Author
Listed:
- Thomas Brüls
(Genoscope and CNRS UMR 8030)
- Gabor Gyapay
(Genoscope and CNRS UMR 8030)
- Jean-Louis Petit
(Genoscope and CNRS UMR 8030)
- François Artiguenave
(Genoscope and CNRS UMR 8030)
- Virginie Vico
(Genoscope and CNRS UMR 8030)
- Shizen Qin
(Multimegabase Sequencing Center, The Institute for Systems Biology)
- Aye Mon Tin-Wollam
(Washington University Genome Sequencing Center)
- Corinne Da Silva
(Genoscope and CNRS UMR 8030)
- Delphine Muselet
(Genoscope and CNRS UMR 8030)
- Delphine Mavel
(Genoscope and CNRS UMR 8030)
- Eric Pelletier
(Genoscope and CNRS UMR 8030)
- Michael Levy
(Genoscope and CNRS UMR 8030)
- Asao Fujiyama
(RIKEN Genome Sciences Center)
- Fumihiko Matsuda
(Centre National de Genotypage)
- Richard Wilson
(Washington University Genome Sequencing Center)
- Lee Rowen
(Multimegabase Sequencing Center, The Institute for Systems Biology)
- Leroy Hood
(Multimegabase Sequencing Center, The Institute for Systems Biology)
- Jean Weissenbach
(Genoscope and CNRS UMR 8030)
- William Saurin
(Genoscope and CNRS UMR 8030)
- Roland Heilig
(Genoscope and CNRS UMR 8030)
Abstract
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 sequences1,2 (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.
Suggested Citation
Thomas Brüls & Gabor Gyapay & Jean-Louis Petit & François Artiguenave & Virginie Vico & Shizen Qin & Aye Mon Tin-Wollam & Corinne Da Silva & Delphine Muselet & Delphine Mavel & Eric Pelletier & Michae, 2001.
"A physical map of human chromosome 14,"
Nature, Nature, vol. 409(6822), pages 947-948, February.
Handle:
RePEc:nat:nature:v:409:y:2001:i:6822:d:10.1038_35057177
DOI: 10.1038/35057177
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