Differential global gene expression in red and white skeletal muscle

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Differential global gene expression in red and white skeletal muscle

W. G. Campbell¹^,², S. E. Gordon¹^,², C. J. Carlson¹^,², J. S. Pattison², M. T. Hamilton¹^,², and F. W. Booth¹^,²

¹ Department of Integrative Biology, University of Texas Medical School, Houston, Texas 77030; and ² Departments of Veterinary Biomedical Sciences and Physiology and Dalton Cardiovascular Center, College of Veterinary Medicine, University of Missouri, Columbia, Missouri 65211

The differences in gene expression among the fiber types of skeletal muscle have long fascinated scientists, but for the mostpart, previous experiments have only reported differences of oneor two genes at a time. The evolving technology of global mRNAexpression analysis was employed to determine the potential differentialexpression of ~3,000 mRNAs between the white quad (white muscle)and the red soleus muscle (mixed red muscle) of female ICR mice(30-35 g). Microarray analysis identified 49 mRNA sequences thatwere differentially expressed between white and mixed red skeletalmuscle, including newly identified differential expressions betweenmuscle types. For example, the current findings increase the numberof known, differentially expressed mRNAs for transcription factors/coregulatorsby nine and signaling proteins by three. The expanding knowledgeof the diversity of mRNA expression between white and mixed redmuscle suggests that there could be quite a complex regulationof phenotype between muscles of different fibertypes.

messenger ribonucleic acid; differential expression

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				K. Sudre, C. Leroux, G. Pietu, I. Cassar-Malek, E. Petit, A. Listrat, C. Auffray, B. Picard, P. Martin, and J.-F. Hocquette Transcriptome Analysis of Two Bovine Muscles during Ontogenesis J. Biochem., June 1, 2003; 133(6): 745 - 756. [Abstract] [Full Text] [PDF]

				L. Bey, N. Akunuri, P. Zhao, E. P. Hoffman, D. G. Hamilton, and M. T. Hamilton Patterns of global gene expression in rat skeletal muscle during unloading and low-intensity ambulatory activity Physiol Genomics, April 16, 2003; 13(2): 157 - 167. [Abstract] [Full Text] [PDF]

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