J. G. Martindale scite author profile

Using electrical stimulation to control force generation and limb immobilization to alter the degree of stretch, we have studied the role of mechanical activity in inducing hypertrophy and in determining fast and slow muscle fibre phenotype. Changes in gene expression were detected by analysing the RNA in hybridization studies employing cDNA probes specific for fast and slow myosin heavy chains and other genes. As a result of overload in the stretched position, the fast contracting tibialis anterior muscle in an adult rabbit is induced to synthesize much new protein and to grow by as much as 30% within a period as short as 4 days. This very rapid hypertrophy was found to be associated with an increase of up to 250% in the RNA content of the muscles and an abrupt change in the species of RNA produced. Both stretch alone and electrical stimulation alone caused repression of the fast-type genes and activation of the slow-type genes. it appears that the fast-type IIB genes are the default genes, but that the skeletal slow genes are expressed as a response to overload and stretch. These findings have implications as far as athletic training and rehabilitation are concerned.

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17—an Instrument for the Measurement of the Forces Operating Between Fibres During Drafting

Martindale

1947

Journal of the Textile Institute Transactions

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J. G. Martindale

4—a New Method of Measuring the Irregularity of Yarns With Some Observations on the Origin of Irregularities in Worsted Slivers and Yarns

Stretch and force generation induce rapid hypertrophy and myosin isoform gene switching in adult skeletal muscle

17—an Instrument for the Measurement of the Forces Operating Between Fibres During Drafting

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