后对产物进行克隆、测序。最后拼接便获得全长。
通过组合使用上述3种方法,可获得人肝脏相关蛋白的全长编码序列。
序列表<110>上海人类基因组研究中心<120>在人类肝脏中表达的表达序列标签<130>NP-10157<160>50<210>1<211>467<212>DNA<213>Homo sapiens<400>11 gctctatttt caggaaaatt tctatcatat aaaagcttat ttcagttatt ataaaagtgc61 ttattctctg gttatttctt ctttttatat aatcttgtca tgtttcatag tagcagtatc121 ttctgctatc tctctgagta tattaattat actttatttc tacttcagct actgttttct181 acaggacata ctgcctctaa ttcttaaaca ggttctggag tatgaactgt cttgtttctc241 attgacacaa cactctccag tcacatgtat tcggctttcc catttctgcc agttcctcct301 ttacatcttc caaaagttgt gtctctttaa tatgttgctt cctcttcctt atgcctgtgg361 atttatatat tttttagtct tttgctcaaa atttttagtc ccttactagg aaggaacatg421 gaaaaacatg tgttcaatca cgaagtttaa ctggaagtct gctgtta<210>2<211>461<212>DNA<213>Homo sapiens<400>21 aaaaaataaa aatcatttat ttaaacaaaa atatacacac agtgtacaat gaatatggtt61 tacacagaac aataaaacaa aaatgatatc tcttaaatgc caacataaaa tgatctattt121 atgcctagaa aaaatttcta ggaatacaca ttattgattc atctaaaata catatataac181 ataaaaagaa aacaaatgcc aacctttcag atgagtacca caaaaaccta aaagttaaat241 gttagattaa ataaaattat aaaatatcca cacgagaagt atgtgtatac aaagtattgt301 atgtatgcag tgaaatgaga gtgcccatac agttatatgc aaacttttga aagtttcata
361 gttgtttaac aaaatatttt taatgttgat agtgacataa aaacatcaca agaattatct421 agataatata gcaatattgc caaaatttga gtcaatgtta c<210>3<211>543<212>DNA<213>Homo sapiens<400>31 aactgacttc tgttccctaa gttatatctg tcggccttgc gggataccag tcattactgg61 gtgtatgctg ataggtatgt atatacattc atatcagttc tctaggtcat gttcctggac121 tccagattta tatctttaat tgcctagtga acaagttgct ttgacatccc aaaggcattt181 caaatgaaac tcatagatcc ctccaggctt gtttttttaa tctcggtaaa cgacactacc241 acctactcag ttacctaaga cccatcggta attcttgact ggcgctattt ttcctcaact301 atatctaata catttattcc tagtgaatct agctccttaa tatcactgga tattatctca361 atgtttccca ctttattgaa gaaacacagg tggtgtaaat cctggcatat gtccacatac421 ttaaccattc tatctcaggg aaggtggaat gacctatgat ttgtaaattt ggaaaggaca481 aactgggcat gctagtttct gccacccttc ctcctcgtgg ctgctggcac aggggacaca541 cat<210>4<211>423<212>DNA<213>Homo sapiens<400>41 ctattgcctt tgagcaggga aataattaca atgtctggca tcaaggcctg tgtagaatct61 tccacagatg ttattctgtc tcttggaaaa tatccacagt aataataaac aactaaagct121 tcattttaag tttaaagtat aaaaactagc tgtttcataa catagggacc aattctaact181 cctgactatt gtgaaatttt gtagggaatt ggaacaaaac tttggctggt tctacagcca241 aaacatgtag ggacttaaaa ttctagttag agataatcac tactttaaat gtagtgcctc301 ttctccctct tttgtgagct ggcagtcaga ggctggatta aggagatagg taagaggatt361 gcttcatact aatatgattg aatttaacac agattcaaaa tgcgagggaa tatagagacc421 tag<210>5<211>500<212>DNA<213>Homo sapiens<400>5
1 tgagacggat ctcactctct cgcccaggct ggagtgcagt ggcgtgatct cggctcactg61 caacctccac ctcccaggtt caagtgattc tgttgcctca gcttcctgag tagctgggac121 tacaggcacg tgccaccatg tccggctaat ttttttgtat ttttagtaga gacgcggttt181 cacaaccttg gccaggctgg tctcgaactc cttgtgatcc acccaccttg gcctcccaaa241 attctaggat tacaggcatg agccactgag cctggccttc aagcttcatt ttacaatcag301 tagacactgt cactaattat tgagaaaatt tatacaaatc aagggaaatt cagagaaaag361 tcaaacagaa gaaaaataat gagtctggaa gaaaatatag cccagccatt ccttctctcc421 aggcaggacc taagaagtgc tctctgtgga cacggcccaa accagacagg cccttcctgc481 ctgtgcccga tttcaagctg<210>6<211>500<212>DNA<213>Homo sapiens<400>61 tttaactttc tctcttttct gggccggaca tgtgcttatc taacatttgg ttctagattt61 atctaatggg gacttcagtt gtgagagata agtcagtagg ttttggtctg ccaaaagcaa121 ccattgtcca aaaaatcttg gccgccctca cctttctgag ttagataatc ttaactggct181 tgcattttct aattggatta acagctgatc tgagcttgga ttccatttat cactgtcctg241 cctggctctc ttctgttatc ttccatcttg ttgccttaat tctgtcttaa ttctaaaaat301 ttctcaggca catttccttt gggacacaag aagctcttgt atgcctatct ataattatag361 taacaactgg aaattcatcc aataattcct tgaatgtttt gctttcatct gatatttcct421 ctcaaattgt cctgactttc agggtacact tcgtatcact gtcccagtct ttgaagagca481 gttcccagtg gtttttatca<210>7<211>460<212>DNA<213>Homo sapiens<400>71 tttttttttt gcagaatgtg tcaacaaaaa atactttctt aatggcattt gtgttttaag61 aaaaatcagt cacatagtgt cagtgttaag aaaaggttgt aggtttacag gttgccccca121 gtggccatac tttgaattgt gattctcacg ggtttaaaga tgtgattttt aaaaaatcag181 tgttttacca tctagttatt tgatcttgtc cacttttttg tgttcaacaa aagtgtaaaa241 ctggaaagca aagaaaaaaa gactattttc agtaaacatg tagttttgtt ttgtctttat301 tgatagaatg taatgggcct ttgggatctt aagtactact tatgttacct ttgttattca361 gatgctgaac ttaagcagtg aaataataga aactaaagga tgttattaag gggtttaact421 attttaagtc aacatttagc ttatccatca tattggtttc
