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the processes of muscle degenerationregeneration or to the protection against myonecrosis. Regarding their biological processes classifications, most of them were related to carbohydrate, lipid or protein metabolism. Some were related to the immune system processes: in the dystrophic DIA, 3 proteins were decreased and 5 proteins were increased. To select proteins that could be directly involved in dystrophic muscle degeneration we made a further double comparison and found 19 proteins in common. Among these proteins, the majority were increased in the mdx DIA. Fewer were increased in control DIA and in the mdx EOM. Two myosins were increased or decreased depending on the comparison: myosin light chain 3 was 30% decreased in mdx DIA vs. control DIA and 124% increased in mdx DIA vs. mdx EOM and myosin light chain 6B was 76% increased in mdx DIA vs. control DIA and 37% decreased in mdx DIA vs. mdx EOM. Western blot analysis Western blot was performed in order to independently validate the identification and quantification of some proteins in DIA and EOM muscles of control and mdx mice. Western blot analysis indicated that galectin-1 levels were significantly higher in mdx DIA compared to control DIA and to mdx EOM. This is in agreement with the proteomic analysis showing a significant increase of galectin-1 in mdx DIA compared with control DIA and with mdx EOM. Annexin A5 also presented similar changes as those detected with MudPIT-TMT for most of the comparisons, mainly the increased levels of this protein in mdx DIA vs. control DIA and no differences in mdx EOM vs. control EOM. While Western blot analysis showed lower levels of annexin A5 in control DIA in relation to control EOM, proteomics showed comparable levels of annexin A5 between these muscles. The proteins related to calcium homeostasis, calmodulin I and calsequestrin-1, also displayed similar expression changes using both Western blot and proteomics analyses. Calmodulin levels mdx DIA6ct DIA Sarcoplasm Cytoskeleton Extracellular Matrix Mitochondrion Nucleus Sarcolemma Sarcoplasmic reticulum Peroxisome doi:10.1371/journal.pone.0065831.t003 20.9% 30.2% 7.0% 18.6% 14.0% 2.3% 4.7% 2.3% ct DIA6ct EO 19.4% 21.0% 3.2% 29.0% 9.7% 8.1% 6.5% 3.2% mdx DIA6mdx EO 30.0% 14.3% 10.0% 17.1% 4.3% 15.7% 8.6% 0.0% 5 Proteomics of 13679187 target=_blank”>17594192 Affected vs. Spared mdx Muscles Accession P08121 P13541 O08638 Q8CI43 Q01149 Q7TQ48 Q9CR62 Q5SX39 Q8R429 718630-59-2 chemical information Q6PIE5 P05202 P10922 P10107 Q8CGP6 P21107 O09165 Q00896 Q6PB66 Q60714 O88346 P97447 Q8BMS1 P50544 P51174 Q07417 Q99JY0 P10649 P58771 Q9CQ62 Q99LX0 P15626 Q60932 Q9DB60 Q91WC3 P07310 Q924X2 Q99LC5 Q9DCW4 P35550 Q921G7 P41216 P50247 Q8BW75 Q8CI51 Q91Z83 P19157 P16125 Q5SX40 Description Collagen alpha-1 chain Myosin-3 Myosin-11 Myosin light chain 6B Collagen alpha-2 chain Sarcalumenin Mitochondrial 2-oxoglutarate/malate carrier protein Myosin-4 Sarcoplasmic/endoplasmic reticulum calcium ATPase 1 Sodium/potassium-transporting ATPase subunit alpha-2 Aspartate aminotransferase, mitochondrial Histone H1.0 Annexin A1 Histone H2A type 1-H Tropomyosin alpha-3 chain Calsequestrin-1 Alpha-1-antitrypsin 13 Leucine-rich PPR motif-containing protein, mitochondrial Long-chain fatty acid transport protein 1 Troponin T, slow skeletal muscle Four and a half LIM domains protein 1 Trifunctional enzyme subunit alpha, mitochondrial Very long-chain specific acyl-CoA dehydrogenase, mitochondrial Long-chain specific acyl-CoA dehydrogenase, mitochondrial Short-chain specific acyl-CoA dehydroge

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Author: calcimimeticagent