Identification of novel transcribed sequences on human chromosome 22 by expressed sequence tag mapping.

M. Hirosawa, T. Nagase, Y. Murahashi, R. Kikuno, O. Ohara
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引用次数: 23

Abstract

To identify sequences on the human genome that are actually transcribed, we mapped expressed sequence tags (ESTs) of long cDNAs ranging from 4 kb to 7 kb along a 33.4-Mb sequence of human chromosome 22, the first human chromosome entirely sequenced. By the EST mapping of 30,683 long cDNAs in silico, 603 cDNA sequences were found to locate on chromosome 22 and classified into 169 clusters. Comparison of the genomic loci of these cDNA sequences with 679 genes already annotated on chromosome 22q revealed that 46 clusters represented newly identified transcribed sequences. To further characterize these sequences, we sequenced 12 cDNAs in their entirety out of 46 clusters. Of these 12 cDNAs, 6 were predicted to include a protein-coding region while the remaining 6 were unlikely to encode proteins. Interestingly, 3 out of the 12 cDNAs had the nucleotide sequences of the opposite strands of the genes previously annotated, which suggested that these genomic regions were transcribed bi-directionally. In addition to these newly identified 12 cDNAs, another 12 cDNAs were entirely sequenced since these cDNAs were likely to contain new information about the predicted protein-coding sequences previously annotated. In the cases of KIAA1670 and KIAA1672, these single cDNA sequences covered two separately annotated transcribed regions. For example, the sequence of a clone for KIAA1670 indicated that the CHKL and CPT1B genes were co-transcribed as a contiguous transcript without making both the protein-coding regions fused. In conclusion, the mapping of ESTs derived from long cDNAs followed by sequencing of the entire cDNAs provided indispensable information for the precise annotation of genes on the genome together with ESTs derived from short cDNAs.
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用表达序列标记作图鉴定人类22号染色体上新的转录序列。
为了鉴定人类基因组上实际转录的序列,我们沿着人类第22号染色体33.4 mb的序列绘制了4- 7 kb长的cdna表达序列标签(est), 22号染色体是第一个完全测序的人类染色体。通过对30683条长cDNA的EST定位,发现603条cDNA序列位于22号染色体上,可分为169个簇。将这些cDNA序列的基因组位点与22q染色体上已注释的679个基因进行比较,发现46个簇代表新鉴定的转录序列。为了进一步表征这些序列,我们对46个簇中的12个cdna进行了完整的测序。在这12个cdna中,预计6个包含蛋白质编码区,而其余6个不太可能编码蛋白质。有趣的是,12个cdna中有3个具有先前注释的基因相反链的核苷酸序列,这表明这些基因组区域是双向转录的。除了这些新鉴定的12个cdna外,另外12个cdna被完全测序,因为这些cdna可能包含先前注释的预测蛋白质编码序列的新信息。在KIAA1670和KIAA1672的情况下,这些单cDNA序列覆盖了两个单独注释的转录区域。例如,KIAA1670的克隆序列表明,CHKL和CPT1B基因作为一个连续的转录物共转录,而不会使两个蛋白质编码区融合。综上所述,对长cdna衍生的ESTs进行定位,然后对整个cdna进行测序,与短cdna衍生的ESTs一起为基因组上基因的精确注释提供了不可或缺的信息。
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