<210>8<211>448<212>DNA<213>Homo sapiens<400>81 ctacaagttc ctttattaat aaagcaaagt agaaaagaac aaggtcccca aatgacccac61 atgattcaaa gtgcaaattt actccaacct gcaagagaaa acgaatggca ggtcttgact121 gtgggggcca tggaaatttg gggtgattaa attgcctttg aatcatacaa ttgtagcagc181 tgaaccatat ctgattaact ctttggtctc tgttattgga acaaaaccga cgctatgcct241 gcagccgcca gactgcaacc aaaaacacag tttggggtca gaagacatta aaaatcacaa301 taaaatagga tgaatgttct aagtcacgca actgaatcaa ggcacctttt ttttttcaaa361 agcaaaaagt tgtttaacaa tattccagaa tagtagatac ttcaaaaacc agattacagt421 atatatcatt ttgctgcaca ttttagtc<210>9<211>384<212>DNA<213>Homo sapiens<400>91 tttttttttg ttgtcatata ttttattttt acatgtgcta cagaaacaaa atacagttac61 tatttttgcc ttacatagtc agataccttt tggagcaatt aaaaagaggg aaagcactcg121 gatcttggtt tctttcattc tccataaaaa taatgttcct tggagaaatg cctgattcta181 ggactggggc agaaaataca caagataagc ctagaatata ttatagtgcc ggaaaataaa241 aaagcgcctg ctccccctga aaaaaaaaaa cccacaaaaa taaggatata tcaaagggac301 ataggaatca agtagatagc cctcaaaagc tgaagctaga acaaagcaac agaaaaacgt361 ggtattgtat tataaaccaa agta<210>10<211>474<212>DNA<213>Homo sapiens<400>101 atcatatagt ctagtcttta ttgaaagact tacttcaact gttgtttaca gctttggctt61 aagttggcca ttttagcctc tcactgccag cagacataaa aatcaagtgg gaatggcacg121 ggggttggga gtgaaaatac tagtagagaa attatgagaa caaagaatat ggcagtcagt181 cagaaacaca tcaccaaaat aaatctcaaa ataattatga aataaaaaac atttccttgc241 atgcccaaaa agtctctgct gatgtttttg atgaacgggg tggggagcaa cgattcttag301 gcttaagttg gatcaagata gcattgggtc atgttataaa atcatctgtt agctcaacag361 ccatactttt aattaattca tttatttttt gagatggagt ctcgccccgt cgcccaggct
421 ggagtgcagt ggcgcacctt cagctcaccg caacctccac ctcccaggct caat<210>11<211>516<212>DNA<213>Homo sapiens<400>111 tttttttttt tttgacataa taataactct aacatttatt gagcttttgc ttaatgccag61 gaactgttct atagacatta tatgtattaa ctcacttaat cctcgtaaca atagtatgag121 acaggtattt ccattactct cattttacgt ctccacagta ataaagcaga gaaggagtac181 ataaccaccc aaagtcacta gaagaaggtg gaagaagcaa aattcaggtg gaggtccgag241 atgcttctct tccccactgt gtctgccacc tctagagtga atagccatga ccctgagata301 agtcagttac acacattgta ccaccgattt ctaaaacaac catatgagag aggtaccagt361 attatgccca ttttatagat gagaaaaagg aggctaggaa gggtgaagga attcatctat421 ggacagagga tttgtgccct ctcttttctc ttctacagag aaattgagcc aggatttaat481 cccagcatgc cggtttacaa agcccagctt tataac<210>12<211>415<212>DNA<213>Homo sapiens<400>121 ttgaatgtaa aggaaaactg caacttcttt aacaatacat tattcaaatt caaagatcat61 agcacatttt gagattcaga ttggtaatgt atctttgatt acactttgca aatgtatttg121 acaattaacc atatcccact actttttatt actgaggtag gaggcaggac tagactctgg181 aggtggggat tgggctccag accacactga agacaagctg aaagggaaga ggtgaaagag241 tctctccata aaacacactc accagtgcca cgtcaggtta ccattgctaa ggcaacagct301 ggaagttttg gctcctttcc atagcaacaa tcccacgacc tggaagttac gacctttttt361 ctagaaattt tggcataatc cacccctaaa tttgcatata gttgaaagtg ggtat<210>13<211>600<212>DNA<213>Homo sapiens<400>131 tttttttttc tgttgttaca tattttttag agatattggc ctattgttat attttggggg61 taggatggtc taatctttga taggttttgg tatcactgtt atcctggctg catgaaaaag121 aggctggaag cttttagtca ataaaaaccc aatatgaaca agtaaacgca gttattatta
