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AB94676

Recombinant Mouse Adiponectin (mutated C39A) protein

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(1 Publication)

Recombinant Mouse Adiponectin (mutated C39A) protein is a Mouse Full Length protein, expressed in HEK 293 cells, with >98%, suitable for ELISA, WB, FuncS.

View Alternative Names

Acdc, Acrp30, Apm1, Adiponectin, 30 kDa adipocyte complement-related protein, Adipocyte complement-related 30 kDa protein, Adipocyte-specific protein AdipoQ, ACRP30

1 Images
SDS-PAGE - Recombinant Mouse Adiponectin (mutated C39A) protein (AB94676)
  • SDS-PAGE

Unknown

SDS-PAGE - Recombinant Mouse Adiponectin (mutated C39A) protein (AB94676)

SDS-PAGE analysis of Mouse Adiponectin protein (Trimeric form)
Lane 1 : MW marker
Lane 2 : non-reduced/non heated Adiponectin protein

Gel concentration : 12%.

Key facts

Purity

>98% SDS-PAGE

Expression system

HEK 293 cells

Tags

Tag free

Applications

ELISA, WB, FuncS

applications

Biologically active

No

Accession

Q60994

Animal free

No

Carrier free

No

Species

Mouse

Reconstitution

Reconstitute in 100 µL of water

Storage buffer

Constituents: PBS

storage-buffer

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Primary Antibodies

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Reactivity data

{ "title": "Reactivity Data", "filters": { "stats": ["", "Reactivity", "Dilution Info", "Notes"] }, "values": { "ELISA": { "reactivity":"TESTED_AND_REACTS", "dilution-info":"", "notes":"<p></p>" }, "WB": { "reactivity":"TESTED_AND_REACTS", "dilution-info":"", "notes":"<p></p>" }, "FuncS": { "reactivity":"TESTED_AND_REACTS", "dilution-info":"", "notes":"<p>Binding assay: Use at an assay dependent dilution. Ex vivo and in vivo activity analysis: Use at an assay dependent dilution.</p>" } } }
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Product details

The cystenine 39 was replaced with alanine (C39A)9. mAd-C39A can only form trimer, but not hexamer or HMW form.
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Sequence info

[{"linker":null,"sequence":"EDDVTTTEELAPALVPPPKGTAAGWMAGIPGHPGHNGTPGRDGRDGTPGEKGEKGDAGLLGPKGETGDVGMTGAEGPRGFPGTPGRKGEPGEAAYMYRSAFSVGLETRVTVPNVPIRFTKIFYNQQNHYDGSTGKFYCNIPGLYYFSYHITVYMKDVKVSLFKKDKAVLFTYDQYQEKNVDQASGSVLLHLEVGDQVWLQVYGDGDHNGLYADNVNDSTFTGFLLYHDTNDYKDDDDK","proteinLength":"Full Length","predictedMolecularWeight":null,"actualMolecularWeight":null,"aminoAcidEnd":0,"aminoAcidStart":0,"nature":"Recombinant","expressionSystem":"HEK 293 cells","accessionNumber":"Q60994","tags":[]}]
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Properties and storage information

Shipped at conditions
Blue Ice
Appropriate short-term storage conditions
-20°C
Appropriate long-term storage conditions
-20°C
False
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Supplementary information

This supplementary information is collated from multiple sources and compiled automatically.

Adiponectin also known as ADIPOQ or adipocyte complement-related protein of 30 kDa (Acrp30) is a 30 kDa protein that plays a significant mechanical role in energy homeostasis. Adiponectin is secreted predominantly by adipose tissue and circulates in the blood. This protein forms various multimeric structures including low-molecular-weight medium-molecular-weight and high-molecular-weight forms each with distinct biological functions. Its expression in adipose tissue links it closely to metabolic processes and functions related to fat storage and energy balance.
Biological function summary

Adiponectin influences glucose regulation and fatty acid oxidation. It acts as a hormone with several metabolic roles including anti-diabetic anti-atherogenic and anti-inflammatory properties. Adiponectin participates in forming a complex with other proteins such as AdipoR1 and AdipoR2 which are receptors facilitating signal transduction. The interaction of adiponectin with its receptors leads to the induction of several lipid and glucose metabolism pathways important for maintaining cellular energy balance.

