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International Journal Of Bilogical Sciences

.: Home > International Journal Of Bilogical Sciences > 2015 > Volume 11 Number 12 > Xuan Liu1, Yang Du1, Nares Trakooljul1, Bodo Brand1, Eduard Muráni1, Carsten Krischek2, Michael Wicke3, Manfred Schwerin1, Klaus Wimmers1, Siriluck Ponsuksili1 

Muscle Transcriptional Profile Based on Muscle Fiber, Mitochondrial Respiratory Activity, and Metabolic Enzymes

Xuan Liu1, Yang Du1, Nares Trakooljul1, Bodo Brand1, Eduard Muráni1, Carsten Krischek2, Michael Wicke3, Manfred Schwerin1, Klaus Wimmers1, Siriluck Ponsuksili1 
1. Leibniz Institute for Farm Animal Biology (FBN), Institute for Genome Biology, Wilhelm-Stahl-Allee 2, D-18196 Dummerstorf, Germany 2. 2 Institute of Food Quality and Food Safety, University of Veterinary Medicine Hannover, D-30173 Hannover, Germany. 3. 3 Department of Animal Science, Quality of Food of Animal Origin, Georg-August-University Goettingen, D-37075 Goettingen, Germany.  Corresponding author: Siriluck Ponsuksili, Leibniz Institute for Farm Animal Biology Wilhelm-Stahl-Allee 2, 18196 Dummerstorf, Germany. Phone: +49 38208 68700; Fax: +49 38208 68702; Email: s.wimmers@fbn-dummertorf.de
Abstract :

Skeletal muscle is a highly metabolically active tissue that both stores and consumes energy. Important biological pathways that affect energy metabolism and metabolic fiber type in muscle cells may be identified through transcriptomic profiling of the muscle, especially ante mortem. Here, gene expression was investigated in malignant hyperthermia syndrome (MHS)-negative Duroc and Pietrian (PiNN) pigs significantly differing for the muscle fiber types slow-twitch-oxidative fiber (STO) and fast-twitch-oxidative fiber (FTO) as well as mitochondrial activity (succinate-dependent state 3 respiration rate). Longissimus muscle samples were obtained 24 h before slaughter and profiled using cDNA microarrays. Differential gene expression between Duroc and PiNN muscle samples were associated with protein ubiquitination, stem cell pluripotency, amyloid processing, and 3-phosphoinositide biosynthesis and degradation pathways. In addition, weighted gene co-expression network analysis within both breeds identified several co-expression modules that were associated with the proportion of different fiber types, mitochondrial respiratory activity, and ATP metabolism. In particular, Duroc results revealed strong correlations between mitochondrion-associated co-expression modules and STO (r = 0.78), fast-twitch glycolytic fiber (r = -0.98), complex I (r=0.72) and COX activity (r = 0.86). Other pathways in the protein-kinase-activity enriched module were positively correlated with STO (r=0.93), while negatively correlated with FTO (r = -0.72). In contrast to PiNN, co-expression modules enriched in macromolecule catabolic process, actin cytoskeleton, and transcription activator activity were associated with fiber types, mitochondrial respiratory activity, and metabolic enzyme activities. Our results highlight the importance of mitochondria for the oxidative capacity of porcine muscle and for breed-dependent molecular pathways in muscle cell fibers.

Keywords :
microarray; muscle; muscle fiber; mitochondrial Respiratory Activity

Date Deposited : 08 Mar 2016 13:22

Last Modified : 08 Mar 2016 13:22

Official URL: http://www.ijbs.com/v11i12

Volume 11, Number 12, - 2015 , ISSN 1449-2288

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