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AB3760

Anti-AMPK alpha 2 antibody

5

(6 Reviews)

|

(67 Publications)

Rabbit Polyclonal AMPK alpha 2 antibody. Suitable for WB and reacts with Mouse, Human samples. Cited in 67 publications. Immunogen corresponding to Synthetic Peptide within Human PRKAA2 aa 350-400.

View Alternative Names

AMPK, AMPK2, PRKAA2, 5'-AMP-activated protein kinase catalytic subunit alpha-2, AMPK subunit alpha-2, Acetyl-CoA carboxylase kinase, Hydroxymethylglutaryl-CoA reductase kinase, ACACA kinase, HMGCR kinase

2 Images
Western blot - Anti-AMPK alpha 2 antibody (AB3760)
  • WB

Supplier Data

Western blot - Anti-AMPK alpha 2 antibody (AB3760)

Chemiluminescence detection.

All lanes:

Western blot - Anti-AMPK alpha 2 antibody (ab3760) at 0.4 µg/mL

Lane 1:

HeLa (Human epithelial adenocarcinoma cell line) whole cell lysate at 50 µg

Lane 2:

HEK-293T (Human epithelial cell line from embryonic kidney transformed with large T antigen) whole cell lysate at 50 µg

Lane 3:

Jurkat (Human T cell leukemia cell line from peripheral blood) whole cell lysate at 50 µg

Lane 4:

Renca (Mouse renal adenocarcinoma cell line) whole cell lysate at 50 µg

Lane 5:

TCMK-1 (Mouse kidney epithelial cell line) whole cell lysate at 50 µg

Predicted band size: 62 kDa

false

Exposure time: 3min

Western blot - Anti-AMPK alpha 2 antibody (AB3760)
  • WB

CiteAb

Western blot - Anti-AMPK alpha 2 antibody (AB3760)

Western Blotting using Anti-AMPK alpha 2 antibody, ab3760. Publication image from Yang, Q. et al., 2018, Nat Commun, 30405100. Legend direct from paper.

Increased expression of Prkaa1/AMPK in ECs exposed to disturbed flow. a Representative images of en face immunofluorescence staining and quantification data of pPrkaa1 (Thr172) and Prkaa1 (red) levels in the arterial endothelium of C57BL/6j mice. The endothelium was visualized by CD31 staining (Alexa Fluor-488, green), and nuclei were counterstained with DAPI (blue). Images were captured with confocal fluorescence microscopy. Scale bar : 20 µm; n = 10 mice per group. Boxes in image on the right indicate origin of regions shown in the respective rows of images (scale bar : 5 mm). b Schematic illustration of laminar flow (shear stress : 15 dyne/cm2) and oscillating flow (shear stress : ± 5 dyne/cm2, frequency : 1 Hz) systems in vitro. c Real-time PCR analysis of mRNA levels of PRKAA1, PRKAA2, PRKAB1, and PRKAG1 in HUVECs under laminar flow and oscillating flow for 24 h. n = 4. d Western-blot analysis and quantification data of protein levels of pPRKA (Thr172), PRKAA1, PRKAA2, total PRKAA, PRKAB1, and pACC (Ser 79) in HUVECs under laminar flow and oscillating flow for 24 h. β-Actin was used as a loading control. n = 5. e Western-blot analysis and quantification data of the protein levels of pPRKA and PRKAA1 in HUVECs transfected with siCtrl and siPECAM-1 under laminar flow and oscillating flow for 24 h. n = 5. f Mouse partial carotid ligation model and intimal RNA extraction steps from carotid arteries following flushing arteries with QIAzol lysis reagent. g Real-time PCR analysis of mRNA levels of Prkaa1, Prkaa2, Prkab1, and Prkag1 in ECs obtained from sham-operated right common carotid arteries and partially ligated left common carotid arteries in C57BL/6j mice. n = 9 mice per group. All data were expressed as mean ± SEM. Statistical significance was determined by unpaired Student’s t-test (for c, d, g) and one-way ANOVA followed by Bonferroni test (for a, e). *p < 0.05 was considered significant, **p < 0.01, ***p < 0.001

false

Key facts

Host species

Rabbit

Clonality

Polyclonal

Isotype

IgG

Carrier free

No

Reacts with

Mouse, Human

Applications

WB

applications

Immunogen

Synthetic Peptide within Human PRKAA2 aa 350-400. The exact immunogen used to generate this antibody is proprietary information.

