Literature DB >> 11773963

Genetic, physical, and comparative map of the subtelomeric region of mouse Chromosome 4.

Xia Li1, Alexander A Bachmanov, Shanru Li, Zhenyu Chen, Michael G Tordoff, Gary K Beauchamp, Pieter J de Jong, Chenyan Wu, Lianchun Chen, David B West, David A Ross, Jeffery D Ohmen, Danielle R Reed.   

Abstract

The subtelomeric region of mouse chromosome (Chr) 4 harbors loci with effects on behavior, development, and disease susceptibility. Regions near the telomeres are more difficult to map and characterize than other areas because of the unique features of subtelomeric DNA. As a result of these problems, the available mapping information for this part of mouse Chr 4 was insufficient to pursue candidate gene evaluation. Therefore, we sought to characterize the area in greater detail by creating a comprehensive genetic, physical, and comparative map. We constructed a genetic map that contained 30 markers and covered 13.3 cM; then we created a 1.2-Mb sequence-ready BAC contig, representing a 5.1-cM area, and sequenced a 246-kb mouse BAC from this contig. The resulting sequence, as well as approximately 40 kb of previously deposited genomic sequence, yielded a total of 284 kb of sequence, which contained over 20 putative genes. These putative genes were confirmed by matching ESTs or cDNA in the public databases to the genomic sequence and/or by direct sequencing of cDNA. Comparative genome sequence analysis demonstrated conserved synteny between the mouse and the human genomes (1p36.3). DNA from two strains of mice (C57BL/6ByJ and 129P3/J) was sequenced to detect single nucleotide polymorphisms (SNPs). The frequency of SNPs in this region was more than threefold higher than the genome-wide average for comparable mouse strains (129/Sv and C57BL/6J). The resulting SNP map, in conjunction with the sequence annotation and with physical and genetic maps, provides a detailed description of this gene-rich region. These data will facilitate genetic and comparative mapping studies and identification of a large number of novel candidate genes for the trait loci mapped to this region.

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Year:  2002        PMID: 11773963      PMCID: PMC1994206          DOI: 10.1007/s0033501-2109-8

Source DB:  PubMed          Journal:  Mamm Genome        ISSN: 0938-8990            Impact factor:   2.957


  43 in total

1.  PipMaker--a web server for aligning two genomic DNA sequences.

Authors:  S Schwartz; Z Zhang; K A Frazer; A Smit; C Riemer; J Bouck; R Gibbs; R Hardison; W Miller
Journal:  Genome Res       Date:  2000-04       Impact factor: 9.043

