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Functional Genomics Laboratory, Medical College of Ohio, Toledo, Ohio 43614-5804
Adaptational response to aerobic
exercise was artificially selected for across one generation in a
founder population of 20 female and 20 male genetically heterogeneous
rats (N:NIH). Selection for low and high response was based on the
change in treadmill running capacity, assessed by meters (m) run to
exhaustion before and after 24 days of modest treadmill running. The
training response of the founder population averaged +222 m, with wide
variation from a negative gain (
) of 110 m to a positive gain (+)
of +430 m. Six pairs of the lowest (+13 m) and highest (+327 m)
responders were mated. Mean response to training of the low-line (+242
m) offspring did not differ from the founder. The high-selected line gained 383 m from training, +161 m above the founder population. Narrow sense heritability estimated from regression of offspring on
midparent values for response to training was 0.43 (P < 0.007). One generation of selection resulted in a 58% divide
between the low and high lines. Selectively bred models of both
intrinsic (untrained) and adaptation response can be useful in
resolving the genetic basis of variation in aerobic capacity.
treadmill; training; artificial selection; breeding; N:NIH rats
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