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    Results: 1 to 20 of 136

    1.

    Changes in exercise-induced gene expression in 5'-AMP-activated protein kinase gamma3-null and gamma3 R225Q transgenic mice.

    Barnes BR, Long YC, Steiler TL, Leng Y, Galuska D, Wojtaszewski JF, Andersson L, Zierath JR.

    Diabetes. 2005 Dec;54(12):3484-9.PMID: 16306365 [PubMed - indexed for MEDLINE]Related articlesFree article

    2.

    Role of AMP-activated protein kinase in the coordinated expression of genes controlling glucose and lipid metabolism in mouse white skeletal muscle.

    Long YC, Barnes BR, Mahlapuu M, Steiler TL, Martinsson S, Leng Y, Wallberg-Henriksson H, Andersson L, Zierath JR.

    Diabetologia. 2005 Nov;48(11):2354-64. Epub 2005 Oct 20.PMID: 16237515 [PubMed - indexed for MEDLINE]Related articles

    3.

    The 5'-AMP-activated protein kinase gamma3 isoform has a key role in carbohydrate and lipid metabolism in glycolytic skeletal muscle.

    Barnes BR, Marklund S, Steiler TL, Walter M, Hjälm G, Amarger V, Mahlapuu M, Leng Y, Johansson C, Galuska D, Lindgren K, Abrink M, Stapleton D, Zierath JR, Andersson L.

    J Biol Chem. 2004 Sep 10;279(37):38441-7. Epub 2004 Jul 6.PMID: 15247217 [PubMed - indexed for MEDLINE]Related articlesFree article

    4.

    Opposite transcriptional regulation in skeletal muscle of AMP-activated protein kinase gamma3 R225Q transgenic versus knock-out mice.

    Nilsson EC, Long YC, Martinsson S, Glund S, Garcia-Roves P, Svensson LT, Andersson L, Zierath JR, Mahlapuu M.

    J Biol Chem. 2006 Mar 17;281(11):7244-52. Epub 2006 Jan 12.PMID: 16410251 [PubMed - indexed for MEDLINE]Related articlesFree article

    5.

    Effects of alpha-AMPK knockout on exercise-induced gene activation in mouse skeletal muscle.

    Jørgensen SB, Wojtaszewski JF, Viollet B, Andreelli F, Birk JB, Hellsten Y, Schjerling P, Vaulont S, Neufer PD, Richter EA, Pilegaard H.

    FASEB J. 2005 Jul;19(9):1146-8. Epub 2005 May 5.PMID: 15878932 [PubMed - indexed for MEDLINE]Related articlesFree article

    6.

    Muscle-specific overexpression of wild type and R225Q mutant AMP-activated protein kinase gamma3-subunit differentially regulates glycogen accumulation.

    Yu H, Hirshman MF, Fujii N, Pomerleau JM, Peter LE, Goodyear LJ.

    Am J Physiol Endocrinol Metab. 2006 Sep;291(3):E557-65. Epub 2006 Apr 25.PMID: 16638825 [PubMed - indexed for MEDLINE]Related articlesFree article

    7.

    Gain-of-function R225Q mutation in AMP-activated protein kinase gamma3 subunit increases mitochondrial biogenesis in glycolytic skeletal muscle.

    Garcia-Roves PM, Osler ME, Holmström MH, Zierath JR.

    J Biol Chem. 2008 Dec 19;283(51):35724-34. Epub 2008 Oct 6.PMID: 18838377 [PubMed - indexed for MEDLINE]Related articles

    8.

    5'-AMP-activated protein kinase regulates skeletal muscle glycogen content and ergogenics.

    Barnes BR, Glund S, Long YC, Hjälm G, Andersson L, Zierath JR.

    FASEB J. 2005 May;19(7):773-9.PMID: 15857891 [PubMed - indexed for MEDLINE]Related articlesFree article

    9.

    Exercise in transgenic mice overexpressing GLUT4 glucose transporters: effects on substrate metabolism and glycogen regulation.

    Bao S, Garvey WT.

    Metabolism. 1997 Nov;46(11):1349-57.PMID: 9361698 [PubMed - indexed for MEDLINE]Related articles

    10.

    Role of AMP-activated protein kinase gamma 3 genetic variability in glucose and lipid metabolism in non-diabetic whites.

    Weyrich P, Machicao F, Staiger H, Simon P, Thamer C, Machann J, Schick F, Guirguis A, Fritsche A, Stefan N, Häring HU.