2.  Initial sequencing and analysis of the human genome.

Authors:  E S Lander; L M Linton; B Birren; C Nusbaum; M C Zody; J Baldwin; K Devon; K Dewar; M Doyle; W FitzHugh; R Funke; D Gage; K Harris; A Heaford; J Howland; L Kann; J Lehoczky; R LeVine; P McEwan; K McKernan; J Meldrim; J P Mesirov; C Miranda; W Morris; J Naylor; C Raymond; M Rosetti; R Santos; A Sheridan; C Sougnez; Y Stange-Thomann; N Stojanovic; A Subramanian; D Wyman; J Rogers; J Sulston; R Ainscough; S Beck; D Bentley; J Burton; C Clee; N Carter; A Coulson; R Deadman; P Deloukas; A Dunham; I Dunham; R Durbin; L French; D Grafham; S Gregory; T Hubbard; S Humphray; A Hunt; M Jones; C Lloyd; A McMurray; L Matthews; S Mercer; S Milne; J C Mullikin; A Mungall; R Plumb; M Ross; R Shownkeen; S Sims; R H Waterston; R K Wilson; L W Hillier; J D McPherson; M A Marra; E R Mardis; L A Fulton; A T Chinwalla; K H Pepin; W R Gish; S L Chissoe; M C Wendl; K D Delehaunty; T L Miner; A Delehaunty; J B Kramer; L L Cook; R S Fulton; D L Johnson; P J Minx; S W Clifton; T Hawkins; E Branscomb; P Predki; P Richardson; S Wenning; T Slezak; N Doggett; J F Cheng; A Olsen; S Lucas; C Elkin; E Uberbacher; M Frazier; R A Gibbs; D M Muzny; S E Scherer; J B Bouck; E J Sodergren; K C Worley; C M Rives; J H Gorrell; M L Metzker; S L Naylor; R S Kucherlapati; D L Nelson; G M Weinstock; Y Sakaki; A Fujiyama; M Hattori; T Yada; A Toyoda; T Itoh; C Kawagoe; H Watanabe; Y Totoki; T Taylor; J Weissenbach; R Heilig; W Saurin; F Artiguenave; P Brottier; T Bruls; E Pelletier; C Robert; P Wincker; D R Smith; L Doucette-Stamm; M Rubenfield; K Weinstock; H M Lee; J Dubois; A Rosenthal; M Platzer; G Nyakatura; S Taudien; A Rump; H Yang; J Yu; J Wang; G Huang; J Gu; L Hood; L Rowen; A Madan; S Qin; R W Davis; N A Federspiel; A P Abola; M J Proctor; R M Myers; J Schmutz; M Dickson; J Grimwood; D R Cox; M V Olson; R Kaul; C Raymond; N Shimizu; K Kawasaki; S Minoshima; G A Evans; M Athanasiou; R Schultz; B A Roe; F Chen; H Pan; J Ramser; H Lehrach; R Reinhardt; W R McCombie; M de la Bastide; N Dedhia; H Blöcker; K Hornischer; G Nordsiek; R Agarwala; L Aravind; J A Bailey; A Bateman; S Batzoglou; E Birney; P Bork; D G Brown; C B Burge; L Cerutti; H C Chen; D Church; M Clamp; R R Copley; T Doerks; S R Eddy; E E Eichler; T S Furey; J Galagan; J G Gilbert; C Harmon; Y Hayashizaki; D Haussler; H Hermjakob; K Hokamp; W Jang; L S Johnson; T A Jones; S Kasif; A Kaspryzk; S Kennedy; W J Kent; P Kitts; E V Koonin; I Korf; D Kulp; D Lancet; T M Lowe; A McLysaght; T Mikkelsen; J V Moran; N Mulder; V J Pollara; C P Ponting; G Schuler; J Schultz; G Slater; A F Smit; E Stupka; J Szustakowki; D Thierry-Mieg; J Thierry-Mieg; L Wagner; J Wallis; R Wheeler; A Williams; Y I Wolf; K H Wolfe; S P Yang; R F Yeh; F Collins; M S Guyer; J Peterson; A Felsenfeld; K A Wetterstrand; A Patrinos; M J Morgan; P de Jong; J J Catanese; K Osoegawa; H Shizuya; S Choi; Y J Chen; J Szustakowki
Journal:  Nature       Date:  2001-02-15       Impact factor: 49.962

3.  Preparation of PCR-quality mouse genomic DNA with hot sodium hydroxide and tris (HotSHOT).

Authors:  G E Truett; P Heeger; R L Mynatt; A A Truett; J A Walker; M L Warman
Journal:  Biotechniques       Date:  2000-07       Impact factor: 1.993

4.  Tas1r3, encoding a new candidate taste receptor, is allelic to the sweet responsiveness locus Sac.

Authors:  M Max; Y G Shanker; L Huang; M Rong; Z Liu; F Campagne; H Weinstein; S Damak; R F Margolskee
Journal:  Nat Genet       Date:  2001-05       Impact factor: 38.330

5.  Molecular genetic identification of a candidate receptor gene for sweet taste.

Authors:  M Kitagawa; Y Kusakabe; H Miura; Y Ninomiya; A Hino
Journal:  Biochem Biophys Res Commun       Date:  2001-04-27       Impact factor: 3.575

6.  A candidate taste receptor gene near a sweet taste locus.

Authors:  J P Montmayeur; S D Liberles; H Matsunami; L B Buck
Journal:  Nat Neurosci       Date:  2001-05       Impact factor: 24.884

7.  Bacterial artificial chromosome libraries for mouse sequencing and functional analysis.

Authors:  K Osoegawa; M Tateno; P Y Woon; E Frengen; A G Mammoser; J J Catanese; Y Hayashizaki; P J de Jong
Journal:  Genome Res       Date:  2000-01       Impact factor: 9.043

8.  Quantitative trait loci associated with short-term intake of sucrose, saccharin and quinine solutions in laboratory mice.

