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A physical map of human chromosome 14

We report the construction of a tiling path of around 650 clones covering more than 99% of human chromosome 14. Clone overlap information to assemble the map was derived by comparing fully sequenced clones with a database of clone end sequences (sequence tag connector strategy). We selected homogene...

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Published in:	Nature (London) 2001-02, Vol.409 (6822), p.947-948
Main Authors:	Heilig, Roland, Brüls, Thomas, Gyapay, Gabor, Petit, Jean-Louis, Artiguenave, François, Vico, Virginie, Qin, Shizen, Tin-Wollam, Aye Mon, Da Silva, Corinne, Muselet, Delphine, Mavel, Delphine, Pelletier, Eric, Levy, Michael, Fujiyama, Asao, Matsuda, Fumihiko, Wilson, Richard, Rowen, Lee, Hood, Leroy, Weissenbach, Jean, Saurin, William
Format:	Article
Language:	English
Subjects:	Bacteria chromosome 14 Chromosomes Chromosomes, Artificial, Bacterial Chromosomes, Human, Pair 14 Cloning Cloning, Molecular Connectors Continuity Deoxyribonucleic acid DNA Escherichia coli Genes Genomics Human Humanities and Social Sciences Humans letters-to-nature Life Sciences multidisciplinary Physical Chromosome Mapping Radiation Hybrid Mapping Science Seeds Sequence Tagged Sites Strategy Tiling
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creator	Heilig, Roland Brüls, Thomas Gyapay, Gabor Petit, Jean-Louis Artiguenave, François Vico, Virginie Qin, Shizen Tin-Wollam, Aye Mon Da Silva, Corinne Muselet, Delphine Mavel, Delphine Pelletier, Eric Levy, Michael Fujiyama, Asao Matsuda, Fumihiko Wilson, Richard Rowen, Lee Hood, Leroy Weissenbach, Jean Saurin, William
description	We report the construction of a tiling path of around 650 clones covering more than 99% of human chromosome 14. Clone overlap information to assemble the map was derived by comparing fully sequenced clones with a database of clone end sequences (sequence tag connector strategy). We selected homogeneously distributed seed points using an auxiliary high-resolution radiation hybrid map comprising 1,895 distinct positions. The high long-range continuity and low redundancy of the tiling path indicates that the sequence tag connector approach compares favourably with alternative mapping strategies.
doi_str_mv	10.1038/35057177
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source	Springer Nature - Connect here FIRST to enable access
subjects	Bacteria chromosome 14 Chromosomes Chromosomes, Artificial, Bacterial Chromosomes, Human, Pair 14 Cloning Cloning, Molecular Connectors Continuity Deoxyribonucleic acid DNA Escherichia coli Genes Genomics Human Humanities and Social Sciences Humans letters-to-nature Life Sciences multidisciplinary Physical Chromosome Mapping Radiation Hybrid Mapping Science Seeds Sequence Tagged Sites Strategy Tiling
title	A physical map of human chromosome 14
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