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Epistasis between loci on chromosomes 2 and 6 influences human height
Liu, Y. Z.; Guo, Y. F.; Xiao, P.; Xiong, D. H.; Zhao, L. J.; Shen, H.; Liu, Y. J.; Dvornyk, V.; Long, J. R.; Deng, H. Y.; Li, J. L.; Deng, H. W. Epistasis between loci on chromosomes 2 and 6 influences human height. Journal of Clinical Endocrinology and Metabolism. 2006, OCT. 91(10):3821-3825.
A genomewide linkage scan for quantitative-trait loci for obesity phenotypes
Deng, HW; Deng, HY; Liu, YJ; Liu, YZ; Xu, FH; Shen, H.; Conway, T.; Li, JL; Huang, QY; Davies, KM; Recker, RR. A genomewide linkage scan for quantitative-trait loci for obesity phenotypes. American Journal of Human Genetics. 2002, MAY. 70(5):1138-1151.
Several genomic regions potentially containing QTLs for bone size variation were identified in a whole-genome linkage scan
Deng, HW; Shen, H.; Xu, FH; Deng, HY; Conway, T.; Liu, YJ; Liu, YZ; Li, JL; Huang, QY; Davies, KM; Recker, RR. Several genomic regions potentially containing QTLs for bone size variation were identified in a whole-genome linkage scan. American Journal of Medical Genetics Part a. 2003, JUN 1. 119A(2):121-131.
A whole-genome linkage scan suggests several genomic regions potentially containing quantitative trait loci for osteoporosis
Deng, HW; Xu, FH; Huang, QY; Shen, H.; Deng, HY; Conway, T.; Liu, YJ; Liu, YZ; Li, JL; Zhang, HT; Davies, KM; Recker, RR. A whole-genome linkage scan suggests several genomic regions potentially containing quantitative trait loci for osteoporosis. Journal of Clinical Endocrinology & Metabolism. 2002, NOV. 87(11):5151-5159.
A whole-genome linkage scan suggests several genomic regions potentially containing QTLs underlying the variation of stature
Deng, HW; Xu, FH; Liu, YZ; Shen, H.; Deng, HY; Huang, QY; Liu, YJ; Conway, T.; Li, JL; Davies, KM; Recker, RR. A whole-genome linkage scan suggests several genomic regions potentially containing QTLs underlying the variation of stature. American Journal of Medical Genetics. 2002, NOV 15. 113(1):29-39.
Genetic linkage of human height is confirmed to 9q22 and Xq24
Liu, Y. Z.; Xiao, P.; Guo, Y. F.; Xiong, D. H.; Zhao, L. J.; Shen, H.; Liu, Y. J.; Dvornyk, V.; Long, J. R.; Deng, H. Y.; Li, J. L.; Recker, R. R.; Deng, H. W. Genetic linkage of human height is confirmed to 9q22 and Xq24. Human genetics. 2006, APR. 119(3):295-304.
A follow-up linkage study for quantitative trait loci contributing to obesity-related phenotypes
Liu, YJ; Xu, FH; Shen, H.; Liu, YZ; Deng, HY; Zhao, LJ; Huang, QY; Dvornyk, V.; Conway, T.; Davies, KM; Li, JL; Recker, RR; Deng, HW. A follow-up linkage study for quantitative trait loci contributing to obesity-related phenotypes. Journal of Clinical Endocrinology & Metabolism. 2004, FEB 1. 89(2):875-882.
A second-stage genome scan for QTLs influencing BMD variation
Huang, QY; Xu, FH; Shen, H.; Zhao, LJ; Deng, HY; Liu, YJ; Dvomyk, V.; Conway, T.; Davies, KM; Li, JL; Liu, YZ; Recker, RR; Deng, HW. A second-stage genome scan for QTLs influencing BMD variation. Calcified tissue international. 2004, AUG. 75(2):138-143.
Mutation patterns at dinucleotide microsatellite loci in humans
Huang, QY; Xu, FH; Shen, H.; Deng, HY; Liu, YJ; Liu, YZ; Li, JL; Recker, RR; Deng, HW. Mutation patterns at dinucleotide microsatellite loci in humans. American Journal of Human Genetics. 2002, MAR. 70(3):625-634.