181 cagtttagtt tatgaattaa acaggatttt gtgtgctgat gtagtaacca ccacttagac241 ttagtttcta agagaaaaat aaatcccaag tttcaaacaa ctgacttaca tgaaaatttc301 tggatgaata ttgtcggagt ctgtctttat cctgagattc tatagcaaaa ctcccttaag361 gattttaaag ggttttgaat acacccattt ccagccttcg tttttttatt taaaagggtc421 ttaattttca tagagaatct acacaatgca tgtataataa aaacatatgt cactgtcaaa481 tatagatgta aaaagcttat gttcttctat gttttaactc ttctctctag ctaatttgaa541 atatctctaa attcatgtcc aaactgagat aagacgttgg tacacttcaa taaaaatgta<210>14<211>381<212>DNA<213>Homo sapiens<400>141 gcggccgcct actactacta aattagcggc cggtcgacgt ccgaggggga agaggtttgt61 taatacgttc gccatgtgct acgatcttgg gacgaactga gccacgagcg tgcttgtgag121 ggccgtccga acgctgcagg ccggccaggt ccctgggcgt ccaggcctgg cctacgcacc181 actttgtccc ttagcgttta aaggtttctt cccgaatctc aggccctcag ctacctgcag241 gtttcgtcgc gagccggctg caagttttga acctaagtaa acctcaatcc ggaggcctag301 cggtaaggtg ggcgctgtgt ctattgaggt gcttagcaat aaagaaaggt agtgagttga361 aaaaaaaaaa agtcgacgcg g<210>15<211>695<212>DNA<213>Homo sapiens<400>151 tctctatctc agattttatt tttttttaaa aaaggctcca atacaaggcc ccagagtagt61 gcatgcaaat caacgaccct caaagtgaca gtcattgtca gataacaagc acaatctgct121 acagtctgtg acctggtaaa gagaccacct tttcattttg agtaccatca ccaactatgc181 caatgtccaa cctaccacac agctcacaat gactcagagg tacattttag tatctgaaca241 gcaaagacat attgagctgc aagtacaatg agtaagtatc cttagtgtat tagacagggt301 aaatacaaac aaggcataat agggaaaagc caacttcatc tgatgcctga atccctaagt361 ctcttccatc ttttctcatg atctgtgtct agggagatct gctatgccat atcaagacct421 tgctcatctg gtgatgagac ggggctgttg gcttggaaga ctaaagaagg gtgaatattc481 catgaggtaa gacttgaagt tgggttataa tcataggcag ttttgctgct gtcaaccatc541 tctgtactcc acttgggctg catgaatctg cgacatgtac agctgatggg agagaatcca601 ctcctgtgag tattccggag agatatcgtg gagattaatg gagatcttga gatacgcatg661 gtaacctatc aagattggtt agttggttgg tatct
<210>16<211>581<212>DNA<213>Homo sapiens<400>161 gccgactact actactacta aattggcggc cgctcgactt tttttttttt gtagataggg61 agtctaactg tgttctccag gctggcttca aactcctgac ctcaagtaat cctcccacct121 cagcctccca tagcactggg attacagcca tcacctacca ctccaagcca tgagtttggc181 tttggattta agaaggttga ggtgttcatg agttgacaag tggaaaaaac aagaaagaag241 ttgagtgttt aagactgctg tttgaaggag aagtctagcc tcaagacaaa agttcaggac301 tcatcagctg agaaatggcg ctgaaaatta tgcaaatgga tgagctcagc tagcaaacaa361 gtccagagag agcagcactg ggctatgcac ctggcctaat gcttccctgc tcctcccaat421 ccctgtgtta tgccggagag ggttcagcct ctggtgagct tcaccaaacc gccacatctc481 tttcttctga gaccttctct aaaatcccct cttttatgct tagtgaaatg ggattctctt541 tttcccatcc agcttaagca aaaacttttg actatgagaa g<210>17<211>560<212>DNA<213>Homo sapiens<400>171 tttttaaaga tcataatgct atcatttatt gaagaaagaa agcaaaaaaa actaacaatt61 gtgatggggg aggagagaca gcttggcaac attcctttta aagttaagtt agcataaaga121 aaacaatatt tagtaaatga aatagatttt caaggtagga aaagtagtac tcaagaatgt181 atttttggat acaaaaattc agttacacaa tcagtagcat tcaaaattag ttatgagtat241 ttatacaatt acaaaaatgg attcatgttt taacaaagta ttttaaaagc tcaaacattt301 taaaacaggc acaatattct aaaggcatat gcattcacca tgggcttttg aatgtcctca361 ctcccaactt cgcaatcaaa atctacagaa gcggcaaaag atcagagttc agagggctat421 tttttttttc cctttcctta cttaaggttg caaacccctt gggcggaggc aaaataaaca481 cgtttcatag ccgaaggacc caaaattgga tggaagcgta gctctccctt ggagattcac541 aatacaggtt catcggtctt<210>18<211>599<212>DNA<213>Homo sapiens<400>181 ttgtggcaca taatttgttt aatccagatt ggatacatca ggtacagcag tggcacacga61 ctcaatactg taaatgatat acatgtttta acatatgcac tacagtttca aaagaagacg
121 acaggaaact caagggtgta tttttttttt catagaaagt tttcatgttt tatcttcctg181 cagttttgta cagtatattt cttctttgcc attgtgatgt tgataagcaa agcccattta241 ttatacgaaa atagaaaaga acacacttga tgtatctcac gatgacatta atggggggaa301 gggtgtgacc tctaaggaaa acattacatt ggaatgtctg attatcacaa atataccatc361 cctcacacct cccaggtttg taaaatagtc cattggtcca aggagcaccc caggacttgg421 gtcagtgccg tacactggtt agagtgacat cctccagtgt agttgagtaa cctgctaaga481 taaatgtcat tcccaacttg agaaaaacac agacattctg aatagaaacc agacttaaag541 gaccctttaa gctgctcatt tctgaagcac ttcccccgtg cgaatcttgc ccggggcaa<210>19<211>500<212>DNA<213>Homo sapiens<400>191 cgaaaaagat aattgtttta atggaggctg tttaaaaagc agtggaagct tagcagagaa61 accagcgaaa cctgtgaggg tatctgaaga tgacttcacg gaggcggtac agctgagctg121 tggcttgatg gatgaagagg ggtttgctgg gtggaccagc