| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.62222881 |
| Sequence analysis revealed that glycogen synthase , a known AMPK substrate , co immunoprecipitated with the AMPK alpha2beta2gamma1 complex . . 0.62222881^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.52203907 |
| AMPK binds to glycogen but retains full activity . 0.52203907^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.53248276 |
| Modeling suggests that this binding pocket enables AMPK to interact with glycogen anywhere across the carbohydrate ' s helical surface . . 0.53248276^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.52192443 |
| In this study , we investigated if decreased pre exercise muscle glycogen levels and increased AMPK alpha 2 activity reduced the association of AMPK with glycogen and increased AMPK alpha 2 translocation to the nucleus and GLUT 4 mRNA expression following exercise . 0.52192443^^^ |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| We determined whether the cell permeable molecule AICAR , whose metabolite activates AMP activated protein kinase ( AMPK ) in cells , affected glycogen metabolism in rat soleus muscle preparations in vitro . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| Chronic chemical activation of AMPK , therefore , results in increases in GLUT 4 protein , hexokinase activity , and glycogen , similarly to those induced by endurance training . . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| There was close correlation between alpha 1 ( r 2 = 0 . 72 ) and alpha 2 ( r 2 = 0 . 67 ) AMPK activities and the rate of glucose transport , irrespective of the metabolic stress used , all of which compromised muscle fuel status as judged by ATP , phosphocreatine , and glycogen content . 5 Aminoimidazole 4 carboxamide ribonucleoside , a pharmacological AMPK activator that is metabolized to an AMP mimetic ZMP , also increased both glucose transport and AMPK activity but did not change fuel status . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| To test this hypothesis , we investigated whether muscle glycogen levels affect AMPK activation and glucose transport stimulation similarly during contractions . ^^^ In conclusion , in slow twitch muscles , high glycogen levels inhibit contraction induced AMPK activation without affecting glucose transport . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| The possible involvement of calcium , protein kinase C ( PKC ) , nitric oxide ( NO ) , glycogen and AMP activated protein kinase ( AMPK ) are discussed . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| Glycogen dependent effects of 5 aminoimidazole 4 carboxamide ( AICA ) riboside on AMP activated protein kinase and glycogen synthase activities in rat skeletal muscle . 5 ' AMP activated protein kinase ( AMPK ) functions as a metabolic switch in mammalian cells and can be artificially activated by 5 aminoimidazole 4 carboxamide ( AICA ) riboside . ^^^ AMPK activation during muscle contraction is dependent on muscle glycogen concentrations , but whether glycogen also modifies the activation of AMPK and its possible downstream effectors ( glycogen synthase and glucose transport ) by AICA riboside in resting muscle is not known . ^^^ Although the data do not exclude a role of other kinases / phosphatases , they suggest that glycogen synthase may be a target for AMPK in vivo . ^^^ Both basal and AICA riboside induced AMPK alpha 2 and glycogen synthase activities , as well as glucose transport , are depressed when the glycogen stores are plentiful . ^^^ Because the glycogen level did not affect adenine nucleotide concentrations , our data suggest that glycogen may directly affect the activation state of AMPK in skeletal muscle . . ^^^ |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| At rest , plasma long chain fatty acids ( FA ) were twofold higher in the glycogen depleted than in the loaded state , and muscle alpha 1 AMPK ( 160 % ) and alpha 2 AMPK ( 145 % ) activities and ACCbeta Ser ( 221 ) phosphorylation ( 137 % ) were also significantly higher in the glycogen depleted state . ^^^ During exercise , alpha 2 AMPK activity , ACCbeta Ser ( 221 ) phosphorylation , plasma catecholamines , and leg glucose and net FA uptake were significantly higher in the glycogen depleted than in the glycogen loaded state without apparent differences in muscle high energy phosphates . ^^^ Thus exercise in the glycogen depleted state elicits an enhanced uptake of circulating fuels that might be associated with elevated muscle AMPK activation . