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GLUT-3 expression in human skeletal muscle
Charles A. Stuart
, Gary Wen
,
Bi Hung Peng
,
Vsevolod L. Popov
, S. David Hudnall
,
Gerald A. Campbell
Neurobiology
Pathology
Research output
:
Contribution to journal
›
Article
›
peer-review
22
Scopus citations
Overview
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Keyphrases
Human Skeletal muscle
100%
GLUT3
100%
Fast-twitch muscle
27%
Peripheral Nerve
18%
Axon
18%
Myelin
18%
Schwann Cells
18%
In Situ Hybridization
9%
Electron Microscopy
9%
Mitochondria
9%
Nerve
9%
Normal Human
9%
Muscle Fiber
9%
Electron Microscopic
9%
Reductase
9%
Nerve Cells
9%
Muscle Tissue
9%
Fluorescent Label
9%
Muscle Biopsy
9%
Carboxyl Terminus
9%
Primary Antibody
9%
Tetrazolium
9%
Microscopic Evaluation
9%
All-fiber
9%
Gold Particles
9%
Perineurium
9%
Molecule Probe
9%
Transverse Tubules
9%
GLUT-1 Protein
9%
Mitochondrium
9%
Neuroscience
Skeletal Muscle
100%
Glucose Transporter 3
100%
Peripheral Nerve
18%
Myelin
18%
Schwann Cell
18%
Fasciculation (Movement Disorder)
18%
Messenger RNA
18%
Axon
18%
In Situ Hybridization
9%
Mitochondrion
9%
Staining Technique
9%
Electron Microscopy
9%
Nervous System Cell
9%
C-Terminus
9%
Perineurium
9%
Glucose Transporter 1
9%
Transverse Tubular System
9%
Tetrazolium Reductase
9%
Immunology and Microbiology
Skeletal Muscle
100%
Glucose Transporter
100%
Muscle
25%
Axon
16%
Peripheral Nerve
16%
Myelin
16%
Schwann Cell
16%
Slow Muscle Fiber
16%
Electron Microscopy
8%
Normal Human
8%
Mitochondrion
8%
Homogenate
8%
Carboxy Terminal Sequence
8%
Muscle Twitch
8%
Muscle Tissue
8%
Perineurium
8%
Transverse Tubular System
8%
Nerve Cell
8%
In Situ Hybridization
8%
Biochemistry, Genetics and Molecular Biology
Skeletal Muscle
100%
GLUT3
100%
Axon
18%
Schwann Cell
18%
Slow Muscle Fiber
18%
Messenger RNA
18%
Myelin
18%
Homogenate
9%
Mitochondrion
9%
Normal Human
9%
C-Terminus
9%
Electron Microscopy
9%
Oxidoreductase
9%
Reductase
9%
Muscle Twitch
9%
GLUT1
9%
T-Tubule
9%
In Situ Hybridization
9%