gtgtttgctc caggctatgt181 tgaaatagta tgcaggttgg tcagggcagt atggtgccag tcaagggatg agtggggtct241 ggaatctagc ctcaagaggg ggaagtggca ccttttccta atttccacaa aggcacaata301 tgggctacca gtcttgagaa gtaggtgagg gcatgcaaat gtaaaaaagt aatgtgtgtt361 ctgggatcta ctagttcttg agaagcacaa gttcagaact gctgaagaac agagtgagag421 gtgatgagtt tgcccaggtt atggggccag gtcatgagag gcttttccat gaccgtgtgt481 agaaggcagg ttgggaatgg<210>20<211>564<212>DNA<213>Homo sapiens<400>201 taacaaaaaa ggggcccatg tctgataagt caagaccact tgtcctctct gagcttcttg61 agtaatggga gataattcca acgtcacaag gttgatgaaa aaaagcacca ttcatgtgcc121 tggcatctat ttattccact tcagttttct tcctatctgg ttgtctactt ttgctctcct181 acaccttgct caggggatat ccccagtact ggcaatatga gtgtgtttaa taaaggagca241 aaggaaagca ttttctggtg acaagtctca tctggctgtt cggtgacacc aaggcacatg301 cccaggaaac tggtagtttc cagtctggca ccacagcctc tagagaaaca gaaccagggc361 acctttccca gcaagtttat ggagaaaaaa cagggatggg caggtatcat caggaagcag421 ggtcccaggc tgagggcaga gatgtggctt gtttccctat ctagggatgc ctggggggaa481 ttagggtaaa aaggcaaaca gcaggtcaag gtagcttatt tgggccaagg ttgaagactg541 cagcctgaga cacttccagg ttgc
<210>21<211>388<212>DNA<213>Homo sapiens<400>211 ttgagatagc atcttgctct gtcacccagg cagaattgca gtggcacagt catggctcac61 tgaataatag atgttaaata atactagatg ttaaataata gtatcataag tacctacact121 gtttcctcaa ccctttgctt atatggtttc cttcatttga ttaaaaagct gaagtggcac181 atacatcccc ctttctgtca tagagaggca gatgacaagc ggcctaccca cggtttggga241 taatggacta gtggcaacag gcaagtccag cttttattgt ttgggatcct tactgagaag301 cagcaggctt cctctactgt cataaaaata ttaaaaagta agagcccgta taatttctca361 taataaaaca atgttttgcc ctcgtgcc<210>22<211>529<212>DNA<213>Homo sapiens<400>221 tattttgtaa tcaactgaaa gaaggcagaa ggagtcgatg ggcctcttag gcgagaaacc61 ttacaagcat aggaccaagg cagaaaaggt ccagagggtt catggtcctc cgttccacct121 gaatccagct agagagcgag ccagggggat aggtgtgccc ctcgtcgccc gtgcgctgag181 gcactgtcac gcaaagagac attcaccttc cacgtcaacg cacctttaag ggcgagacgg241 tccgccgtgc ccaagaggaa cgggatgaca ttcaactggg acttgcctca ccttggcttg301 ggggacctcg agagcggtcc cgtgggggca gtgttactcg tggtggtaga agtggagggc361 gtgtccgggt acttgagttc atgggcatct ctcccgccgc ctctcagcct atctgcacca421 tgtctcacac gttcagttgc agctcttacc gttttgaagg cgcacgtggg caagaagtcc481 tgggcagcac aagaaagtca atcacgttga gacagagaga gcaggagag<210>23<211>291<212>DNA<213>Homo sapiens<400>231 tttttttttt tttttttttt tttttttaag atgaataaat tgaagacatt tatttcctcc61 aagaaaaatg tctggcactt ggaattttca agctgcaagt agatgtacac attttcaaaa121 gatctttctt ttccttcgct tcctcacact gggcacagca aaacatctct gccttctttt181 cacgggaagt gaccctcctc cccatgggtc aataagttaa cgccaaatcg cggcaaaacg241 gcgaattcca tctctgaggc tctagaagct caatcttctg ggcccctggc t
<210>24<211>404<212>DNA<213>Homo sapiens<400>241 tttttttttt tttttgaggc agaattttgc tcttctcgcc caggctagag tgcaatagcg61 cgttcttggc tcactgcaac ctccgcctcc tgggttcaag caattctcct gcctcagcct121 cccgagtagc tgggattaca ggaaggcacc accatgcgtg gctaattttg tatttttagt181 agagacaagg tttctccatg ttggtcaggc tggtctcgaa ctcccaacct caggtgatcc241 acccgcctcg gcctcccaaa gtgctgggat taccagcgtg accnactgca cctggtcaag301 tatcatggtt ttttaatagt atgcacacat gggacaaaac tcaactggta taaaagggta361 tgcaggagaa aaaaagcaaa cttccctctc tcccttttct gtcc<210>25<211>379<212>DNA<213>Homo sapiens<400>251 ttttagtttg tagtaattta ttacagcagg cagaggaaac acacacaacc cttgaaccat61 cttctttagc gaaaattact aggagtttct cagtttcttc tgagggctgg tgtgacctca121 ggggccagca agaagagcct catccctcag ccacctttga ggaagtaaac atggacttcc181 tccctgagct gaatcagaac actccccaaa aactccttgg ttagccagaa aaatcctccc241 ttgtccttcc ataagccagc atgggtggga ttttccatca cttgcaacca agaaagtcct301 gactgagaag caacaggaga cggaggttaa ggtttccagg ttttaggctg gcttcccacg361 aggctgcaca gagatctcg<210>26<211>378<212>DNA<213>Homo sapiens<400>261 tttttttttt tgttgaataa tatacaacat ttatggataa ctcagcactt tacattcaat61 tcctcttatc cttaaagcag tcttgaagag tagatgctgt atgtctgtct tgcagatgaa121 cttagcattc ttctcatata ggcctcgcat ggcctggcca agtacttcct aagctcggaa181 caaatactgg tcaactttaa ttgaaccaaa tcgggcgggg tttgcggagt ctgagagtgc241 aacgttgggg agagggggat gaaaacactg gaggacgggc tgaaagcgtc gagtccgaca301 caaaagaggc gtcagacaaa acgccaagag gctggggact gggaacgaag gaagaggttc
