Adiponectin Human HEK293

Cat. No.	Size	Price 1 - 4 pcs / 5 - 9 pcs / 10+ pcs
RD172023100	0.1 mg	$618 / $549 / On request

Technical Data

Type

Recombinant protein

Description

Total 234 AA. MW 25.5 kDa (calculated). UniProtKB acc.no. Q15848 (Glu19 – Asn244). C-Terminal tag (8 extra AA).

Amino Acid Sequence

ETTTQGPGVLLPLPKGACTGWMAGIPGHPGHNGAPGRDGRDGTPGEKGEKGDPGLIGPKGDIGETGVPGAEGPRGFPGIQGRKGEPGEGAYVYRSAFSVGLETYVTIPNMPIRFTKIFYNQQNHYDGSTGKFHCNIPGLYYFAYHITVYMKDVKVSLFKKDKAMLFTYDQYQENNVDQASGSVLLHLEVGDQVWLQVYGEGERNGLYADNDNDSTFTGFLLYHDTNDYKDDDDK

Glu 1 to Gln 5 were confirmed by N-terminal sequencing

Source

HEK293

Purity

˃ 90 % by SDS-PAGE

SDS-PAGE Gel

12% SDS-PAGE separation of Human A diponectin

M.w. marker – 14, 21, 31, 45, 66, 97 kDa
reduced and heated sample, 2.5μg/lane
non-reduced and non-heated sample, 2.5μg/lane

Endotoxin

< 1.0 EU/μg

Formulation

Filtered (0.4 μm) and lyophilized from 0.5 mg/mL solution in phosphate buffered saline, pH 7.4

Reconstitution

Add deionized water to prepare a working stock solution of approximately 0.5 mg/mL and let the lyophilized pellet dissolve completely.

Applications

Western blotting, ELISA

Shipping

At ambient temperature. Upon receipt, store the product at the temperature recommended below.

Storage/Expiration

Store the lyophilized protein at -80 °C. Lyophilized protein remains stable until the expiry date when stored at -80 °C. Aliquot reconstituted protein to avoid repeated freezing/thawing cycles and store at -80 °C for long term storage. Reconstituted protein can be stored at 4 °C for a week.

Quality Control Test

BCA to determine quantity of the protein.
SDS PAGE to determine purity of the protein. Endotoxin level determination.

Note

This product is intended for research use only.

Summary

Research topic

Chronic renal failure, Coronary artery disease, Diabetology - Other Relevant Products, Energy metabolism and body weight regulation

Summary

Adiponectin, also referred to as Acrp30, AdipoQ and GBP-28, is a recently discovered 244 aminoacid protein, the product of the apM1 gene, which is physiologically active and specifically and highly expressed in adipose cells. The protein belongs to the soluble defence collagen superfamily; it has a collagen-like domain structurally homologous with collagen VIII and X and complement factor C1q-like globular domain. Adiponectin forms homotrimers, which are the building blocks for higher order complexes found circulating in serum. Together, these complexes make up approximately 0.01% of total serum protein. Adiponectin receptors AdipoR1 and AdipoR2 have been recently cloned; AdipoR1 is abundantly expressed in skeletal muscle, whereas AdipoR2 is predominantly expressed in the liver. Paradoxically, adipose tissue-expressed adiponectin levels are inversely related to the degree of adiposity. Adiponectin concentrations correlate negatively with glucose, insulin, triglyceride concentrations, liver fat content and body mass index and positively with high-density lipoprotein-cholesterol levels, hepatic insulin sensitivity and insulin-stimulated glucose disposal. Adiponectin has been shown to increase insulin sensitivity and decrease plasma glucose by increasing tissue fat oxidation. Of particular interest is that low adiponectin serum levels predict type 2 diabetes independent of other risk factors. Adiponectin also inhibits the inflammatory processes of atherosclerosis suppressing the expression of adhesion and cytokine molecules in vascular endothelial cells and macrophages, respectively. This adipokine plays a role as a scaffold of newly formed collagen in myocardial remodelling after ischaemic injury and also stimulates angiogenesis by promoting cross-talk between AMP-activated protein kinase and Akt signalling in endothelial cells. Low serum adiponectin levels are found in patients with coronary artery disease. Moreover, high circulating levels of adiponectin are associated with decreased risk of myocardial infarction, independent of other factors. Altogether, adiponectin has the potential to become a clinically relevant parameter to be measured routinely in subjects at risk for type 2 diabetes, atherosclerosis and the metabolic syndrome.

Product References (17)

