Facilitating genome navigation: survey sequencing and dense radiation-hybrid gene mapping

C Hitte; J Madeoy; EF Kirkness; C Priat; TD Lorentzen; F Senger; D Thomas; T Derrien; C Ramirez; C Scott; G Evanno; B Pullar; E Cadieu; [No Value] Oza; K Lourgant; DB Jaffe; S Tacher; S Dreano; N Berkova; C Andre; P Deloukas; C Fraser; K Lindblad-Toh; EA Ostrander; F Galibert

doi:10.1038/nrg1658

Facilitating genome navigation: survey sequencing and dense radiation-hybrid gene mapping

C Hitte
, J Madeoy
, EF Kirkness
, C Priat
, TD Lorentzen
, F Senger
, D Thomas
, T Derrien
, C Ramirez
, C Scott
, G Evanno
, B Pullar
, E Cadieu
, [No Value] Oza
, K Lourgant
, DB Jaffe
, S Tacher
, S Dreano
, N Berkova
, C Andre

P Deloukas, C Fraser, K Lindblad-Toh, EA Ostrander^*, F Galibert

^*Corresponding author for this work

University of Groningen

Research output: Contribution to journal › Review article › peer-review

63 Citations (Scopus)

Abstract

Accurate and comprehensive sequence coverage for large genomes has been restricted to only a few species of specific interest. Lower sequence coverage (survey sequencing) of related species can yield a wealth of information about gene content and putative regulatory elements. But survey sequences lack long-range continuity and provide only a fragmented view of a genome. Here we show the usefulness of combining survey sequencing with dense radiation-hybrid (RH) maps for extracting maximum comparative genome information from model organisms. Based on results from the canine system, we propose that from now on all low-pass sequencing projects should be accompanied by a dense, gene-based RH map-construction effort to extract maximum information from the genome with a marginal extra cost.

Original language	English
Pages (from-to)	643-649
Number of pages	7
Journal	Nature Reviews Genetics
Volume	6
Issue number	8
DOIs	https://doi.org/10.1038/nrg1658
Publication status	Published - Aug-2005

Keywords

CANINE GENOME
DOG GENOME
MOUSE GENOME
LINKAGE MAP
CONSTRUCTION
STRATEGY
MULTIMAP
SYSTEM
MODEL

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Hitte, C., Madeoy, J., Kirkness, EF., Priat, C., Lorentzen, TD., Senger, F., Thomas, D., Derrien, T., Ramirez, C., Scott, C., Evanno, G., Pullar, B., Cadieu, E., Oza, N. V., Lourgant, K., Jaffe, DB., Tacher, S., Dreano, S., Berkova, N., ... Galibert, F. (2005). Facilitating genome navigation: survey sequencing and dense radiation-hybrid gene mapping. Nature Reviews Genetics, 6(8), 643-649. https://doi.org/10.1038/nrg1658

@article{e3490289ac184cd9bab32aa5145e2b16,

title = "Facilitating genome navigation: survey sequencing and dense radiation-hybrid gene mapping",

abstract = "Accurate and comprehensive sequence coverage for large genomes has been restricted to only a few species of specific interest. Lower sequence coverage (survey sequencing) of related species can yield a wealth of information about gene content and putative regulatory elements. But survey sequences lack long-range continuity and provide only a fragmented view of a genome. Here we show the usefulness of combining survey sequencing with dense radiation-hybrid (RH) maps for extracting maximum comparative genome information from model organisms. Based on results from the canine system, we propose that from now on all low-pass sequencing projects should be accompanied by a dense, gene-based RH map-construction effort to extract maximum information from the genome with a marginal extra cost.",