361 tgccagaggc gacctgcc<210>27<211>389<212>DNA<213>Homo sapiens<400>271 aatttagaga tagttaccaa attacaaata gcttcacttt ggagttaagt aacaacctgg61 tttgaaattt cagctccatt acttattatc tgtgagactt tgaacaaatt agtaaaactc121 tctgagactg ttttcccccc atgtcaaaac acctattttg catggctata tggaaattaa181 atgaaatagc aaatatgaaa aacttttggc ccagtgtata attcatatca ggcactgatc241 tgttttcttt ttgccctaac ctacttttcc tgcatcatat accactacac ctctttacaa301 accttattaa tagagccact ctagactact ttatttcccc aagccataca atgtactttt361 gtgttttttc ttcagctaca tgctctttc<210>28<211>504<212>DNA<213>Homo sapiens<400>281 ggcgcctgga cccactttat tccgatattc cgcctgcaaa gcgtgtggaa agaagcgtaa61 ggctcaggga tggtagtccc agagaggagg gtccctgagg ctctgcgcaa gcccccctcc121 ccaacctttc gggccaagtc agacgaagcc tcggaaaggc tgggtctgtt ttgctgacca181 aatctccttg ttagccgttt ccgcctgaca agcctggcag caggcgttgg cttctcctct241 ccgggcggcc acctccaatg ccgcgcgggg agcaatgggg cccggcctgc agagggctgc301 ctggaccttg aagtttggaa aaacaagaag agactgagcc ggctccctcc cttctctgca361 gacacacacg caccgtcagc gcgccgccag cttcctgnct tttgtttttg cttcctccaa421 acatttattt gggcctcttg cattagccgc ggtggggctc tgggttgacg ataaaaggaa481 atacactctg aagacagttt tctg<210>29<211>500<212>DNA<213>Homo sapiens<400>291 ttttaaccac aaataattta ttactcagga gtgaatattt ttaaaattat gtagacattg61 cgattatagt acttagtctt ttcctaacaa aaagacaacc attctcaagt atcttattac121 agttattcat tgattaacaa ttaattgaac agcttctatg ttatagtccc taggcatatg
181 gcaatgaact agattgttat acaaagtccc tgctgccatg gagattacat tctacaggag241 tggacataga caataaatga ataaacaaat aaataaatga gataatttca gataatgata301 aagccttgaa gcccaggtga tagacaaaaa gtgaccatgg gatgttgggg gaagtttttt361 aaacattttt cttcttaaat ttggtttaaa taaacattta ccaaagtgat aaatatctgc421 agtttagtca gatagtacca taagtattta ttaatagcat ttattacaaa aaaacccaga481 aatctccatc tgcttcttcc<210>30<211>408<212>DNA<213>Homo sapiens<400>301 aatggagttt cgcccttgtt gccaaggctg gagagcaatg gtgtgatctc ggctcactgc61 aacctccatc tcccaggttc ccgcgattct cctgtttcag ccttccaagt agctgggatc121 acagccacgc accatcacgc ttgactaatt ttgtactttt agtagtgaca gggtttcacc181 atattggtca ggctgatctc aaactcctga cctcgggtgt tccgcccgcc tcagcctccc241 aaagtgctgg gattacaggc gtcacgacca tgcccagtct gggatctgtt taaggtaatg301 tgaaactatg acaaaccagg tattgccagc caatgataca agtggtgaac acttaacaga361 aaaagcagcg acaaatggtt atctacagga gaataatcag tttactac<210>31<211>533<212>DNA<213>Homo sapiens<400>311 taactgatga aacatacatt tattttttcc aatcaagtct taaaagtttg atgaaagcgc61 attattgtta ccaaaagtct tcaggcaata acagagataa aacttaacac agacaaacaa121 tgattttatt ccatagtctc ttggacttga gaatccattt gagtttcaga aagaatacta181 aattaatggg ggttatgtca ggatgccaat gtccatgctg aggcttctcc tgatacaatc241 ttttgcaaca taaccaacaa agatcaggag cttaaaacaa aacaaaacaa aaacaaacaa301 aaaacaagtt catgttattt ctacaatgtc caaaaagaaa gaccaagatc tttgcttaaa361 aatagaaatg catactgcag tggctcaaaa acttaggcct gcatcaaaat tacatgaagc421 gcttgttaaa acagattgag ccccatctgc aaagtttgtg actcaagtgt tgggtggggc481 caaataattt gtatttctaa caggtttcta agtgaagtca atgctactgg tgt<210>32<211>645<212>DNA<213>Homo sapiens
<400>321 tttagaaaac atatgcgcca tttattttgt tttataaact tttgttaaaa cacagaagag61 taagaaatgt tttttgtttc tttgccccat caggcggcag tgatgggggc tcaggggtca121 gcgcaagacc taatgacatt cacacccaca gaaagatgtg ggtcgttctg atgggaccca181 gcccgctttg ataattgctt gatgtaaatt tcacaattca tcttaatcag ggcagatcac241 agaaaaattt ggcaaaagta attggcttgg taatgacaag aaatagaaga gcgttcattt301 ctgaccctct cctctcctct gtccactctc aggagagccc tgcgaatttt ttagaagctc361 ctgagacccg cctgaagatc agggtgtctt ggtggggaaa ttgtgcccac gcttgtcccc421 ccagcaaccc tctgtttgtc catcagattt tatgttttag gaccacaact caagtagcca481 aaaaaaaaaa aaaaaaaaaa gagagcgaga gattttctaa tatcatgtca gcttagagtc541 aaaaaagtaa