P54646

Specificity

Does not cross-react with AMPK alpha 1.

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Reactivity data

{ "title": "Reactivity Data", "filters": { "stats": ["", "Species", "Dilution Info", "Notes"], "tabs": { "all-applications": {"fullname" : "All Applications", "shortname": "All Applications"}, "WB" : {"fullname" : "Western blot", "shortname":"WB"} }, "product-promise": { "all": "all", "testedAndGuaranteed": "tested", "guaranteed": "expected", "predicted": "predicted", "notRecommended": "not-recommended" } }, "values": { "Human": { "WB-species-checked": "testedAndGuaranteed", "WB-species-dilution-info": "1/500 - 1/5000", "WB-species-notes": "<p></p>" }, "Mouse": { "WB-species-checked": "testedAndGuaranteed", "WB-species-dilution-info": "1/500 - 1/5000", "WB-species-notes": "<p></p>" }, "Orangutan": { "WB-species-checked": "predicted", "WB-species-dilution-info": "", "WB-species-notes": "" }, "Pig": { "WB-species-checked": "predicted", "WB-species-dilution-info": "", "WB-species-notes": "" } } }
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Properties and storage information

Form
Liquid
Purification technique
Affinity purification Immunogen
Storage buffer
pH: 7 - 8 Preservative: 0.1% Sodium azide Constituents: PBS, 1.815% Tris, 1.764% Sodium citrate
Shipped at conditions
Blue Ice
Appropriate short-term storage conditions
+4°C
Appropriate long-term storage conditions
+4°C
Aliquoting information
Upon delivery aliquot
Storage information
Avoid freeze / thaw cycle
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Product protocols

For this product, it's our understanding that no specific protocols are required. You can visit:
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Target data