keywords = "CANINE GENOME, DOG GENOME, MOUSE GENOME, LINKAGE MAP, CONSTRUCTION, STRATEGY, MULTIMAP, SYSTEM, MODEL",

author = "C Hitte and J Madeoy and EF Kirkness and C Priat and TD Lorentzen and F Senger and D Thomas and T Derrien and C Ramirez and C Scott and G Evanno and B Pullar and E Cadieu and Oza, \{[No Value]\} and K Lourgant and DB Jaffe and S Tacher and S Dreano and N Berkova and C Andre and P Deloukas and C Fraser and K Lindblad-Toh and EA Ostrander and F Galibert",

year = "2005",

month = aug,

doi = "10.1038/nrg1658",

language = "English",

volume = "6",

pages = "643--649",

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issn = "1471-0056",

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Hitte, C, Madeoy, J, Kirkness, EF, Priat, C, Lorentzen, TD, Senger, F, Thomas, D, Derrien, T, Ramirez, C, Scott, C, Evanno, G, Pullar, B, Cadieu, E, Oza, NV, Lourgant, K, Jaffe, DB, Tacher, S, Dreano, S, Berkova, N, Andre, C, Deloukas, P, Fraser, C, Lindblad-Toh, K, Ostrander, EA & Galibert, F 2005, 'Facilitating genome navigation: survey sequencing and dense radiation-hybrid gene mapping', Nature Reviews Genetics, vol. 6, no. 8, pp. 643-649. https://doi.org/10.1038/nrg1658

TY - JOUR

T1 - Facilitating genome navigation

T2 - survey sequencing and dense radiation-hybrid gene mapping

AU - Hitte, C

AU - Madeoy, J

AU - Kirkness, EF

AU - Priat, C

AU - Lorentzen, TD

AU - Senger, F

AU - Thomas, D

AU - Derrien, T

AU - Ramirez, C

AU - Scott, C

AU - Evanno, G

AU - Pullar, B

AU - Cadieu, E

AU - Oza, [No Value]

AU - Lourgant, K

AU - Jaffe, DB

AU - Tacher, S

AU - Dreano, S

AU - Berkova, N

AU - Andre, C

AU - Deloukas, P

AU - Fraser, C

AU - Lindblad-Toh, K

AU - Ostrander, EA

AU - Galibert, F

PY - 2005/8

Y1 - 2005/8

N2 - Accurate and comprehensive sequence coverage for large genomes has been restricted to only a few species of specific interest. Lower sequence coverage (survey sequencing) of related species can yield a wealth of information about gene content and putative regulatory elements. But survey sequences lack long-range continuity and provide only a fragmented view of a genome. Here we show the usefulness of combining survey sequencing with dense radiation-hybrid (RH) maps for extracting maximum comparative genome information from model organisms. Based on results from the canine system, we propose that from now on all low-pass sequencing projects should be accompanied by a dense, gene-based RH map-construction effort to extract maximum information from the genome with a marginal extra cost.

AB - Accurate and comprehensive sequence coverage for large genomes has been restricted to only a few species of specific interest. Lower sequence coverage (survey sequencing) of related species can yield a wealth of information about gene content and putative regulatory elements. But survey sequences lack long-range continuity and provide only a fragmented view of a genome. Here we show the usefulness of combining survey sequencing with dense radiation-hybrid (RH) maps for extracting maximum comparative genome information from model organisms. Based on results from the canine system, we propose that from now on all low-pass sequencing projects should be accompanied by a dense, gene-based RH map-construction effort to extract maximum information from the genome with a marginal extra cost.

KW - CANINE GENOME

KW - DOG GENOME

KW - MOUSE GENOME

KW - LINKAGE MAP

KW - CONSTRUCTION

KW - STRATEGY

KW - MULTIMAP

KW - SYSTEM

KW - MODEL

U2 - 10.1038/nrg1658

DO - 10.1038/nrg1658

M3 - Review article

SN - 1471-0056

VL - 6

SP - 643

EP - 649

JO - Nature Reviews Genetics

JF - Nature Reviews Genetics

IS - 8

ER -

Facilitating genome navigation: survey sequencing and dense radiation-hybrid gene mapping

Abstract

Keywords

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