actttgtttt gtgtttctca cattacaata aagttattaa ggtggaatgg601 gtttctcctc cagaaagggg tagattccca gcagagaact gaccc<210>33<211>314<212>DNA<213>Homo sapiens<400>331 ctactactac taaattggcg gcgctcgact tttttttttt ttttggtaaa tattaacata61 gcaccaaatt ttgtaattaa gtataaatga ctatacattt gaatttagtt tagggcaaga121 ttttatacaa ggtcataaga ttaaatacag agttatttgc cccataaaat tagtactcag181 tactatactg aagacatact tttgcaaatc atcattcagc agaagttctt tatcccacag241 ctatatctat ctacaatttc aattttagga tctcaatgcc ctttaaaaaa ttgtatgggc301 caggcgaggt ggcc<210>34<211>640<212>DNA<213>Homo sapiens<400>341 ccagctgccg gtactgcccc tggacaggcc ggtcccccag cacgtcctca gccgccgagg61 agccatcagc ttcagctcca gctccgctct cttcggctgc cccaatcccc ggcagctctc121 tcagaggcgt ggagctattt cctatgacag ttctgatcag actgcattat acattcgtat181 gctaggagat gtacgtgtaa ggagccgagc aggatttgaa tcagaaagaa gaggttctca241 cccatatatt gattttcgta ttttccactc tcaatctgaa attgaagtgt ctgtctctgc301 aaggaatatc agaaggctac taagtttcca gcgatatctt agatcttcac gcttttttcg361 tggtactgcg gtttcaaatt ccctaaacat tttagatgat gattataatg gacaagccaa421 gtgtatgctg gaaaaagttg gaaattggag atttgagagc gttctatttg atagactaac481 aaatggaata ggccaggaaa cttaagcctt ccatgattta ggccttcagg ggttagatgg
541 gggctgccca tttgggaatg tgtgaactgc gggagatgtt gaggaagagg gtctggcccc601 taacagggac aaggtgtccg ttttgcagaa agccggtttt<210>35<211>643<212>DNA<213>Homo sapiens<400>351 ggtcgacttt tttttttttt tttctatgtg ggcccccata ggatggacaa tatctgccca61 aatggataag ggtggtcctt ccctactcag tctactagct caaatgctaa tctcttcgga121 aacaccctca cagacacagt cagaaataat atcttaccag gatctgggta tcctgtggcc181 cagtcatgct tacaacataa aatgaaccat cacagtcctc aaccaacact atctcgtata241 tccttaaaac agagaaacca aggttcagaa aagttaccta ctgtcacaaa agtaagtaaa301 cagctaaacc aaaaatcaaa ctcgtgtcta tctaaatcaa gagatcaaac acaaatgcca361 actaagattc tgtggaggag ataatagtta caagttaggc ccttgctcca agaaagttcc421 tgcagacgga gatcagattt atacacatcg aacaatgcga accctgtatt attctatatt481 gactacagct tatatacaaa gaagccttga ggaaagaaag tttcgggatt aaaccgattc541 cttcattcat ggatgcttct aagggttggt attgacagga cgggtaccac aggtcagcag601 tgtgttagaa atccacctgt ggccgctaac gggtggtggg aaa<210>36<211>383<212>DNA<213>Homo sapiens<400>361 tttttttttt tgccactgcc acctttatta tttagcactg ttatgaaaat atttaaacca61 tgcagtcaga aattatgtta taaattttga aaaggaaaac atataattat aacataattg121 ataggatttc tcacctggaa aaactcaaaa ggatcaaatg aatatctcta aaattaatag181 atttcaataa attgccaatt taaaataatc gatgcaaata aattcttctc ctatatagca241 aaaatgacca cataggtaac atattaaaag ctccaataag cagtatcaac gtgttccctg301 tatgtctgta ttacctagga acatatttat tacaaattat ataggattta agtaaaactc361 tcttgaagga tatataaagt ttt<210>37<211>474<212>DNA<213>Homo sapiens<400>37
1 gccatcatgc atcttatcaa atttaataac atgcacgcca gtcagagcac atttgtgggc61 aaacctgggc tatcagctgt cactttgatg cccaaggttt acatgtaaat tgggaagctc121 tgtggtttag aggaggaggg caggttgggg gagcaatgaa ctcagtccag cccatggccc181 acttagtcat ggactctcac agataggcag gatcttgggg aggtgggtcc atccttatct241 acattttaca gatggggaaa gccaaacttg tccaaggcca ccatggcaat gggccctggc301 attccctctc ttcacatgct tctcactcaa atttctgtcc tgggaaccaa gaaccttgag361 gatggactgc tccatactcc ttctgaagag agggtagggc agggtctgat tgggtggcag421 acactaggtc aggcccctcc ctcagatgct gtctgtccca gagtggcatc tggg<210>38<211>315<212>DNA<213>Homo sapiens<400>381 tttcaaatta ggttatttat tcttaaatat gaacaggaaa ctcagagtta tctggtattc61 aaggaaagcc cgccttatga atggcaaaga ctcaaattca aaacacaaaa gtaattctga121 aggaagagat aatttaaaga aaccacacaa acacagacta atgagagttt tcaaaaagtt181 tcaagaaatc ccacagttca caaaataaga atatgattat ttttaaaata acacttaaag241 aaatcctgaa aatgaatata tctgtggtat atgtgtgtgg gtatgcacaa tttgtgtgta301 ttaaatttga aaatg<210>39<211>498<212>DNA<213>Homo sapiens<400>391 gaaggcaggc taccgttgtc actactacta atttatctgc agtatgagta gcagtaggtg61 acttcaccat aactcacatc atctggatct caaagagcca ctctgatgac gtaagtataa121 tctggcagta tcgtgggaat caggaccacc gtctttgctg tagcaatacc cgggacctca181 gtttacatat ctcctttatg tgtcgagaaa gtgtatgtgt gggtggtagg agggccagga241 aaaaaagcta aaatcactca ccgtgtgatt gttcagcatg aactgtaccg cactaagctt301 cactagcttc cttacgctac tgtacccaat ggagaggtca ttgagaagct gtagtgtctt361 ggaggtgatt ggttcacaac ggccccagta cttcaagttg gtgatgcctg gaggacaaaa421 gaaaaaaaaa agcaggagac ccttttgatt tgctggtttc ctgagggctg ggagaagaag481 aaagtcattc atcaaaag<210>40<211>594<212>DNA
