Adrenergic receptor β2(ADRB2) exists in cells such as heart, muscle, vessels, bronchus & lipocyte. ADRB2 combines exercise-induced catecholamines to elevate heartbeat, lipolysis, glycogenolysis & bronchodilation. ADRB2 locates in 5q31~32, three single-nucleotide polymorphisms (SNPs) of ADRB2 (Arg16Gly, Gln27Glu & Thr164Ile) are hypothesize to associate with endurance- performance due to ADRB2’s regulation of cardiopulmonary, lipid metabolism & skeletal muscle. Researches about ADRB2 & endurance-exercise are rare & the results are inconsistent. Exercise-induced mechanisms of ADRB2 remain unclear, and more study is necessary. Purpose: To investigate whether ADRB2 SNPs are associated with endurance-exercise performance, & provide frequency data of ADRB2 polymorphism in Taiwan. Methods: We examined 142 elite endurance athletes (road-cycling, rowing, badminton, soccer, tennis, table-tennis & rugby) and 246 healthy people (as controls) from Taiwan general population. ADRB2 genotype was identified by polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) form blood-extracted DNA. Differences were evaluated using SPSS 13.0 χ2-test (α= .05). Results: Thr164Ile has no mutation & Arg16Gly genotype did not differ among athletes and controls. Tennis players’ Gln27Glu genotype distribution differ significantly as compare to controls ( p=.034). Gln27Glu allele number is higher in Tennis players (G allele frequency is 23%) than the controls (p=0.019). Gln27Glu allele number also significantly different by genders (p=0.057).Conclusion: The emphasize of muscle strength & speed in Tennis, leading it to anaerobic demand might cause the significant different between Tennis players and the controls. Gln27Glu allele number is associated with gender, whether it affects muscle strength, endurance & growth is unknown. The interaction of androgen also need further study. The G allele of Gln27Glu might be a candidate gene for athletes’ muscle strength & endurance.