Pathways

Many regulatory cascades are influenced by adiponectin. This protein is integral to the AMPK signaling pathway and the PPAR signaling pathway. In the AMPK pathway adiponectin enhances insulin sensitivity and stimulates oxidation of fatty acids in muscle tissue. Through the PPAR pathway it influences lipid metabolism and storage. Adiponectin interacts with key proteins such as leptin and resistin coordinating various metabolic pathways to balance energy and glucose levels making it a critical factor in metabolic regulation.

Reduced levels of adiponectin associate with conditions like type 2 diabetes and cardiovascular disease. Lower circulating adiponectin concentrations correlate with obesity leading to increased insulin resistance and higher risk of type 2 diabetes. In cardiovascular disease this protein's role links to its anti-inflammatory properties and ability to decrease the proliferation of vascular smooth muscle cells. Adiponectin also interacts with proteins like cytokines that play a role in these conditions affecting the body’s inflammatory responses and metabolic processes highlighting its importance in health and disease management.
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Specifications

Form

Lyophilized

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General info

Function

Important adipokine involved in the control of fat metabolism and insulin sensitivity, with direct anti-diabetic, anti-atherogenic and anti-inflammatory activities. Stimulates AMPK phosphorylation and activation in the liver and the skeletal muscle, enhancing glucose utilization and fatty-acid combustion. Antagonizes TNF by negatively regulating its expression in various tissues such as liver and macrophages, and also by counteracting its effects. Inhibits endothelial NF-kappa-B signaling through a cAMP-dependent pathway. May play a role in cell growth, angiogenesis and tissue remodeling by binding and sequestering various growth factors with distinct binding affinities, depending on the type of complex, LMW, MMW or HMW.

Post-translational modifications

HMW complexes are more extensively glycosylated than smaller oligomers. Hydroxylation and glycosylation of the lysine residues within the collagen-like domain of adiponectin seem to be critically involved in regulating the formation and/or secretion of HMW complexes and consequently contribute to the insulin-sensitizing activity of adiponectin in hepatocytes.. O-glycosylated. Not N-glycosylated (By similarity) O-linked glycans on hydroxylysine residues consist of Glc-Gal disaccharides bound to the oxygen atom of post-translationally added hydroxyl groups (By similarity). O-linked glycosylation in the N-terminal is disialylated with the structure Neu5Acalpha2->8Neu5Acalpha2->3Gal. Sialylated by alpha 2,8-sialyltransferase III.. Succination of Cys-39 by the Krebs cycle intermediate fumarate, which leads to S-(2-succinyl)cysteine residues, inhibits polymerization and secretion of adiponectin. Adiponectin is a major target for succination in both adipocytes and adipose tissue of diabetic mice. It was proposed that succination of proteins is a biomarker of mitochondrial stress and accumulation of Krebs cycle intermediates in adipose tissue in diabetes and that succination of adiponectin may contribute to the decrease in plasma adiponectin in diabetes.

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Product protocols

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Target data

Important adipokine involved in the control of fat metabolism and insulin sensitivity, with direct anti-diabetic, anti-atherogenic and anti-inflammatory activities. Stimulates AMPK phosphorylation and activation in the liver and the skeletal muscle, enhancing glucose utilization and fatty-acid combustion. Antagonizes TNF by negatively regulating its expression in various tissues such as liver and macrophages, and also by counteracting its effects. Inhibits endothelial NF-kappa-B signaling through a cAMP-dependent pathway. May play a role in cell growth, angiogenesis and tissue remodeling by binding and sequestering various growth factors with distinct binding affinities, depending on the type of complex, LMW, MMW or HMW.
See full target information Adipoq C39A
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Publications (1)

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

The Journal of experimental medicine 218: PubMed33104171

2020

Adiponectin restrains ILC2 activation by AMPK-mediated feedback inhibition of IL-33 signaling.

Applications

Unspecified application

Species

Unspecified reactive species

Lu Wang,Yan Luo,Liping Luo,Dandan Wu,Xiaofeng Ding,Handong Zheng,Haisha Wu,Bilian Liu,Xin Yang,Floyd Silva,Chunqing Wang,Xing Zhang,Xianyun Zheng,Jindong Chen,Jonathan Brigman,Michael Mandell,Zhiguang Zhou,Feng Liu,Xuexian O Yang,Meilian Liu
View all publications
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Product promise

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