Catalytic subunit of AMP-activated protein kinase (AMPK), an energy sensor protein kinase that plays a key role in regulating cellular energy metabolism (PubMed : 17307971, PubMed : 17712357). In response to reduction of intracellular ATP levels, AMPK activates energy-producing pathways and inhibits energy-consuming processes : inhibits protein, carbohydrate and lipid biosynthesis, as well as cell growth and proliferation (PubMed : 17307971, PubMed : 17712357). AMPK acts via direct phosphorylation of metabolic enzymes, and by longer-term effects via phosphorylation of transcription regulators (PubMed : 17307971, PubMed : 17712357). Regulates lipid synthesis by phosphorylating and inactivating lipid metabolic enzymes such as ACACA, ACACB, GYS1, HMGCR and LIPE; regulates fatty acid and cholesterol synthesis by phosphorylating acetyl-CoA carboxylase (ACACA and ACACB) and hormone-sensitive lipase (LIPE) enzymes, respectively (PubMed : 7959015). Promotes lipolysis of lipid droplets by mediating phosphorylation of isoform 1 of CHKA (CHKalpha2) (PubMed : 34077757). Regulates insulin-signaling and glycolysis by phosphorylating IRS1, PFKFB2 and PFKFB3 (By similarity). Involved in insulin receptor/INSR internalization (PubMed : 25687571). AMPK stimulates glucose uptake in muscle by increasing the translocation of the glucose transporter SLC2A4/GLUT4 to the plasma membrane, possibly by mediating phosphorylation of TBC1D4/AS160 (By similarity). Regulates transcription and chromatin structure by phosphorylating transcription regulators involved in energy metabolism such as CRTC2/TORC2, FOXO3, histone H2B, HDAC5, MEF2C, MLXIPL/ChREBP, EP300, HNF4A, p53/TP53, SREBF1, SREBF2 and PPARGC1A (PubMed : 11518699, PubMed : 11554766, PubMed : 15866171, PubMed : 17711846, PubMed : 18184930). Acts as a key regulator of glucose homeostasis in liver by phosphorylating CRTC2/TORC2, leading to CRTC2/TORC2 sequestration in the cytoplasm (By similarity). In response to stress, phosphorylates 'Ser-36' of histone H2B (H2BS36ph), leading to promote transcription (By similarity). Acts as a key regulator of cell growth and proliferation by phosphorylating FNIP1, TSC2, RPTOR, WDR24 and ATG1/ULK1 : in response to nutrient limitation, negatively regulates the mTORC1 complex by phosphorylating RPTOR component of the mTORC1 complex and by phosphorylating and activating TSC2 (PubMed : 14651849, PubMed : 20160076, PubMed : 21205641). Also phosphorylates and inhibits GATOR2 subunit WDR24 in response to nutrient limitation, leading to suppress glucose-mediated mTORC1 activation (PubMed : 36732624). In response to energetic stress, phosphorylates FNIP1, inactivating the non-canonical mTORC1 signaling, thereby promoting nuclear translocation of TFEB and TFE3, and inducing transcription of lysosomal or autophagy genes (PubMed : 37079666). In response to nutrient limitation, promotes autophagy by phosphorylating and activating ATG1/ULK1 (PubMed : 21205641). In that process, it also activates WDR45/WIPI4 (PubMed : 28561066). Phosphorylates CASP6, thereby preventing its autoprocessing and subsequent activation (PubMed : 32029622). AMPK also acts as a regulator of circadian rhythm by mediating phosphorylation of CRY1, leading to destabilize it (By similarity). May regulate the Wnt signaling pathway by phosphorylating CTNNB1, leading to stabilize it (By similarity). Also acts as a regulator of cellular polarity by remodeling the actin cytoskeleton; probably by indirectly activating myosin (PubMed : 17486097). Also phosphorylates CFTR, EEF2K, KLC1, NOS3 and SLC12A1 (PubMed : 12519745, PubMed : 20074060). Plays an important role in the differential regulation of pro-autophagy (composed of PIK3C3, BECN1, PIK3R4 and UVRAG or ATG14) and non-autophagy (composed of PIK3C3, BECN1 and PIK3R4) complexes, in response to glucose starvation (By similarity). Can inhibit the non-autophagy complex by phosphorylating PIK3C3 and can activate the pro-autophagy complex by phosphorylating BECN1 (By similarity). Upon glucose starvation, promotes ARF6 activation in a kinase-independent manner leading to cell migration (PubMed : 36017701). Upon glucose deprivation mediates the phosphorylation of ACSS2 at 'Ser-659', which exposes the nuclear localization signal of ACSS2, required for its interaction with KPNA1 and nuclear translocation (PubMed : 28552616). Upon stress, regulates mitochondrial fragmentation through phosphorylation of MTFR1L (PubMed : 36367943).
See full target information PRKAA2
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Publications (67)

Recent publications for all applications. Explore the full list and refine your search

Communications biology 7:747 PubMed38902324

2024

Dorsomorphin inhibits AMPK, upregulates Wnt and Foxo genes and promotes the activation of dormant follicles.

Applications

Unspecified application

Species

Unspecified reactive species

Julie Feld Madsen,Emil Hagen Ernst,Mahboobeh Amoushahi,Margit Dueholm,Erik Ernst,Karin Lykke-Hartmann

Cell chemical biology 30:1585-1600.e6 PubMed37890479

2023

Blocking AMPKαS496 phosphorylation improves mitochondrial dynamics and hyperglycemia in aging and obesity.

