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AB108785

Mouse Adiponectin ELISA Kit

5

(1 Review)

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(42 Publications)

Mouse Adiponectin ELISA Kit is a sandwich ELISA designed to quantify Mouse Adiponectin with a sensitivity of 0.11 ng/mL.

- Colorimetric sandwich ELISA - 450 nm readout - works on any plate reader
- Wide dynamic range - quantifies 1.5 - 6 ng/mL
- Cited in over 40 publications

View Alternative Names

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

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Sandwich ELISA - Mouse Adiponectin ELISA Kit (AB108785)
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Supplier Data

Sandwich ELISA - Mouse Adiponectin ELISA Kit (AB108785)

Representative Standard Curve using ab108785

Sandwich ELISA - Mouse Adiponectin ELISA Kit (AB108785)
  • sELISA

Unknown

Sandwich ELISA - Mouse Adiponectin ELISA Kit (AB108785)

Adiponectin measured in biological fluids with background signal subtracted (duplicates +/- SD).

Key facts

Detection method

Colorimetric

Sample types

Plasma, Urine, Serum, Cell culture supernatant

Reacts with

Mouse

Assay type

Sandwich (quantitative)

Sensitivity

= 0.46 pg/mL

Range

0.391 - 25 ng/mL

Assay time

4h

Assay Platform

Microplate

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Reactivity data

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Product details

Mouse Adiponectin ELISA Kit ab108785 is a sandwich ELISA to measure Mouse Adiponectin in serum, plasma, cell culture supernatant, urine with a sensitivity of 0.11 ng/ml.

How the assay works

An Adiponectin specific antibody has been precoated onto 96-well plates and blocked. Standards or test samples are added to the wells and subsequently an Adiponectin specific biotinylated detection antibody is added and then followed by washing with wash buffer. Streptavidin-Peroxidase Conjugate is added and unbound conjugates are washed away with wash buffer. TMB is then used to visualize Streptavidin-Peroxidase enzymatic reaction. TMB is catalyzed by Streptavidin-Peroxidase to produce a blue color product that changes into yellow after adding acidic stop solution. The density of yellow coloration is directly proportional to the amount of Adiponectin captured in plate.
The entire kit may be stored at -20°C for long term storage before reconstitution - Avoid repeated freeze-thaw cycles.

Assay Specificity

Our ELISA kits are rigorously validated to ensure the highest level of consistency and reproducibility. Please check the protocol booklet for more details

Mouse Adiponectin ELISA Kit ab108785 protocol summary

1. Add standard or sample to appropriate wells. Incubate at room temperature
2. Wash and add prepared biotin antibody to each well. Incubate at room temperature.
3. Wash and add prepared Streptavidin-Peroxidase Conjugate. Incubate at room temperature
4. Add Chromogen Substrate to each well. Incubate at room temperature
5. Add Stop Solution to each well. Read at 450 nm immediately.
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Precision

[ { "reproducibilityType": "Inter", "sample": "Overall", "replicates": 0, "mean": null, "standardDeviation": null, "coefficientOfVariability": "10.4" }, { "reproducibilityType": "Intra", "sample": "Overall", "replicates": 0, "mean": null, "standardDeviation": null, "coefficientOfVariability": "6.4" } ]
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What's included?

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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
Multi
Storage information
Please refer to protocols
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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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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-alpha 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
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Publications (42)

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

Veterinary world 17:1685-1692 PubMed39328456

2024

Evidence of obesity-induced inflammatory changes in client-owned cats.

Applications

Unspecified application

Species

Unspecified reactive species

Steffi L Araujo,Patricia L Martins,Thyago H de Souza Pereira,Tiago L Sampaio,Ramon R Paula Pessoa Bezerra de Menezes,Mac D Rodrigues da Costa,Alice M Costa Martins,Isaac Neto Goes da Silva,Glayciane Bezerra de Morais,Janaina Serra Azul Monteiro Evangelista

Physiological reports 12:e16152 PubMed39054559

2024

Circulating plasma fibronectin affects tissue insulin sensitivity, adipocyte differentiation, and transcriptional landscape of adipose tissue in mice.

Applications

Unspecified application

Species

Unspecified reactive species

Mahdokht Mahmoodi,Elahe Mirzarazi Dahagi,Mir-Hamed Nabavi,Ylauna C M Penalva,Amrita Gosaine,Monzur Murshed,Sandrine Couldwell,Lisa M Munter,Mari T Kaartinen

ACS omega 9:28520-28533 PubMed38973907

2024

069 and 031: Unraveling Strain-Specific Pathways for Modulating Lipid Metabolism and Attenuating High-Fat-Diet-Induced Obesity in Mice.

