Muscle Fibers, Slow-Twitch
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Subject Areas on Research
- A 1.3 kb promoter fragment confers spatial and temporal expression of utrophin A mRNA in mouse skeletal muscle fibers.
- A calcineurin-dependent transcriptional pathway controls skeletal muscle fiber type.
- Alterations in slow-twitch muscle phenotype in transgenic mice overexpressing the Ca2+ buffering protein parvalbumin.
- Characterization of pre- and post-treatment pathology after enzyme replacement therapy for Pompe disease.
- G(s)alpha deficiency in skeletal muscle leads to reduced muscle mass, fiber-type switching, and glucose intolerance without insulin resistance or deficiency.
- Identification of a novel malonyl-CoA IC(50) for CPT-I: implications for predicting in vivo fatty acid oxidation rates.
- Increased expression of utrophin in a slow vs. a fast muscle involves posttranscriptional events.
- MEF2 responds to multiple calcium-regulated signals in the control of skeletal muscle fiber type.
- Modulation of utrophin A mRNA stability in fast versus slow muscles via an AU-rich element and calcineurin signaling.
- Muscle oxidative capacity during IL-6-dependent cancer cachexia.
- Nerve activity-dependent modulation of calcineurin signaling in adult fast and slow skeletal muscle fibers.
- Oxygen affinity and amino acid sequence of myoglobins from endothermic and ectothermic fish.
- Regulation of type II adenylyl cyclase mRNA in rabbit skeletal muscle by chronic motor nerve pacing.
- Regulatory elements governing transcription in specialized myofiber subtypes.
- Retrograde influence of muscle fibers on their innervation revealed by a novel marker for slow motoneurons.
- Selective microstimulation of central nervous system neurons.
- Six1 and Six1 cofactor expression is altered during early skeletal muscle overload in mice.
- Stimulation of slow skeletal muscle fiber gene expression by calcineurin in vivo.
- Targeted inhibition of Ca2+ /calmodulin signaling exacerbates the dystrophic phenotype in mdx mouse muscle.