Authors:  D A Blizard; B Kotlus; M E Frank
Journal:  Chem Senses       Date:  1999-08       Impact factor: 3.160

9.  High-resolution genetic mapping of the saccharin preference locus (Sac) and the putative sweet taste receptor (T1R1) gene (Gpr70) to mouse distal Chromosome 4.

Authors:  X Li; M Inoue; D R Reed; T Huque; R B Puchalski; M G Tordoff; Y Ninomiya; G K Beauchamp; A A Bachmanov
Journal:  Mamm Genome       Date:  2001-01       Impact factor: 2.957

10.  The sequence of the human genome.

Authors:  J C Venter; M D Adams; E W Myers; P W Li; R J Mural; G G Sutton; H O Smith; M Yandell; C A Evans; R A Holt; J D Gocayne; P Amanatides; R M Ballew; D H Huson; J R Wortman; Q Zhang; C D Kodira; X H Zheng; L Chen; M Skupski; G Subramanian; P D Thomas; J Zhang; G L Gabor Miklos; C Nelson; S Broder; A G Clark; J Nadeau; V A McKusick; N Zinder; A J Levine; R J Roberts; M Simon; C Slayman; M Hunkapiller; R Bolanos; A Delcher; I Dew; D Fasulo; M Flanigan; L Florea; A Halpern; S Hannenhalli; S Kravitz; S Levy; C Mobarry; K Reinert; K Remington; J Abu-Threideh; E Beasley; K Biddick; V Bonazzi; R Brandon; M Cargill; I Chandramouliswaran; R Charlab; K Chaturvedi; Z Deng; V Di Francesco; P Dunn; K Eilbeck; C Evangelista; A E Gabrielian; W Gan; W Ge; F Gong; Z Gu; P Guan; T J Heiman; M E Higgins; R R Ji; Z Ke; K A Ketchum; Z Lai; Y Lei; Z Li; J Li; Y Liang; X Lin; F Lu; G V Merkulov; N Milshina; H M Moore; A K Naik; V A Narayan; B Neelam; D Nusskern; D B Rusch; S Salzberg; W Shao; B Shue; J Sun; Z Wang; A Wang; X Wang; J Wang; M Wei; R Wides; C Xiao; C Yan; A Yao; J Ye; M Zhan; W Zhang; H Zhang; Q Zhao; L Zheng; F Zhong; W Zhong; S Zhu; S Zhao; D Gilbert; S Baumhueter; G Spier; C Carter; A Cravchik; T Woodage; F Ali; H An; A Awe; D Baldwin; H Baden; M Barnstead; I Barrow; K Beeson; D Busam; A Carver; A Center; M L Cheng; L Curry; S Danaher; L Davenport; R Desilets; S Dietz; K Dodson; L Doup; S Ferriera; N Garg; A Gluecksmann; B Hart; J Haynes; C Haynes; C Heiner; S Hladun; D Hostin; J Houck; T Howland; C Ibegwam; J Johnson; F Kalush; L Kline; S Koduru; A Love; F Mann; D May; S McCawley; T McIntosh; I McMullen; M Moy; L Moy; B Murphy; K Nelson; C Pfannkoch; E Pratts; V Puri; H Qureshi; M Reardon; R Rodriguez; Y H Rogers; D Romblad; B Ruhfel; R Scott; C Sitter; M Smallwood; E Stewart; R Strong; E Suh; R Thomas; N N Tint; S Tse; C Vech; G Wang; J Wetter; S Williams; M Williams; S Windsor; E Winn-Deen; K Wolfe; J Zaveri; K Zaveri; J F Abril; R Guigó; M J Campbell; K V Sjolander; B Karlak; A Kejariwal; H Mi; B Lazareva; T Hatton; A Narechania; K Diemer; A Muruganujan; N Guo; S Sato; V Bafna; S Istrail; R Lippert; R Schwartz; B Walenz; S Yooseph; D Allen; A Basu; J Baxendale; L Blick; M Caminha; J Carnes-Stine; P Caulk; Y H Chiang; M Coyne; C Dahlke; A Deslattes Mays; M Dombroski; M Donnelly; D Ely; S Esparham; C Fosler; H Gire; S Glanowski; K Glasser; A Glodek; M Gorokhov; K Graham; B Gropman; M Harris; J Heil; S Henderson; J Hoover; D Jennings; C Jordan; J Jordan; J Kasha; L Kagan; C Kraft; A Levitsky; M Lewis; X Liu; J Lopez; D Ma; W Majoros; J McDaniel; S Murphy; M Newman; T Nguyen; N Nguyen; M Nodell; S Pan; J Peck; M Peterson; W Rowe; R Sanders; J Scott; M Simpson; T Smith; A Sprague; T Stockwell; R Turner; E Venter; M Wang; M Wen; D Wu; M Wu; A Xia; A Zandieh; X Zhu
Journal:  Science       Date:  2001-02-16       Impact factor: 47.728
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  12 in total

Review 1.  Cats lack a sweet taste receptor.

