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Publications by Trisha D. Scribbans

Extremely Low-Volume, High-Intensity Interval Training Improves Exercise Capacity and Increases Mitochondrial Protein Content in Human Skeletal Muscle

Open Journal of Molecular and Integrative Physiology

2013

English

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An Acute Bout of High-Intensity Interval Training Increases the Nuclear Abundance of PGC-1 and Activates Mitochondrial Biogenesis in Human Skeletal Muscle

American Journal of Physiology - Regulatory Integrative and Comparative Physiology

Physiology

2011

English

Exercise Training Increases Protein O‐GlcNAcylation in Rat Skeletal Muscle

Physiological Reports

Physiology

2016

English

Resistance Exercise Training Alters Mitochondrial Function in Human Skeletal Muscle

Medicine and Science in Sports and Exercise

English

Multimodal High-Intensity Interval Training Increases Muscle Function and Metabolic Performance in Females

Applied Physiology, Nutrition and Metabolism

English

Testosterone Plus Low-Intensity Physical Training in Late Life Improves Functional Performance, Skeletal Muscle Mitochondrial Biogenesis, and Mitochondrial Quality Control in Male Mice

PLoS ONE

Multidisciplinary

2012

English

Skeletal Muscle Mitochondrial Volume and Myozenin-1 Protein Differences Exist Between High Versus Low Anabolic Responders to Resistance Training

English

Do Changes in Mitochondrial Quality Contribute to Increases in Skeletal Muscle Oxidative Capacity Following Endurance Training?

Journal of Physiology

Physiology

Sports Science

2017

English

The Potential for Mitochondrial Fat Oxidation in Human Skeletal Muscle Influences Whole Body Fat Oxidation During Low-Intensity Exercise

American Journal of Physiology - Endocrinology and Metabolism

English

Constitutively Active Calcineurin in Skeletal Muscle Increases Endurance Performance and Mitochondrial Respiratory Capacity

American Journal of Physiology - Endocrinology and Metabolism

English

Amanote Research

Discover open access scientific publications

Search, annotate, share and cite publications

Publications by Trisha D. Scribbans

Extremely Low-Volume, High-Intensity Interval Training Improves Exercise Capacity and Increases Mitochondrial Protein Content in Human Skeletal Muscle

Related publications

An Acute Bout of High-Intensity Interval Training Increases the Nuclear Abundance of PGC-1 and Activates Mitochondrial Biogenesis in Human Skeletal Muscle

Exercise Training Increases Protein O‐GlcNAcylation in Rat Skeletal Muscle

Resistance Exercise Training Alters Mitochondrial Function in Human Skeletal Muscle

Multimodal High-Intensity Interval Training Increases Muscle Function and Metabolic Performance in Females

Testosterone Plus Low-Intensity Physical Training in Late Life Improves Functional Performance, Skeletal Muscle Mitochondrial Biogenesis, and Mitochondrial Quality Control in Male Mice

Skeletal Muscle Mitochondrial Volume and Myozenin-1 Protein Differences Exist Between High Versus Low Anabolic Responders to Resistance Training

Do Changes in Mitochondrial Quality Contribute to Increases in Skeletal Muscle Oxidative Capacity Following Endurance Training?

The Potential for Mitochondrial Fat Oxidation in Human Skeletal Muscle Influences Whole Body Fat Oxidation During Low-Intensity Exercise

Constitutively Active Calcineurin in Skeletal Muscle Increases Endurance Performance and Mitochondrial Respiratory Capacity