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Transformation-associated recombination (TAR) cloning of tumor-inducing Xmrk2 gene from Xiphophorus maculatus

We modified the TAR methodology of YAC clone construction for application to fish genomic DNA isolated from Xiphophorus maculatus. YAC libraries were developed using the XIR1 repeat sequence as the recombinational hook. Construction of these libraries demonstrates that Xiphophorus DNA sequences can...

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Published in:	Marine biotechnology (New York, N.Y.) N.Y.), 2001-06, Vol.3 (Supplement 1), p.S168-S176
Main Authors:	Kirchner, J M, Ivanova, V, Samson, A, Noskov, V N, Volff, J N, Resnick, M A, Walter, R B
Format:	Article
Language:	English
Subjects:	Clones Cloning Construction Deoxyribonucleic acid DNA Fish Fish genetics Gene sequencing Genetic recombination Genetic transformation Genetics Genomics Neoplasms Nucleotide sequence Recombination Regions Replication origins Sequencing Xiphophorus Xiphophorus maculatus Xmrk gene Yeast Yeasts
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container_end_page	S176
container_issue	Supplement 1
container_start_page	S168
container_title	Marine biotechnology (New York, N.Y.)
container_volume	3
creator	Kirchner, J M Ivanova, V Samson, A Noskov, V N Volff, J N Resnick, M A Walter, R B
description	We modified the TAR methodology of YAC clone construction for application to fish genomic DNA isolated from Xiphophorus maculatus. YAC libraries were developed using the XIR1 repeat sequence as the recombinational hook. Construction of these libraries demonstrates that Xiphophorus DNA sequences can function as hooks in the yeast recombination system and that X. maculatus genomic DNA contains sequences that provide origin of replication function in yeast. By screening a subset of Xiphophorus YAC clones, we isolated a clone harboring the Xmrk2 locus that is associated with spontaneous and induced melanomagenesis. Modifications of the TAR technique allowed the targeted cloning of specific genes from genomic regions ranging in size from cDNAs to several hundred kilobases. Specific genomic regions can be isolated in a directional manner from fixed map locations to saturate these areas with physical markers. We discuss the applications of these and other yeast recombinational processes to fish genetics.
doi_str_mv	10.1007/s1012601-0039-9
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subjects	Clones Cloning Construction Deoxyribonucleic acid DNA Fish Fish genetics Gene sequencing Genetic recombination Genetic transformation Genetics Genomics Neoplasms Nucleotide sequence Recombination Regions Replication origins Sequencing Xiphophorus Xiphophorus maculatus Xmrk gene Yeast Yeasts
title	Transformation-associated recombination (TAR) cloning of tumor-inducing Xmrk2 gene from Xiphophorus maculatus
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