Authors:  Xia Li; Weihua Li; Hong Wang; Douglas L Bayley; Jie Cao; Danielle R Reed; Alexander A Bachmanov; Liquan Huang; Véronique Legrand-Defretin; Gary K Beauchamp; Joseph G Brand
Journal:  J Nutr       Date:  2006-07       Impact factor: 4.798

Review 2.  Taste receptor genes.

Authors:  Alexander A Bachmanov; Gary K Beauchamp
Journal:  Annu Rev Nutr       Date:  2007       Impact factor: 11.848

3.  Allelic variation of the Tas1r3 taste receptor gene selectively affects taste responses to sweeteners: evidence from 129.B6-Tas1r3 congenic mice.

Authors:  Masashi Inoue; John I Glendinning; Maria L Theodorides; Sarah Harkness; Xia Li; Natalia Bosak; Gary K Beauchamp; Alexander A Bachmanov
Journal:  Physiol Genomics       Date:  2007-10-02       Impact factor: 3.107

Review 4.  Genetics of taste receptors.

Authors:  Alexander A Bachmanov; Natalia P Bosak; Cailu Lin; Ichiro Matsumoto; Makoto Ohmoto; Danielle R Reed; Theodore M Nelson
Journal:  Curr Pharm Des       Date:  2014       Impact factor: 3.116

5.  Genetics of sweet taste preferences.

Authors:  Alexander A Bachmanov; Natalia P Bosak; Wely B Floriano; Masashi Inoue; Xia Li; Cailu Lin; Vladimir O Murovets; Danielle R Reed; Vasily A Zolotarev; Gary K Beauchamp
Journal:  Flavour Fragr J       Date:  2011-07       Impact factor: 2.576

6.  Is glycine "sweet" to mice? Mouse strain differences in perception of glycine taste.

Authors:  Satoshi Manita; Alexander A Bachmanov; Xia Li; Gary K Beauchamp; Masashi Inoue
Journal:  Chem Senses       Date:  2006-08-10       Impact factor: 3.160

7.  Allelic variation of the Tas1r3 taste receptor gene selectively affects behavioral and neural taste responses to sweeteners in the F2 hybrids between C57BL/6ByJ and 129P3/J mice.

Authors:  Masashi Inoue; Danielle R Reed; Xia Li; Michael G Tordoff; Gary K Beauchamp; Alexander A Bachmanov
Journal:  J Neurosci       Date:  2004-03-03       Impact factor: 6.167

8.  Polymorphisms in the taste receptor gene (Tas1r3) region are associated with saccharin preference in 30 mouse strains.

Authors:  D R Reed; S Li; X Li; L Huang; M G Tordoff; R Starling-Roney; K Taniguchi; D B West; J D Ohmen; G K Beauchamp; A A Bachmanov
Journal:  J Neurosci       Date:  2004-01-28       Impact factor: 6.167

Review 9.  Genetics of Amino Acid Taste and Appetite.

Authors:  Alexander A Bachmanov; Natalia P Bosak; John I Glendinning; Masashi Inoue; Xia Li; Satoshi Manita; Stuart A McCaughey; Yuko Murata; Danielle R Reed; Michael G Tordoff; Gary K Beauchamp
Journal:  Adv Nutr       Date:  2016-07-15       Impact factor: 8.701

10.  Genetic controls of Tas1r3-independent sucrose consumption in mice.

Authors:  Cailu Lin; Michael G Tordoff; Xia Li; Natalia P Bosak; Masashi Inoue; Yutaka Ishiwatari; Longhui Chen; Gary K Beauchamp; Alexander A Bachmanov; Danielle R Reed
Journal:  Mamm Genome       Date:  2021-03-12       Impact factor: 2.957
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