References

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Conde J, Gomez R, Bianco G, Scotece M, Lear P, Dieguez C, Gomez-Reino J, Lago F, Gualillo O. Expanding the adipokine network in cartilage: identification and regulation of novel factors in human and murine chondrocytes. Ann Rheum Dis. 2011 Mar;70(3):551-9. doi: 10.1136/ard.2010.132399. Epub 2011 Jan 7. PubMed PMID: 21216818. See more on PubMed
Berger E, Rome S, Vega N, Ciancia C, Vidal H. Transcriptome profiling in response to adiponectin in human cancer-derived cells. Physiol Genomics. 2010 Sep;42A(1):61-70. doi: 10.1152/physiolgenomics.00013.2010. Epub 2010 Jun 22. PubMed PMID: 20571111. See more on PubMed
Maillard V, Uzbekova S, Guignot F, Perreau C, Ramé C, Coyral-Castel S, Dupont J. Effect of adiponectin on bovine granulosa cell steroidogenesis, oocyte maturation and embryo development. Reprod Biol Endocrinol. 2010 Mar 10;8:23. doi: 10.1186/1477-7827-8-23. PubMed PMID: 20219117. PubMed CentralPMCID: PMC2845137. See more on PubMed
Murdolo G, Hammarstedt A, Schmelz M, Jansson PA, Smith U. Acute hyperinsulinemia differentially regulates interstitial and circulating adiponectin oligomeric pattern in lean and insulin-resistant, obese individuals. J Clin Endocrinol Metab. 2009 Nov;94(11):4508-16. doi: 10.1210/jc.2009-0431. Epub 2009 Oct 9. PubMed PMID: 19820029. See more on PubMed
Sell H, Laurencikiene J, Taube A, Eckardt K, Cramer A, Horrighs A, Arner P, Eckel J. Chemerin is a novel adipocyte-derived factor inducing insulin resistance in primary human skeletal muscle cells. Diabetes. 2009 Dec;58(12):2731-40. doi: 10.2337/db09-0277. Epub 2009 Aug 31. PubMed PMID: 19720798. PubMed CentralPMCID: PMC2780878. See more on PubMed
Folco EJ, Rocha VZ, López-Ilasaca M, Libby P. Adiponectin inhibits pro-inflammatory signaling in human macrophages independent of interleukin-10. J Biol Chem. 2009 Sep 18;284(38):25569-75. doi: 10.1074/jbc.M109.019786. Epub 2009 Jul 18. PubMed PMID: 19617629. PubMed CentralPMCID: PMC2757958. See more on PubMed
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Rodriguez PC, Ernstoff MS, Hernandez C, Atkins M, Zabaleta J, Sierra R, Ochoa AC. Arginase I-producing myeloid-derived suppressor cells in renal cell carcinoma are a subpopulation of activated granulocytes. Cancer Res. 2009 Feb 15;69(4):1553-60. doi: 10.1158/0008-5472.CAN-08-1921. Epub 2009 Feb 5. PubMed PMID: 19201693. PubMed CentralPMCID: PMC2900845. See more on PubMed
Kamio N, Akifusa S, Yamaguchi N, Yamashita Y. Induction of granulocyte colony-stimulating factor by globular adiponectin via the MEK-ERK pathway. Mol Cell Endocrinol. 2008 Sep 24;292(1-2):20-5. doi: 10.1016/j.mce.2008.05.002. Epub 2008 May 9. PubMed PMID: 18555587. See more on PubMed
Jalovaara K, Santaniemi M, Timonen M, Jokelainen J, Kesäniemi YA, Ukkola O, Keinänen-Kiukaanniemi S, Rajala U. Low serum adiponectin level as a predictor of impaired glucose regulation and type 2 diabetes mellitus in a middle-aged Finnish population. Metabolism. 2008 Aug;57(8):1130-4. doi: 10.1016/j.metabol.2008.03.019. PubMed PMID: 18640392. See more on PubMed
Mahadev K, Wu X, Donnelly S, Ouedraogo R, Eckhart AD, Goldstein BJ. Adiponectin inhibits vascular endothelial growth factor-induced migration of human coronary artery endothelial cells. Cardiovasc Res. 2008 May 1;78(2):376-84. doi: 10.1093/cvr/cvn034. Epub 2008 Feb 10. PubMed PMID: 18267956. See more on PubMed
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Summary References (17)

References to Adiponectin

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Wang Y, Lam KS, Xu JY, Lu G, Xu LY, Cooper GJ, Xu A. Adiponectin inhibits cell proliferation by interacting with several growth factors in an oligomerization-dependent manner. J Biol Chem. 2005, 280, 18341–18347.
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Ishikawa Y, Akasaka Y, Ishii T, Yoda-Murakami M, Choi-Miura NH, Tomita M, Ito K, Zhang L, Akishima Y, Ishihara M, Muramatsu M, Taniyama M. Changes in the distribution pattern of gelatinbinding protein of 28 kDa (adiponectin) in myocardial remodelling after ischaemic injury. Histopathology. 2003, 42, 43–52.
Diez JJ, Iglesias P. The role of the novel adipocyte-derived hormone adiponectin in human disease. Eur J Endocrinol. 2003, 148, 293–300.
Waki H, Yamauchi T, Kamon J, Ito Y, Uchida S, Kita S, Hara K, Hada Y, Vasseur F, Froguel P, Kimura S, Nagai R, Kadowaki T. Impaired multimerization of human adiponectin mutants associated with diabetes. Molecular structure and multimer formation of adiponectin. J Biol Chem. 2003, 278, 40352–40363.
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Yamauchi T, Kamon J, Waki H, Imai Y, Shimozawa N, Hioki K, Uchida S, Ito Y, Takakuwa K, Matsui J, Takata M, Eto K, Terauchi Y, Komeda K, Tsunoda M, Murakami K, Ohnishi Y, Naitoh T, Yamamura K, Ueyama Y, Froguel P, Kimura S, Nagai R, Kadowaki T. Globular adiponectin protected ob/ob mice from diabetes and ApoE-deficient mice from atherosclerosis. J Biol Chem. 2003, 278, 2461–2468.
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Pajvani UB, Du X, Combs TP, Berg AH, Rajala MW, Schulthess T, Engel J, Brownlee M, Scherer PE. Structure-function studies of the adipocyte-secreted hormone Acrp30/adiponectin. Implications for metabolic regulation and bioactivity. J Biol Chem. 2003, 278, 9073–9085.
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Wang Y, Xu A, Knight C, Xu LY, Cooper GJ. Hydroxylation and glycosylation of the four conserved lysine residues in the collagenous domain of adiponectin. Potential role in the modulation of its insulin-sensitizing activity. J Biol Chem. 2002, 277, 19521–19529.
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Das K, Lin Y, Widen E, Zhang

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