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| We report here use of human myoblasts in culture to study the relationships between cellular glycogen concentrations and the activities of glycogen synthase ( GS ) and AMP activated protein kinase ( AMPK ) . ^^^ When glucose was added to glycogen depleted cells , a rapid and substantial increase in GS activity was accompanied by inactivation of AMPK back to basal values . ^^^ Inclusion of the glycogen phosphorylase inhibitor , CP 91149 , prevented the loss of glycogen during glucose deprivation but not the activation of AMPK . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| There is also evidence that changes in AMPK activity result in altered cellular glycogen content , suggesting that this enzyme regulates glycogen metabolism . ^^^ Recent studies have shown that the magnitude of AMPK activation and associated metabolic responses are affected by factors such as glycogen content , exercise training and fibre type . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| Recent studies demonstrate that pharmacologic activation of AMPK and mutations in the enzyme are associated with elevated muscle glycogen content in vivo . ^^^ Our purpose was to determine the mechanism for increased muscle glycogen associated with AMPK activity in vivo . ^^^ AMPK activity and glycogen metabolism were studied in red and white gastrocnemius muscles from rats treated with 5 aminoimidazole 4 carboxamide ribonucleoside ( AICAR ) in vivo , and also in muscles incubated with AICAR in vitro . ^^^ AICAR increased muscle alpha 2 AMPK activity , glycogen , and glucose 6 phosphate concentrations . ^^^ In vitro incubation with AICAR activated alpha 2 AMPK but had no effect on either glycogen synthase or glycogen phosphorylase . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| It has been suggested that 5 ' AMP activated protein kinase ( AMPK ) is involved in the regulation of glucose and glycogen metabolism in skeletal muscle . ^^^ These findings suggest that GS activity is increased by glycogen breakdown and decreased by AMPK and possibly PKA activation and that the resultant GS activity depends on the relative strengths of the various stimuli . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| Metformin induced increases in AMPK activity were associated with higher rates of glucose disposal and muscle glycogen concentrations . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| CONCLUSIONS : ( 1 ) AMPK plays a major role in regulating lipid metabolism in multiple tissues following exercise . ( 2 ) The net effect of its activation is to increase fatty acid oxidation and diminish glycerolipid synthesis . ( 3 ) The relevance of these findings to the regulation of muscle glycogen repletion in the post exercise state and to the demonstrated ability of AMPK activation to decrease adiposity and increase insulin sensitivity in rodents remains to be determined . . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| Activity of alpha 1 AMPK ( 160 % ) and alpha 2 AMPK ( 145 % ) was increased at rest in the glycogen depleted compared with the loaded situation . ^^^ During exercise , alpha 1 AMPK activity did not change from resting levels in both trials , whereas alpha 2 AMPK activity increased only in the glycogen depleted state . ^^^ After 60 min of exercise in the glycogen depleted state , individual values of alpha 2 AMPK activity correlated significantly ( r = 0 . 87 , P < 0 . 006 ) with individual values of IL 6 release as well as with average IL 6 release over the entire 60 min ( r = 0 . 86 , P < 0 . 006 ) . ^^^ Alternatively , both AMPK and IL 6 are independent sensors of a low muscle glycogen concentration during exercise . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| Surprisingly , AMPK alpha 2 ( / ) mice were insulin resistant and had reduced muscle glycogen synthesis as assessed in vivo by the hyperinsulinaemic euglycaemic clamp procedure . ^^^ Reduction of insulin sensitivity and glycogen synthesis were not dependent on the lack of AMPK in skeletal muscle , since mice expressing a dominant inhibitory mutant of AMPK in skeletal muscle were not affected and since insulin stimulated glucose transport in incubated muscles in vitro was normal in AMPK alpha 2 ( / ) muscles . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| The cardiac phenotype observed in humans harbouring genetic mutations in the gamma 2 regulatory subunit ( PRKAG 2 ) of AMPK is consistent with abnormal glycogen accumulation in the heart . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| We tested the hypothesis that activation of AMP activated protein kinase ( AMPK ) promotes myocardial glycogenolysis by decreasing glycogen synthase ( GS ) and / or increasing glycogen phosphorylase ( GP ) activities . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| However , coexpression of alpha and gamma with full length beta caused accumulation of AMPK in large cytoplasmic inclusions that could be counterstained with anti glycogen or anti glycogen synthase antibodies . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| The activation of AMPK and associated increases in muscle glucose uptake are affected by factors such as glycogen content , exercise training and fibre type . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| Naturally occurring mutations in the regulatory gamma subunit of 5 ' AMP activated protein kinase ( AMPK ) can result in pronounced pathological changes that may stem from increases in muscle glycogen levels , making it critical to understand the role ( s ) of the gamma subunit in AMPK function . ^^^ In conclusion , the gamma 3 subunit of AMPK is highly expressed in fast twitch glycolytic skeletal muscle , and wild type gamma 3 functions in the regulation of alpha 1 catalytic activity , but it is not associated with changes in muscle glycogen concentrations . . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| These data suggest that impaired insulin action on glycogen synthesis and lipid oxidation in skeletal muscle of obese type 2 diabetic subjects is unlikely to involve changes in AMPK expression and activity . . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| Evidence suggests that 5 ' AMP activated protein kinase ( AMPK ) and glycogen may be important for enhanced insulin sensitivity . ^^^ Our goals were to investigate the effect of various in situ muscle contraction protocols on insulin stimulated GT and assess the relationship of contraction induced changes in AMPK and glycogen with postcontraction improvement in insulin stimulated GT . ^^^ Using other rats , we evaluated muscle AMPK phosphorylation and glycogen concentration immediately postcontraction . ^^^ AMPK phosphorylation and reduction in glycogen were increased compared with resting controls in each protocol , which had previously been shown to increase insulin stimulated GT , as well as in several protocols that did not significantly increase insulin stimulated GT . ^^^ These data suggest that contraction induced AMPK phosphorylation and decrease in glycogen may be necessary but are not sufficient for the postcontraction increase in insulin stimulated GT in rat skeletal muscle . . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| Transgenic models a scientific tool to understand exercise induced metabolism : the regulatory role of AMPK ( 5 ' AMP activated protein kinase ) in glucose transport and glycogen synthase activity in skeletal muscle . ^^^ In this mini review focus is on AMPK and its regulatory role for glucose transport and GS ( glycogen synthase ) activity in skeletal muscle , indicating that AMPK is a GS kinase in vivo which might influence GS activity during exercise and that AMPK is involved in AICAR / hypoxia induced glucose transport but not or only partially in contraction stimulated glucose transport . . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| Previous studies identified a glycogen binding domain in the AMPK beta 1 subunit , and the sequence is conserved in the Snf 1 kinase beta subunits Gal 83 and Sip 2 . ^^^ Alteration of Gal 83 at residues that are important for glycogen binding of AMPK beta 1 abolished glycogen binding in vitro and caused diverse phenotypes in vivo . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| The objective of this study was to investigate the effects of creatine supplementation on basal and insulin stimulated glucose transporter ( GLUT 4 ) translocation , glucose uptake , glycogen content , glycogen synthesis , lactate production , glucose oxidation and AMP activated protein kinase ( AMPK ) phosphorylation in L 6 rat skeletal muscle cells . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| A dominant mutation , denoted RN ( ) , in the porcine PRKAG 3 gene , encoding the regulatory gamma 3 subunit of AMPK , results in hyperaccumulation of glycogen in glycolytic skeletal muscle cells . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| Recent studies have shown that the magnitude of AMPK activation and associated metabolic responses are affected by factors such as glycogen content , exercise training and fibre type . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| In conclusion , the present study suggests that AMPK phosphorylates HSL on Ser 565 in human skeletal muscle during exercise with reduced muscle glycogen . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| Here we show that the pharmacological activation of AMPK by 5 aminoimidazole 1 beta 4 carboxamide ribofuranoside ( AICAR ) leads to inactivation of glycogen synthase ( GS ) and phosphorylation of GS at Ser 7 ( site 2 ) . ^^^ Fractionation studies suggest that this suppression of AMPK activation was not a direct consequence of AMPK association with membranes or glycogen , because AMPK was phosphorylated to a greater extent in response to AICAR in the membrane / glycogen fraction than in the cytosolic fraction . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| AMPK is thought to be inhibited by glycogen , the major storage form of intracellular carbohydrate . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| The beta subunit targets AMPK to membranes via an N terminal myristoyl group and to glycogen via a mid molecule glycogen binding domain . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| Recent studies have shown that AMPK plays a role in controlling the whole body energy homoeostasis , including the regulation of plasma glucose levels , fatty acid oxidation and glycogen metabolism . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| We found that inactivation of AMPK did not result in abnormal ATP and glycogen consumption during exercise , cardiac function assessed by heart rhythm telemetry and stress echocardiography , or in maximal exercise capacity . . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| Several genes ( PRKAA 2 , PRKAB 1 , PRKAB 2 , PRKAG 3 , GAA , GYS 1 , PYGM , ALDOA , GPI , LDHA , PGAM 2 and PKM 2 ) , chosen according to their role in the regulation of the energy balance and in the glycogen metabolism and glycolysis of the skeletal muscle , were studied . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| Eight male subjects completed 60 min of cycle exercise at 70 % VO 2 peak on two occasions : either with normal ( CON ) or low ( LG ) pre exercise muscle glycogen content , which is known to enhance exercise induced AMPK activity . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| Glycogen resynthesis after exercise was impaired in AMPK gamma 3 knock out mice and markedly enhanced in transgenic mutant mice . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| On the other hand , the activation of AMPK is important for maintaining the activity of glycogen phosphorylase and pyruvate kinase , leading to a sustained glycolysis and a low ultimate pH . . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| AMP activated protein kinase regulates skeletal muscle glycogen content and ergogenics . 5 ' AMP activated protein kinase ( AMPK ) activity is increased during exercise in an intensity and glycogen dependent manner . ^^^ We previously reported that a mutation in the AMPK 3 subunit ( Prkag3225Q ) increases AMPK activity and skeletal muscle glycogen content . ^^^ We used AMPK 3 transgenic ( Tg Prkag3225Q ) and knockout ( Prkag 3 / ) mice to determine the relationship between AMPK activity , glycogen content , and ergogenics ( ability to perform work ) in isolated extensor digitorum longus skeletal muscle after contractions induced by electrical stimulation . ^^^ Contraction induced AMPK activity was inversely coupled to glycogen content in wild type and Tg Prkag3225Q mice , but not in Prkag 3 / mice , highlighting a partial feedback control of glycogen on contraction induced AMPK activity in the presence of a functional AMPK 3 isoform . ^^^ Thus , chronic activation of AMPK by the Prkag3225Q mutation directly influences skeletal muscle ergogenics by enhancing glycogen content . ^^^ |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| AMP activated protein kinase ( AMPK ) regulates both glycogen and lipid metabolism functioning as an intracellular energy sensor . ^^^ W100G and K128Q , both beta 1 subunit mutants , are reportedly incapable of binding to glycogen , but both bound GDE , indicating that the association between AMPK and GDE does not involve glycogen . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| The increased basal AMPK activity was caused by increased Thr 172 phosphorylation of the alpha subunit ( p AMPK , by 4 fold ) at normal [ ATP ] and was not changed by reducing glycogen content by 60 % in the gamma 2 mutant hearts . ^^^ |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| Short term exercise training in humans reduces AMPK signalling during prolonged exercise independent of muscle glycogen . ^^^ It appears that muscle glycogen is not an important regulator of AMPK activation during exercise in humans when exercise is begun with normal or high muscle glycogen levels . . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| In conclusion , increases in muscle AMPK signaling , free AMP content , and glucose disposal during exercise are largely determined by the absolute exercise intensity , whereas increases in plasma catecholamine levels , muscle glycogen use , and muscle lactate levels are more closely associated with the relative exercise intensity . . