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Items: 1 to 20 of 478

1.

Dissociation of AMP-activated protein kinase activation and glucose transport in contracting slow-twitch muscle.

Derave W, Ai H, Ihlemann J, Witters LA, Kristiansen S, Richter EA, Ploug T.

Diabetes. 2000 Aug;49(8):1281-7.

PMID:
10923626
2.

Contraction-stimulated muscle glucose transport and GLUT-4 surface content are dependent on glycogen content.

Derave W, Lund S, Holman GD, Wojtaszewski J, Pedersen O, Richter EA.

Am J Physiol. 1999 Dec;277(6 Pt 1):E1103-10.

3.

Contraction- and hypoxia-stimulated glucose transport is mediated by a Ca2+-dependent mechanism in slow-twitch rat soleus muscle.

Wright DC, Geiger PC, Holloszy JO, Han DH.

Am J Physiol Endocrinol Metab. 2005 Jun;288(6):E1062-6. Epub 2005 Jan 18.

4.
5.

Muscle glycogen content affects insulin-stimulated glucose transport and protein kinase B activity.

Derave W, Hansen BF, Lund S, Kristiansen S, Richter EA.

Am J Physiol Endocrinol Metab. 2000 Nov;279(5):E947-55.

6.

Effect of stimulation frequency on contraction-induced glucose transport in rat skeletal muscle.

Ihlemann J, Ploug T, Hellsten Y, Galbo H.

Am J Physiol Endocrinol Metab. 2000 Oct;279(4):E862-7.

7.

Metabolic stress and altered glucose transport: activation of AMP-activated protein kinase as a unifying coupling mechanism.

Hayashi T, Hirshman MF, Fujii N, Habinowski SA, Witters LA, Goodyear LJ.

Diabetes. 2000 Apr;49(4):527-31.

PMID:
10871188
8.

Activation of glucose transport and AMP-activated protein kinase during muscle contraction in adenylate kinase-1 knockout mice.

Zhang SJ, Sandström ME, Aydin J, Westerblad H, Wieringa B, Katz A.

Acta Physiol (Oxf). 2008 Mar;192(3):413-20. Epub 2007 Oct 31.

PMID:
17973952
9.

Ca2+ and AMPK both mediate stimulation of glucose transport by muscle contractions.

Wright DC, Hucker KA, Holloszy JO, Han DH.

Diabetes. 2004 Feb;53(2):330-5.

10.

Contraction-induced changes in acetyl-CoA carboxylase and 5'-AMP-activated kinase in skeletal muscle.

Vavvas D, Apazidis A, Saha AK, Gamble J, Patel A, Kemp BE, Witters LA, Ruderman NB.

J Biol Chem. 1997 May 16;272(20):13255-61.

11.

Low-intensity contraction activates the alpha1-isoform of 5'-AMP-activated protein kinase in rat skeletal muscle.

Toyoda T, Tanaka S, Ebihara K, Masuzaki H, Hosoda K, Sato K, Fushiki T, Nakao K, Hayashi T.

Am J Physiol Endocrinol Metab. 2006 Mar;290(3):E583-90. Epub 2005 Oct 25.

13.

Glucose autoregulates its uptake in skeletal muscle: involvement of AMP-activated protein kinase.

Itani SI, Saha AK, Kurowski TG, Coffin HR, Tornheim K, Ruderman NB.

Diabetes. 2003 Jul;52(7):1635-40.

14.

Caffeine acutely activates 5'adenosine monophosphate-activated protein kinase and increases insulin-independent glucose transport in rat skeletal muscles.

Egawa T, Hamada T, Kameda N, Karaike K, Ma X, Masuda S, Iwanaka N, Hayashi T.

Metabolism. 2009 Nov;58(11):1609-17. doi: 10.1016/j.metabol.2009.05.013. Epub 2009 Jul 15.

PMID:
19608206
15.

Mechanisms underlying impaired GLUT-4 translocation in glycogen-supercompensated muscles of exercised rats.

Kawanaka K, Nolte LA, Han DH, Hansen PA, Holloszy JO.

Am J Physiol Endocrinol Metab. 2000 Dec;279(6):E1311-8.

16.

The alpha2-5'AMP-activated protein kinase is a site 2 glycogen synthase kinase in skeletal muscle and is responsive to glucose loading.

Jørgensen SB, Nielsen JN, Birk JB, Olsen GS, Viollet B, Andreelli F, Schjerling P, Vaulont S, Hardie DG, Hansen BF, Richter EA, Wojtaszewski JF.

Diabetes. 2004 Dec;53(12):3074-81.

17.

Glycogen content and contraction regulate glycogen synthase phosphorylation and affinity for UDP-glucose in rat skeletal muscles.

Lai YC, Stuenaes JT, Kuo CH, Jensen J.

Am J Physiol Endocrinol Metab. 2007 Dec;293(6):E1622-9. Epub 2007 Sep 18.

18.

AMPK activation is not critical in the regulation of muscle FA uptake and oxidation during low-intensity muscle contraction.

Raney MA, Yee AJ, Todd MK, Turcotte LP.

Am J Physiol Endocrinol Metab. 2005 Mar;288(3):E592-8. Epub 2004 Nov 16.

19.

A myosin II ATPase inhibitor reduces force production, glucose transport, and phosphorylation of AMPK and TBC1D1 in electrically stimulated rat skeletal muscle.

Blair DR, Funai K, Schweitzer GG, Cartee GD.

Am J Physiol Endocrinol Metab. 2009 May;296(5):E993-E1002. doi: 10.1152/ajpendo.91003.2008. Epub 2009 Feb 3.

20.

Effect of acute high-intensity intermittent swimming on post-exercise insulin responsiveness in epitrochlearis muscle of fed rats.

Koshinaka K, Kawasaki E, Hokari F, Kawanaka K.

Metabolism. 2009 Feb;58(2):246-53. doi: 10.1016/j.metabol.2008.09.021.

PMID:
19154959
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