Applications

Unspecified application

Species

Unspecified reactive species

Alexia Pearah,Balamurugan Ramatchandirin,Ting Liu,Risa M Wolf,Arisa Ikeda,Sally Radovick,Hiromi Sesaki,Fredric E Wondisford,Brian O'Rourke,Ling He

Development (Cambridge, England) 150: PubMed37823352

2023

Calcium signals tune AMPK activity and mitochondrial homeostasis in dendrites of developing neurons.

Applications

Unspecified application

Species

Unspecified reactive species

Akane Hatsuda,Junko Kurisu,Kazuto Fujishima,Ayano Kawaguchi,Nobuhiko Ohno,Mineko Kengaku

Nature communications 14:5891 PubMed37735515

2023

Endothelial Sp1/Sp3 are essential to the effect of captopril on blood pressure in male mice.

Applications

Unspecified application

Species

Unspecified reactive species

Hanlin Lu,Xiuxin Jiang,Lifan He,Xuyang Ji,Xinyun Li,Shaozhuang Liu,Yuanyuan Sun,Xiaoteng Qin,Xiwen Xiong,Sjaak Philipsen,Bo Xi,Meng Zhang,Jianmin Yang,Cheng Zhang,Yun Zhang,Wencheng Zhang

Nature communications 14:4675 PubMed37542026

2023

Myonectin protects against skeletal muscle dysfunction in male mice through activation of AMPK/PGC1α pathway.

Applications

Unspecified application

Species

Unspecified reactive species

Yuta Ozaki,Koji Ohashi,Naoya Otaka,Hiroshi Kawanishi,Tomonobu Takikawa,Lixin Fang,Kunihiko Takahara,Minako Tatsumi,Sohta Ishihama,Mikito Takefuji,Katsuhiro Kato,Yuuki Shimizu,Yasuko K Bando,Aiko Inoue,Masafumi Kuzuya,Shinji Miura,Toyoaki Murohara,Noriyuki Ouchi

Diabetology & metabolic syndrome 15:64 PubMed37005683

2023

Dynamic evolution and mechanism of myocardial glucose metabolism in different functional phenotypes of diabetic cardiomyopathy - a study based on  F-FDG microPET myocardial metabolic imaging.

Applications

Unspecified application

Species

Unspecified reactive species

Xiaoliang Shao,Yaqi Liu,Mingge Zhou,Min Xu,Yuqi Chen,Hongbo Huang,Jianguo Lin,Yuetao Wang

Cellular and molecular neurobiology 43:2325-2335 PubMed36441266

2022

Activated AMPK Protects Against Chronic Cerebral Ischemia in Bilateral Carotid Artery Stenosis Mice.

Applications

Unspecified application

Species

Unspecified reactive species

Weijie Xie,Yanqin Zeng,Yunqiu Zheng,Bin Cai

Journal of biological methods 9:e162 PubMed36404875

2022

Measurement of skeletal muscle glucose uptake in mice in response to acute treadmill running.

Applications

Unspecified application

Species

Unspecified reactive species

Lisbeth Liliendal Valbjørn Møller,Steffen Henning Raun,Andreas Mæchel Fritzen,Lykke Sylow

Frontiers in pharmacology 13:870699 PubMed35592411

2022

Liquiritin Attenuates Pathological Cardiac Hypertrophy by Activating the PKA/LKB1/AMPK Pathway.

Applications

Unspecified application

Species

Unspecified reactive species

Xiahenazi Aiyasiding,Hai-Han Liao,Hong Feng,Nan Zhang,Zheng Lin,Wen Ding,Han Yan,Zi-Ying Zhou,Qi-Zhu Tang

Biology 11: PubMed35336822

2022

AMPK Activation Is Indispensable for the Protective Effects of Caloric Restriction on Left Ventricular Function in Postinfarct Myocardium.

Applications

Unspecified application

Species

Unspecified reactive species

Bernd Niemann,Ruping Pan,Hassan Issa,Andreas Simm,Rainer Schulz,Susanne Rohrbach
View all publications
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