Detailed analysis of a 17q21 microdissection library by sequence bioinformatics and isolation of region-specific clones.

K L Bentley, W L Li, F O VannBerg, J Y Choi, J Yu, F T Kao, G Ruaño
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引用次数: 1

Abstract

A region-specific microdissection library originating from human chromosome 17q21, was constructed using the MboI linker-adaptor microcloning technique. DNA sequencing of 241 microclones resulted in the identification of 74 novel coding sequences, paralogs of known genes, and known, but previously unmapped, genes or expressed sequence tags that were "virtually" mapped to chromosome 17q21. By pooling the microclones as multiplexed hybridization probes, and by virtue of their origin on 17q21, we were able to identify approximately 150 P1 clones from the human Reference Library Data Base P1 Library that potentially map to chromosome 17q21. Verification of the 17q21 location of 16 P1 clones was accomplished by PCR analysis with STS primer pairs to known 17q21 genes or by FISH. Our results demonstrate the substantial advantage of combining the sequence analysis of microclones with multiplex hybridization strategies for gene discovery and mapping specific gene rich regions of the genome.

利用序列生物信息学和区域特异性克隆分离技术对17q21微解剖文库进行详细分析。
利用MboI连接接头微克隆技术,构建了人类染色体17q21的区域特异性微解剖文库。241个微克隆的DNA测序结果鉴定出74个新的编码序列,已知基因的类似物,以及已知的,但以前未定位的基因或表达的序列标签,这些序列“实际上”定位到染色体17q21上。通过将这些微克隆作为多路杂交探针,并利用它们在17q21上的起源,我们能够从人类参考文库数据库P1文库中鉴定出大约150个可能定位于17q21染色体的P1克隆。用已知17q21基因的STS引物对进行PCR或FISH分析,验证了16个P1克隆的17q21位置。我们的研究结果表明,将微克隆序列分析与多重杂交策略相结合,在基因发现和基因组特定基因丰富区域定位方面具有巨大优势。
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