Product Name: HSP60
Product Number: AB-NN059-5
Size: | 25 µg | | Price: | 89.00 |
| | | $US | |
Target Full Name: 60 kDa heat shock protein, mitochondrial
Target Alias: CPN60; GROEL; HLD4; HSP 60; HSP65; HSPD1; HuCHA60; SPG 13
Product Type Specific: Heat shock/stress protein pan-specific antibody
Antibody Code: NN059-5
Antibody Target Type: Pan-specific
Protein UniProt: P10809 Protein SigNET: P10809 Antibody Type: Polyclonal
Antibody Host Species: Rabbit
Antibody Ig Isotype Clone: N/A
Antibody Immunogen Source: Human HSP60 produced through recombinant DNA methods in E.coli
Production Method: Protein A purified
Antibody Modification: Unconjugated. Contact KInexus if you are interest in having the antibody biotinylated or coupled with fluorescent dyes.
Antibody Concentration: 1 mg/ml
Storage Buffer: Phosphate buffered saline, 50% glycerol, 0.09% sodium azide
Storage Conditions: For long term storage, keep frozen at -40°C or lower. Stock solution can be kept at +4°C for more than 3 months. Avoid repeated freeze-thaw cycles.
Product Use: Western blotting | Immunohistochemistry | Immunoprecipitation | ELISA
Antibody Dilution Recommended: WB (1:1000), ICC/IF (1:100); optimal dilutions for assays should be determined by the user.
Antibody Potency: Detects a ~60 kDa protein in cell and tissue lysates by Western blotting.
Antibody Species Reactivity: Human | Mouse | Rat | Bovine | Dog | Chicken | Rabbit
Antibody Positive Control: 1 µg/ml of SPC-105 was sufficient for detection of HSP60 in 20 µg of heat shocked HeLa cell lysate by colorimetric immunoblot analysis using goat anti-mouse IgG as the secondary antibody.
Related Product 1: HSP60 pan-specific antibody (Cat. No.: AB-NN059-3) Related Product 2: HSP60 pan-specific antibody (Cat. No.: AB-NN059-4)
Scientific Background: In both prokaryotic and eukaryotic cells, the misfolding and aggregation of proteins during biogenesis and under conditions of cellular stress are prevented by molecular chaperones. Members of the HSP60 family of heat shock proteins are some of the best characterized chaperones. HSP60, also known as Cpn60 or GroEl, is an abundant protein synthesized constitutively in the cell that is induced to a higher concentration after brief cell shock. It is present in many species and exhibits a remarkable sequence homology among various counterparts in bacteria, plants, and mammals with more than half of the residues identical between bacterial and mammalian HSP60 (1-3). Whereas mammalian HSP60 is localized within the mitochondria, plant HSP60, or otherwise known as Rubisco-binding protein, is located in plant chloroplasts. It has been indicated that these proteins carry out a very important biological function due to the fact that HSP60 is present in so many different species. The common characteristics of the HSP60s from the divergent species are i) high abundance, ii) induction with environmental stress such as heat shock, iii) homo-oligomeric structures of either 7 or 14 subunits which reversibly dissociate in the presence of Mg2+ and ATP, iv) ATPase activity and v) a role in folding and assembly of oligomeric protein structures (4). These similarities are supported by recent studies where the single-ring human mitochondrial homolog, HSP60 with its co-chaperonin, HSP10 were expressed in a E. coli strain, engineered so that the groE operon is under strict regulatory control. This study has demonstrated that expression of HSP60-HSP10 was able to carry out all essential in vivo functions of GroEL and its co-chaperonin, GroES (5). HSP60 has however been linked to a number of autoimmune diseases, as well as Alzheimer's, coronary artery diseases, MS, and diabetes (6-9).
References[1] Hartl, F.U. (1996) Nature 381: 571-579.[2] Bukau, B. and Horwich, A.L. (1998) Cell 92: 351-366.[3] Hartl, F.U. and Hayer-Hartl, M. (2002) Science 295: 1852- 1858.[4] Jindal, S. et al. (1989) Molecular and Cellular Biology 9: 2279-2283.[5] La Verda, D., et al (1999) Infect Dis. Obstet. Gynecol. 7: 64-71.[6] Itoh, H. et al. (2002) Eur. J. Biochem. 269: 5931-5938.[7] Gupta, S. and Knowlton, A.A. J. Cell Mol Med. 9: 51-58.[8] Lai, H.C. et al. (2007) Am. J. Physiol. Endocrinol. Metab. 292: E292-E297.