<213>Homo sapiens<400>401 aagtctgcac taaataactt acagtagcat ggcatagtaa gaaagaacgt tgtttcagga61 actgaagata taggttataa tctaagctat gtcattaacg aagtgtntat taagtaaata121 atttaagcat cttggtcatc atttattttc ttataaaatt aggagtttgt atcagatcat181 ctgtaattta cttcccagtt ttaaaaacaa atctggtctt ctgtcactct tgcaattcaa241 aaaccgtgtc tctgaagcag atcatgtgcg tagccagcct gtggtaggaa agtcagccct301 ccctcaggat gaaaggtgct tgcagaacct ccacccacac accttccaca caggggtttc361 tgatgctttt gcagaactga aagaattgga atagagatac actgatttcc acagaaattc421 taagggaatc actgtaaatt gtctaaaacc actttaagta ctgtgatcta acaaccacat481 tttcaaagtc acgttttttt ggactgcttt ggctgctatc tgctatggct gacagaattc541 tgaaacacac actagtgctt ttaaagtgtg cacgggaatc accagctcat tact<210>41<211>543<212>DNA<213>Homo sapiens<400>411 aatttggaac acaaatgctt tatttaaggg tgcatcacaa ttcccgtgtg gtgagcaaaa61 aataaaataa aggagcagat cgtagcacac cattcccact ggccaagtgg ttgaaccctg121 catccaagac ccagtgagca gccaagtgag gtgcaacctc tgggcctctc actcgtgact181 ccaacagaat tagcacattg cccttgtgca tggggccttt tacattgcag attttggagc241 agcaagacaa tgtatatctg ttcgtaactc ttgttcttcc ctcctgattt ttaaaactgc301 gtaattataa aactatgttg atggacatat aattattata aagatgtagt ttgtgacaat361 aacagcatgg gcagaatgaa ggcatataga gcaaattttt cattactgaa attaagttga421 gattaatctg aaacagataa aacagactag ttttacaacc tcctgtaata aaaacgctgt481 cttttaaaac aaattatcta ttgcactttt ttgtttttgg tgtcacagct atgaaagctt541 tgc<210>42<211>391<212>DNA<213>Homo sapiens<400>421 tgtttttttt tttccatatt tcttggctaa gcgactcatc tgtgaggttt ttcacaaaat61 tgttgccatc gccaaaaata ttccatttac tgaaaaaaat ccacatataa gtgtactcac121 gcagttcaaa ctaatgtggt tcaagagtca actgtataaa aggtattaat atgtctggaa181 agagatatgt ttccaattta acagacacta ccaatgagaa gagttgggct aggcaggaaa241 cttcaaattt tcctttttta ctttatatat tctatttgta tctcaactta taacctgtgg
301 accacgttta ttagaagaaa atgcagattc ctgaaacttc ctgcagaccc catgagtgac361 aatctcaggg agatggagtt ccagaatctg c<210>43<211>489<212>DNA<213>Homo sapiens<400>431 gttgttctca aacatgttta tttgtaacag ttttacatgg tgtgttacag aaattaatgg61 aaaatttcta aaaattttgc tgttctgttg aatgcattgt acataaagtt aaaaataatg121 tgtccatata tgttaacaaa ctgtcatctg aggtaaagtt aaagtaggtc tagaaaggta181 ctgcaacagt cattttctct ttctcatctt tattaaaaaa atatgtgtca gaacgcagaa241 attgaaatga accaaaccca cagagtaaac atttgtttaa aagaaggtgc ccagtacatt301 acatgatggg gtttcaggag acactgggat gagtacgagc tatcaaaaaa gtcttgcggc361 atgtaaagat tgaagagcta tggagaatgg ggacagaatg acaggtggtg tttccctggt421 ttcaaaattt aaagtgacaa atttagtgct agtggaggat gaggaattaa cagttgtaca481 catggattt<210>44<211>504<212>DNA<213>Homo sapiens<400>441 tagtctacac atgcattttt tttcattgct gtgcacttgg actcacttga agatgataac61 aaaataagga tgggacccag gcagcccttg gaagtttgct ctgtgaaaga ggatcaagta121 gatattccct ggcaggcttg tttactgatg gtgtctgctg ggccaatgca attaatttgc181 agcctggaaa cagcaggtct gtagttctca ctccaggagc ccctgtctac tggaagattg241 gctcccttga tgatggcatt gccttgactc ttctcaaagt cataactttg accttcagct301 ttatcttatc tcatcaattc aaattgcctg gtctaagaag tattcttagt agtttcaatt361 gaaagatctc ttaccccaaa ctctaaaagt tactttaaat aagaacttta tggacacttt421 ggtcttatat cctttcctta gaacaaacca aaagctatgt tcagttcatc tagcctatga481 gctgctcatg gtagactgga acca<210>45<211>529<212>DNA<213>Homo sapiens<400>45
