FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2095233119> ?p ?o ?g. }

• W2095233119 endingPage "53" @default.
• W2095233119 startingPage "43" @default.
• W2095233119 abstract "Exercise has acute and chronic effects on fat burning. Concerning the acute effect, observed during and after a single exercise session, the enzymes responsible for burning fat increase. Carnitine palmitoyltransferase 1 (CPT1), which regulates the β-oxidation of fatty acids in mitochondria, is believed to play an important role in the acute effect. The activation of AMP-activated protein kinase (AMPK), which detects the energy state of muscles, may contribute to the exercise-induced activation of CPT1. In the chronic effect observed with ongoing exercise training, physiological changes in muscle function are seen. In particular, an increase in the number of mitochondria and enhancement of fatty acid metabolism are observed after endurance training. Peroxisome proliferator-activated receptor γ coactivator 1α (PGC-1α) plays an important role in adaptive thermogenesis and mitochondrial biogenesis. Exercise enhances the expression of PGC-1α, and the increase in PGC-1α mediates the physiological changes observed in skeletal muscle after endurance training. Recently, several isoforms of PGC-1α were identified. Different signaling pathways regulate the expression of each isoform. In this review, we discuss the regulation of lipid metabolism during physical activity. We also describe the PGC-1α isoforms and the signaling pathways that regulate their expression in relation to the effects of exercise training on skeletal muscle. Finally, we introduce two studies that may explain the systemic effect of endurance training." @default.
• W2095233119 created "2016-06-24" @default.
• W2095233119 creator A5009053198 @default.
• W2095233119 creator A5054076544 @default.
• W2095233119 creator A5061724024 @default.
• W2095233119 creator A5080220170 @default.
• W2095233119 date "2014-01-01" @default.
• W2095233119 modified "2023-10-02" @default.
• W2095233119 title "Mechanisms of exercise- and training-induced fatty acid oxidation in skeletal muscle" @default.
• W2095233119 cites W1563360765 @default.
• W2095233119 cites W1565979608 @default.
• W2095233119 cites W1615913434 @default.
• W2095233119 cites W1622535892 @default.
• W2095233119 cites W1678070292 @default.
• W2095233119 cites W1790780945 @default.
• W2095233119 cites W1820085648 @default.
• W2095233119 cites W1855569616 @default.
• W2095233119 cites W1964876127 @default.
• W2095233119 cites W1971995012 @default.
• W2095233119 cites W1978552062 @default.
• W2095233119 cites W1980100048 @default.
• W2095233119 cites W1980243755 @default.
• W2095233119 cites W1981574178 @default.
• W2095233119 cites W1984971325 @default.
• W2095233119 cites W1995381409 @default.
• W2095233119 cites W2001457226 @default.
• W2095233119 cites W2001986437 @default.
• W2095233119 cites W2004523281 @default.
• W2095233119 cites W2004565673 @default.
• W2095233119 cites W2004655740 @default.
• W2095233119 cites W2006705342 @default.
• W2095233119 cites W2007486805 @default.
• W2095233119 cites W2008500674 @default.
• W2095233119 cites W2008632158 @default.
• W2095233119 cites W2019677361 @default.
• W2095233119 cites W2020972070 @default.
• W2095233119 cites W2022337217 @default.
• W2095233119 cites W2026644276 @default.
• W2095233119 cites W2035703541 @default.
• W2095233119 cites W2042698420 @default.
• W2095233119 cites W2048771411 @default.
• W2095233119 cites W2050689899 @default.
• W2095233119 cites W2051434448 @default.
• W2095233119 cites W2062045473 @default.
• W2095233119 cites W2062214269 @default.
• W2095233119 cites W2063936188 @default.
• W2095233119 cites W2079833285 @default.
• W2095233119 cites W2085397620 @default.
• W2095233119 cites W2085578725 @default.
• W2095233119 cites W2090068043 @default.
• W2095233119 cites W2107520997 @default.
• W2095233119 cites W2108577381 @default.
• W2095233119 cites W2112346323 @default.
• W2095233119 cites W2114981792 @default.
• W2095233119 cites W2115379691 @default.
• W2095233119 cites W2117479369 @default.
• W2095233119 cites W2128680559 @default.
• W2095233119 cites W2130246533 @default.
• W2095233119 cites W2131751742 @default.
• W2095233119 cites W2134276304 @default.
• W2095233119 cites W2134373383 @default.
• W2095233119 cites W2135191741 @default.
• W2095233119 cites W2135342641 @default.
• W2095233119 cites W2135566523 @default.
• W2095233119 cites W2135704900 @default.
• W2095233119 cites W2140452303 @default.
• W2095233119 cites W2140558936 @default.
• W2095233119 cites W2140633499 @default.
• W2095233119 cites W2142716760 @default.
• W2095233119 cites W2143035710 @default.
• W2095233119 cites W2143900574 @default.
• W2095233119 cites W2144693601 @default.
• W2095233119 cites W2144794300 @default.
• W2095233119 cites W2147515151 @default.
• W2095233119 cites W2147553969 @default.
• W2095233119 cites W2148077640 @default.
• W2095233119 cites W2152801298 @default.
• W2095233119 cites W2159553300 @default.
• W2095233119 cites W2162489657 @default.
• W2095233119 cites W2169469988 @default.
• W2095233119 cites W2170025977 @default.
• W2095233119 cites W2339156076 @default.
• W2095233119 doi "https://doi.org/10.7600/jpfsm.3.43" @default.
• W2095233119 hasPublicationYear "2014" @default.
• W2095233119 type Work @default.
• W2095233119 sameAs 2095233119 @default.
• W2095233119 citedByCount "5" @default.
• W2095233119 countsByYear W20952331192019 @default.
• W2095233119 countsByYear W20952331192020 @default.
• W2095233119 countsByYear W20952331192021 @default.
• W2095233119 countsByYear W20952331192023 @default.
• W2095233119 crossrefType "journal-article" @default.
• W2095233119 hasAuthorship W2095233119A5009053198 @default.
• W2095233119 hasAuthorship W2095233119A5054076544 @default.
• W2095233119 hasAuthorship W2095233119A5061724024 @default.
• W2095233119 hasAuthorship W2095233119A5080220170 @default.
• W2095233119 hasBestOaLocation W20952331191 @default.
• W2095233119 hasConcept C104317684 @default.

• next