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| BACKGROUND : AMP activated protein kinase ( AMPK ) regulatory gamma 2 subunit ( PRKAG 2 ) mutations cause a human cardiomyopathy with cardiac hypertrophy , preexcitation , and glycogen deposition . ^^^ CONCLUSIONS : The PRKAG 2 N488I mutation causes inappropriate AMPK activation , which leads to glycogen accumulation and conduction system disease . ^^^ |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| Insulin induced phosphorylation of glycogen synthase kinase 3 ( GSK 3 ) beta , p 70 S6 kinase ( p70S6K ) ( Thr 389 ) and IRS 1 ( Ser636 / 639 ) were significantly increased following AMPK activation . ^^^ |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| The muscle specific isoform of the regulatory gamma subunit of the kinase , AMPK gamma 3 , has an important role in glucose uptake , glycogen synthesis , and fat oxidation in white skeletal muscle , as previously demonstrated by physiological characterization of AMPK gamma 3 mutant ( R225Q ) transgenic ( TgPrkag 3 ( 225Q ) ) and gamma 3 knock out ( Prkag 3 ( / ) ) mice . ^^^ |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| The gamma 3 subunit is involved in the regulation of AMPK activity in skeletal muscle and strongly influences glycogen metabolism . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| In isolated rat skeletal muscle , glucose suppresses the activity of AMPK and in human muscle glycogen loading decreases exercise induced AMPK activation . ^^^ |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| AMP activated protein kinase ( AMPK ) activating agents cause dephosphorylation of Akt and glycogen synthase kinase 3 . ^^^ |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| In animal and fungal systems , the laforin DSP and the beta regulatory subunits of AMP regulated protein kinase ( AMPK ) and Snf 1 have all been demonstrated to bind to glycogen by a glycogen binding domain ( GBD ) . ^^^ |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| In conclusion , expression of either wild type or mutant gamma 3 subunit of AMPK results in increased glycogen concentrations in muscle , but the mechanisms underlying this alteration appear to be different . ^^^ |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| The enhanced AMPK signalling occurred in the absence of detectable changes in free AMP and glycogen content . ^^^ |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| We propose that mutations in gamma 2 lead to suppression of total cardiac AMPK activity secondary to increased glycogen accumulation . ^^^ |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| These selected topics are : a ) unmasking and / or activation of glucose transporters in cell plasma membranes , b ) insulin mimetics acting at postreceptor level , c ) activation of AMPK , d ) increasing nitric oxide and e ) increasing glucose 6P and glycogen stores . . ^^^ |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| H11K directly binds to both Akt and AMPK and promotes their nuclear translocation and their association in a multiprotein complex , which results in a stimulation of survival mechanisms in cytosol and nucleus , including inhibition of proapoptotic effectors ( glycogen synthase kinase 3beta , Bad , and Foxo ) , activation of antiapoptotic effectors ( protein kinase Cepsilon , endothelial and inducible NO synthase isoforms , and heat shock protein 70 ) , increased expression of the hypoxia inducible factor 1alpha , and genomic switch to glucose utilization . ^^^ |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| Elevated AMPK activity was associated with inhibition of glycogen synthesis and unchanged rates of glucose uptake and glycogenolysis . ^^^ Rather , activation of AMPK alters partitioning of glucose away from glycogen synthesis ; the increase in glycolysis may in part contribute to loss of adenosine induced cardioprotection in hearts subjected to transient ischemia . . ^^^ |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| In the cardiac hypertrophy associated with glycogen overload , both activating and inactivating mutations of AMPK in mice are associated with a marked cardiac hypertrophy . ^^^ |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| To elucidate the molecular mechanism underlying this fast glycolysis in muscle to become PSE meat , post mortem ATP metabolism , fructose 2 , 6 diphosphate content , and the activities of AMPK , glycogen phosphorylase , and pyruvate kinase were examined in post mortem muscle . ^^^ |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| The enhanced glucose uptake and glycogen synthesis in muscle were associated with increased activity of total AMPK and the AMPKalpha 2 subunit . ^^^ |
|
| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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| Interacting proteins: P13807 and Q9Y478 |
Pubmed |
SVM Score :0.0 |
| NA |
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