1 ctgagaagtg tctcatacct tgcttttctt gtttcttaga agtgtcttat accagcatgt61 cagcttctta ctcataggat atggttaatg cttttttctt ctttaggtta ttttttatga121 gccctctgat ttcttgttct aattgcttat taggtcagct gcacaactgt cctactagta181 ttcctttcca ttgttcttct gggttaattc tataattttt gaatctattg tctccctctt241 tcttgaattc agttttcatt ttgccagagt atatcttcaa ggaatttttc agaaaatgtg301 cataacaggg gtggtggtgc accaaataaa tccaaatcct tgaacctcta aatgtgtctt361 tactatgcct tcacacttgt ataagagatt ccaaatgatt tcccttcaga atttgtagac421 attgctctgt taccttctag caagcccatt gcatatgaaa aatcaaatgc tactttgatt481 gttgtttctt tttaggtatc ctaaatattt tccttaagaa gttttaaga<210>46<211>482<212>DNA<213>Homo sapiens<400>461 cccagccagg aggatgatat aaaactgtgt tgacttcctt gccctcccaa ccctggaacc61 tggctgtctg tgctctgtta cactgtgact accattaatc accctcacta taaacgctgt121 tacacttaac catgcacatt gtcagcaggg tgaatcagaa gcaggaacag ttttgctgtt181 ttaaggaaac tctgtatatc tacaaggtaa atattcatgg aacaaatatt aagatgtcta241 ttttagcact gcctgtacat taagatgcag atgtgtgtgt gtatgagagt gtgtgtgtgt301 gtgagagtgt gttgtgtggg tgtgtatgtg tgtttgtggt gtatgtgggt gtggatgtgg361 ggtgtgtatt tctagtagaa tacttggaag aagagagact taaatctgga atcatgtttt421 tgtctctgca gtccaagctg gagacattaa aaacaacaac gtctccctca gttcaatcaa481 gc<210>47<211>438<212>DNA<213>Homo sapiens<400>471 tttccatgat ttcaattgtc attgttttat tttttccaaa ataacataaa aatactttcc61 agttgaatta cataaaaaat ttaatccata aaaccattat acagtcatgc attgggtaac121 aatgggaatg ggttctgatg aattgaaccc ttgggcgatt ttgtcacggg gaacatcata181 agagtgtact tacacaaacc tagatggtat agcctattgt tcctaggcta taagcttgta241 aagtgtgtta ctgtactgag tactataggc aactgtaaca cagtggtact tgtgtatcta301 aacaaatcta aacatagaaa aggtacaata aaaatatggt ataatggatt aaaaaaatgg361 tacacctgta cagggcactt accataaatg gagcttgcgc gactggaagc tgctctgggt421 gagtgactga gtgagtga
<210>48<211>403<212>DNA<213>Homo sapiens<400>481 actcactcat ccctcagtaa ggcaagttat ctccatttca cagctgaaga aatgaaggtt61 tggcaagttg ggtgacttgt ctaaaggcgt tcagtgggta agcagagagc cagggctgac121 cctcggtctg agcagttgaa acgtccagct gctttcctct gaccctgacc acctgggcat181 ggggatggag actgaagctt gttaagcagg aaggtgaccc aatctgaagt tttaaggaga241 tttccctgag gcagctcaga ggatgggctg agggcagtga ggtaggagag ggttggatga301 ttccagagaa accacccaga acactgaccc gaggcaggaa ctgtgggatg gacagaaggg361 gctggactgc agacactggg aaggtgtatt cagaattgct cgt<210>49<211>611<212>DNA<213>Homo sapiens<400>491 cttaaatatg tgactgggat actaacagaa aatgcagttt aatgtaatta aatagaaaag61 cattacagag tgggcacaat gaattgaata aggactttgt attctattta gcagtcatgc121 acattggtga ccaagaaagg atttacaatt cattgtcaaa aaatcctttt aaacggtcag181 tcttttaagg atggctgcag cagaacaagg caaactgaat actggaatga gatgggaaaa241 tcaacaccac ctaaagacta gttttgtgtt ttctcttggg agtcctctag aacagaattc301 agggtctact ttcatatttt ctgctatagt gctctatcaa gagcaggctg gggtggagaa361 catcaccaga ccatgcccac agccagggaa gagctgctcc ctaccaatta ccagggttgg421 gccagggcaa tttctggggc agagggagga ttgccatatg gaaaggaata taggacacat481 ggatgactca aactgtgatc tgtcatgaga naggcataga cgtggctact acttatgaga541 aaaaaatgag gattactaag tgaaaaatgt ctactctgtt tactgcacag tgcacgcgat601 gacaccatgt g<210>50<211>459<212>DNA<213>Homo sapiens<400>501 tttttttttg ctttttcaag ggcaacttta atcagaatag ccagctctac agacacatta61 cagaaaaagg aaaaccagtt ttttgtgtgt gtgttaggct attaaaaaaa tagtggtggg121 ttttttttcc ccattggctt ttttctctcc attatcatgc acgcctttct gttcaggatt181 gaggtcatcc atctgcaatc tcatatcctc ttgctgggtt ctgtcaagta ttagtcataa
241 ggcagtcagc ttgcttgtgt acacttcaac agatattttt cacatcaagc attgaagttg301 tatatgctta ttttagaagg gtggtcaaag tagcagatgg ttgcatggct attcataggc361 agataggcca agcatggcag gtggctcatg tctgatatca cagcactttg agaggccgaa421 gtgggaggat tgcttcagcc caggagttca aaaccagtc
权利要求
1.一类分离出的在人类肝脏中表达的表达序列标签的序列,其特征在于,包括(a)SEQ ID No.1~SEQ ID No.50所示的序列;(b)SEQ ID No.1~SEQ ID No.50所示的序列中每条序列的互补序列;(c)与SEQ ID No.1~SEQ ID No.50所示的序列中每条序列有至少70%同源性的序列,及(d)上述(a)~(c)中一条或数条的组合。
2.根据权利要求1所述的一类分离出的在人类肝脏中表达的表达序列标签的序列,其特征在于所述序列包括具有SEQ ID No.1~SEQ IDNo.50所示的序列。
3.一种探针分子,其特征在于所述的探针分子含有权利要求1中所述的序列中约8-100个连续的核苷酸。
全文摘要
本发明公开了一类在人类肝脏中表达的表达序列标签的序列。利用本发明的在人类肝脏中表达的表达序列标签,可以方便的寻找出在人类肝脏中特异表达的表达序列标签,从而寻找出人类肝脏疾病相关基因,从而在研究肝脏疾病的致病机理以及开发治疗肝脏疾病的药物中发挥重要作用。
文档编号C12Q1/68GK1970757SQ20051011059
公开日2007年5月30日 申请日期2005年11月22日 优先权日2005年11月22日
发明者韩泽广, 黄健 申请人:上海人类基因组研究中心