Applications

Unspecified application

Species

Unspecified reactive species

Pin-Yu Ho,Ya-Chun Chou,Yen-Chun Koh,Wei-Sheng Lin,Wei-Jen Chen,Ai-Lun Tseng,Chiau-Ling Gung,Yu-Shan Wei,Min-Hsiung Pan

Redox biology 73:103219 PubMed38851001

2024

Exogenous APN protects normal tissues from radiation-induced oxidative damage and fibrosis in mice and prostate cancer patients with higher levels of APN have less radiation-induced toxicities.

Applications

Unspecified application

Species

Unspecified reactive species

Joshua A McDowell,Elizabeth A Kosmacek,Michael J Baine,Oluwaseun Adebisi,Cheng Zheng,Madison M Bierman,Molly S Myers,Arpita Chatterjee,Kia T Liermann-Wooldrik,Andrew Lim,Kristin A Dickinson,Rebecca E Oberley-Deegan

Nutrients 16: PubMed38542804

2024

Extract Prevents Hepatic Steatosis by Enhancing Bile Acid Synthesis in a High-Fat Diet-Induced Fatty Liver Mouse Model.

Applications

Unspecified application

Species

Unspecified reactive species

Wooyoung Kim,Woon Hee Baek,Sung Ho Yun,Hayoung Lee,Mi Jeong Kim,Sang-Yeop Lee,Gun-Hwa Kim,Seung Il Kim,Hye Gwang Jeong,Edmond Changkyun Park

Nature communications 14:5971 PubMed37749090

2023

A common East-Asian ALDH2 mutation causes metabolic disorders and the therapeutic effect of ALDH2 activators.

Applications

Unspecified application

Species

Unspecified reactive species

Yi-Cheng Chang,Hsiao-Lin Lee,Wenjin Yang,Meng-Lun Hsieh,Cai-Cin Liu,Tung-Yuan Lee,Jing-Yong Huang,Jiun-Yi Nong,Fu-An Li,Hsiao-Li Chuang,Zhi-Zhong Ding,Wei-Lun Su,Li-Yun Chueh,Yi-Ting Tsai,Che-Hong Chen,Daria Mochly-Rosen,Lee-Ming Chuang

iScience 26:107625 PubMed37670786

2023

TM4SF5-mediated abnormal food-intake behavior and apelin expression facilitate non-alcoholic fatty liver disease features.

Applications

Unspecified application

Species

Unspecified reactive species

Yangie Dwi Pinanga,Han Ah Lee,Eun-Ae Shin,Haesong Lee,Kyung-Hee Pyo,Ji Eon Kim,Eun Hae Lee,Wonsik Kim,Soyeon Kim,Hwi Young Kim,Jung Weon Lee

Diabetologia 66:913-930 PubMed36692509

2023

Chaperonin counteracts diet-induced non-alcoholic fatty liver disease by aiding sirtuin 3 in the control of fatty acid oxidation.

Applications

Unspecified application

Species

Unspecified reactive species

Shao-Wen Weng,Jian-Ching Wu,Feng-Chih Shen,Yen-Hsiang Chang,Yu-Jih Su,Wei-Shiung Lian,Ming-Hong Tai,Chia-Hao Su,Jiin-Haur Chuang,Tsu-Kung Lin,Chia-Wei Liou,Tian-Huei Chu,Ying-Hsien Kao,Feng-Sheng Wang,Pei-Wen Wang

Journal of traditional and complementary medicine 12:287-301 PubMed35493312

2022

Transcriptome and metabolome changes induced by bitter melon ()- intake in a high-fat diet induced obesity model.

Applications

Unspecified application

Species

Unspecified reactive species

Dominique Reed,Dileep Kumar,Sushil Kumar,Komal Raina,Reenu Punia,Rama Kant,Laura Saba,Charmion Cruickshank-Quinn,Boris Tabakoff,Nichole Reisdorph,Michael G Edwards,Michael Wempe,Chapla Agarwal,Rajesh Agarwal

Scientific reports 12:5073 PubMed35332198

2022

Metabolic benefits of methionine restriction in adult mice do not require functional methionine sulfoxide reductase A (MsrA).

Applications

Unspecified application

Species

Unspecified reactive species

Kevin M Thyne,Adam B Salmon
View all publications
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