    Diabetologia. 2007 Oct;50(10):2097-106. Epub 2007 Aug 14.PMID: 17701023 [PubMed - indexed for MEDLINE]Related articles

    11.

    Role of AMP-activated protein kinase in exercise capacity, whole body glucose homeostasis, and glucose transport in skeletal muscle -insight from analysis of a transgenic mouse model-.

    Fujii N, Seifert MM, Kane EM, Peter LE, Ho RC, Winstead S, Hirshman MF, Goodyear LJ.

    Diabetes Res Clin Pract. 2007 Sep;77 Suppl 1:S92-8. Epub 2007 Apr 23.PMID: 17452058 [PubMed - indexed for MEDLINE]Related articles

    12.

    Role of AMP--activated protein kinase in the control of glucose homeostasis.

    Barnes BR, Zierath JR.

    Curr Mol Med. 2005 May;5(3):341-8. Review.PMID: 15892653 [PubMed - indexed for MEDLINE]Related articles

    13.

    Role of AMPKalpha2 in basal, training-, and AICAR-induced GLUT4, hexokinase II, and mitochondrial protein expression in mouse muscle.

    Jørgensen SB, Treebak JT, Viollet B, Schjerling P, Vaulont S, Wojtaszewski JF, Richter EA.

    Am J Physiol Endocrinol Metab. 2007 Jan;292(1):E331-9. Epub 2006 Sep 5.PMID: 16954334 [PubMed - indexed for MEDLINE]Related articlesFree article

    14.

    Control of exercise-stimulated muscle glucose uptake by GLUT4 is dependent on glucose phosphorylation capacity in the conscious mouse.

    Fueger PT, Hess HS, Posey KA, Bracy DP, Pencek RR, Charron MJ, Wasserman DH.

    J Biol Chem. 2004 Dec 3;279(49):50956-61. Epub 2004 Sep 28.PMID: 15456776 [PubMed - indexed for MEDLINE]Related articlesFree article

    15.

    Skeletal muscle adaptation to exercise training: AMP-activated protein kinase mediates muscle fiber type shift.

    Röckl KS, Hirshman MF, Brandauer J, Fujii N, Witters LA, Goodyear LJ.

    Diabetes. 2007 Aug;56(8):2062-9. Epub 2007 May 18.PMID: 17513699 [PubMed - indexed for MEDLINE]Related articlesFree article

    16.

    PGC-1alpha is not mandatory for exercise- and training-induced adaptive gene responses in mouse skeletal muscle.

    Leick L, Wojtaszewski JF, Johansen ST, Kiilerich K, Comes G, Hellsten Y, Hidalgo J, Pilegaard H.

    Am J Physiol Endocrinol Metab. 2008 Feb;294(2):E463-74. Epub 2007 Dec 11.PMID: 18073319 [PubMed - indexed for MEDLINE]Related articlesFree article

    17.

    Effects of calcineurin activation on insulin-, AICAR- and contraction-induced glucose transport in skeletal muscle.

    Ryder JW, Long YC, Nilsson E, Mahlapuu M, Zierath JR.

    J Physiol. 2005 Sep 1;567(Pt 2):379-86. Epub 2005 Jun 23.PMID: 15975979 [PubMed - indexed for MEDLINE]Related articlesFree article

    18.

    Relationship between AMPK and the transcriptional balance of clock-related genes in skeletal muscle.

    Vieira E, Nilsson EC, Nerstedt A, Ormestad M, Long YC, Garcia-Roves PM, Zierath JR, Mahlapuu M.

    Am J Physiol Endocrinol Metab. 2008 Nov;295(5):E1032-7. Epub 2008 Aug 26.PMID: 18728219 [PubMed - indexed for MEDLINE]Related articlesFree article

    19.

    Role of adenosine 5'-monophosphate-activated protein kinase subunits in skeletal muscle mammalian target of rapamycin signaling.

    Deshmukh AS, Treebak JT, Long YC, Viollet B, Wojtaszewski JF, Zierath JR.

    Mol Endocrinol. 2008 May;22(5):1105-12. Epub 2008 Feb 14.PMID: 18276828 [PubMed - indexed for MEDLINE]Related articlesFree article

    20.

    Dissociation of AMP-activated protein kinase and p38 mitogen-activated protein kinase signaling in skeletal muscle.

    Ho RC, Fujii N, Witters LA, Hirshman MF, Goodyear LJ.

    Biochem Biophys Res Commun. 2007 Oct 19;362(2):354-9. Epub 2007 Aug 7.PMID: 17709097 [PubMed - indexed for MEDLINE]Related articlesFree article

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