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Results: 1 to 20 of 77

Similar articles for PubMed (Select 21151504)

1.

A quantitative trait locus on chromosome 5p influences d-dimer levels in the san antonio family heart study.

Diego VP, Almasy L, Rainwater DL, Mahaney MC, Comuzzie AG, Cole SA, Tracy RP, Stern MP, Maccluer JW, Blangero J.

Int J Vasc Med. 2010;2010:490241. doi: 10.1155/2010/490241. Epub 2010 Jun 27.

2.

Quantitative trait loci on chromosomes 2p, 4p, and 13q influence bone mineral density of the forearm and hip in Mexican Americans.

Kammerer CM, Schneider JL, Cole SA, Hixson JE, Samollow PB, O'Connell JR, Perez R, Dyer TD, Almasy L, Blangero J, Bauer RL, Mitchell BD.

J Bone Miner Res. 2003 Dec;18(12):2245-52.

PMID:
14672361
3.

A chromosome 11q quantitative-trait locus influences change of blood-pressure measurements over time in Mexican Americans of the San Antonio Family Heart Study.

Rutherford S, Cai G, Lopez-Alvarenga JC, Kent JW, Voruganti VS, Proffitt JM, Curran JE, Johnson MP, Dyer TD, Jowett JB, Bastarrachea RA, Atwood LD, Goring HH, Maccluer JW, Moses EK, Blangero J, Comuzzie AG, Cole SA.

Am J Hum Genet. 2007 Oct;81(4):744-55. Epub 2007 Aug 20.

4.

A quantitative trait locus on chromosome 16q influences variation in plasma HDL-C levels in Mexican Americans.

Mahaney MC, Almasy L, Rainwater DL, VandeBerg JL, Cole SA, Hixson JE, Blangero J, MacCluer JW.

Arterioscler Thromb Vasc Biol. 2003 Feb 1;23(2):339-45.

5.

Two quantitative trait loci affect ACE activities in Mexican-Americans.

Kammerer CM, Gouin N, Samollow PB, VandeBerg JF, Hixson JE, Cole SA, MacCluer JW, Atwood LD.

Hypertension. 2004 Feb;43(2):466-70. Epub 2004 Jan 5.

6.

Quantitative trait locus on chromosome 12q14.1 influences variation in plasma plasminogen levels in the San Antonio Family Heart Study.

Santamaría A, Diego VP, Almasy L, Rainwater DL, Mahaney MC, Comuzzie AG, Cole SA, Dyer TD, Tracy RP, Stern MP, Maccluer JW, Blangero J.

Hum Biol. 2007 Oct;79(5):515-23.

PMID:
18478967
7.

Genome-wide linkage analysis of lipids in nondiabetic Chinese and Japanese from the SAPPHIRe family study.

Hsiao CF, Chiu YF, Chiang FT, Ho LT, Lee WJ, Hung YJ, Chen YD, Donlon TA, Jorgenson E, Curb D, Risch N, Hsiung CA; SAPPHIRe Study Group.

Am J Hypertens. 2006 Dec;19(12):1270-7.

PMID:
17161774
8.

Evidence for a gene influencing heart rate on chromosome 5p13-14 in a meta-analysis of genome-wide scans from the NHLBI Family Blood Pressure Program.

Laramie JM, Wilk JB, Hunt SC, Ellison RC, Chakravarti A, Boerwinkle E, Myers RH.

BMC Med Genet. 2006 Mar 1;7:17.

9.

Quantitative trait loci for BMD identified by autosome-wide linkage scan to chromosomes 7q and 21q in men from the Amish Family Osteoporosis Study.

Streeten EA, McBride DJ, Pollin TI, Ryan K, Shapiro J, Ott S, Mitchell BD, Shuldiner AR, O'Connell JR.

J Bone Miner Res. 2006 Sep;21(9):1433-42.

PMID:
16939402
10.

A German genome-wide linkage scan for type 2 diabetes supports the existence of a metabolic syndrome locus on chromosome 1p36.13 and a type 2 diabetes locus on chromosome 16p12.2.

Hoffmann K, Mattheisen M, Dahm S, Nürnberg P, Roe C, Johnson J, Cox NJ, Wichmann HE, Wienker TF, Schulze J, Schwarz PE, Lindner TH.

Diabetologia. 2007 Jul;50(7):1418-22. Epub 2007 Apr 27.

PMID:
17464498
11.

Sex-specific QTL effects on variation in paraoxonase 1 (PON1) activity in Mexican Americans.

Winnier DA, Rainwater DL, Cole SA, Williams JT, Dyer TD, Blangero J, MacCluer JW, Mahaney MC.

Genet Epidemiol. 2007 Jan;31(1):66-74.

PMID:
17136774
12.

Genome-wide scans reveal quantitative trait Loci on 8p and 13q related to insulin action and glucose metabolism: the San Antonio Family Heart Study.

Cai G, Cole SA, Freeland-Graves JH, MacCluer JW, Blangero J, Comuzzie AG.

Diabetes. 2004 May;53(5):1369-74.

13.

A quantitative trait locus on chromosome 22 for serum leptin levels adjusted for serum testosterone.

Martin LJ, Mahaney MC, Almasy L, Hixson JE, Cole SA, MacCluer JW, Jaquish CE, Blangero J, Comuzzie AG.

Obes Res. 2002 Jul;10(7):602-7.

PMID:
12105281
14.

QTLs of factors of the metabolic syndrome and echocardiographic phenotypes: the hypertension genetic epidemiology network study.

Kraja AT, Huang P, Tang W, Hunt SC, North KE, Lewis CE, Devereux RB, de Simone G, Arnett DK, Rice T, Rao DC.

BMC Med Genet. 2008 Nov 27;9:103. doi: 10.1186/1471-2350-9-103.

15.
16.

Primary genome scan to identify putative quantitative trait loci for feedlot growth rate, feed intake, and feed efficiency of beef cattle.

Nkrumah JD, Sherman EL, Li C, Marques E, Crews DH Jr, Bartusiak R, Murdoch B, Wang Z, Basarab JA, Moore SS.

J Anim Sci. 2007 Dec;85(12):3170-81. Epub 2007 Aug 20.

17.

The genetics of obesity in Mexican Americans: the evidence from genome scanning efforts in the San Antonio family heart study.

Comuzzie AG, Mitchell BD, Cole S, Martin LJ, Hsueh WC, Rainwater DL, Almasy L, Stern MP, Hixson J, MacCluer JW, Blangero J.

Hum Biol. 2003 Oct;75(5):635-46.

PMID:
14763601
18.

A quantitative trait locus influencing BMI maps to the region of the beta-3 adrenergic receptor.

Mitchell BD, Cole SA, Comuzzie AG, Almasy L, Blangero J, MacCluer JW, Hixson JE.

Diabetes. 1999 Sep;48(9):1863-7.

PMID:
10480620
19.

QT interval is a heritable quantitative trait with evidence of linkage to chromosome 3 in a genome-wide linkage analysis: The Framingham Heart Study.

Newton-Cheh C, Larson MG, Corey DC, Benjamin EJ, Herbert AG, Levy D, D'Agostino RB, O'Donnell CJ.

Heart Rhythm. 2005 Mar;2(3):277-84.

PMID:
15851319
20.

Genomic searches for genes that influence atherosclerosis and its risk factors.

Hixson JE, Blangero J.

Ann N Y Acad Sci. 2000 May;902:1-7.

PMID:
10865820
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