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AB133060

HSP70 ELISA Kit

4

(1 Review)

|

(11 Publications)

HSP70 ELISA Kit is a Sandwich (quantitative) ELISA for the measurement of HSP70 in Human, Mouse, Rat in Cell/Tissue Extracts samples.

View Alternative Names

HSP72, HSPA1, HSX70, HSPA1A, Heat shock 70 kDa protein 1A, Heat shock 70 kDa protein 1, Heat shock protein family A member 1A, HSP70-1, HSP70.1

1 Images
Sandwich ELISA - HSP70 ELISA Kit (AB133060)
  • sELISA

Supplier Data

Sandwich ELISA - HSP70 ELISA Kit (AB133060)

Representative Standard Curve using ab133060.

Key facts

Detection method

Colorimetric

Sample types

Tissue Extracts, Cell Lysate

Reacts with

Mouse, Rat, Human

Assay type

Sandwich (quantitative)

Sensitivity

= 200 pg/mL

Range

780 - 50000 pg/mL

Assay time

4h 30m

Assay Platform

Microplate

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Reactivity data

{ "title": "Reactivity Data", "filters": { "stats": ["", "Reactivity", "Dilution Info", "Notes"] }, "values": { "sELISA": { "reactivity":"TESTED_AND_REACTS", "dilution-info":"", "notes":"<p></p>" } } }
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Product details

HSP70 ELISA kit is designed for the accurate quantitative measurement of HSP70 in samples from Human, Mouse and Rat origins. This assay allows for the quantitative determination of inducible HSP70 from cell lysates and tissue extracts. Please use ab133061 for the detection of Hsp70 in serum and plasma samples.

A HSP70 monoclonal antibody has been precoated onto 96-well plates. Standards or test samples are added to the wells, incubated and then washed. A HSP70 polyclonal antibody is then added, incubated and washed. An HRP conjugated anti-IgG antibody is then added, incubated. The plate is washed once more and the TMB substrate is then added which HRP catalyzes, generating a blue coloration after incubation. A stop solution is added which generates conversion to yellow color read at 450 nm which is proportional to the amount of analyte bound.

Get higher sensitivity in only 90 minutes with Human HSP70 ELISA Kit (ab187399) from our SimpleStep ELISA® range.

Inducible heat shock protein 70 (HSP70) is a stress protein whose expression is upregulated when the cell or organism is placed under conditions of stress. HSP70 is essential for cellular recovery, survival, and maintenance of normal cellular function. It is also a molecular chaperone that prevents protein aggregation and refolds damaged proteins in response to cellular stress caused by environmental insults, pathogens, and disease. Current research is aimed at exploiting HSP70's cellular protective abilities as a therapeutic strategy against damaging cellular stress.

In most mammals, the expression of inducible HSP70 is strictly stress inducible and can only be detected following a significant stress upon the cell or organism. However, in humans and primates, inducible HSP70 is present at basal levels and is upregulated in response to stress. The role of HSP70 has been studied in a variety of medically relevant models or conditions such as hyperthermia, hypertension, toxic exposure to chemical agents, hypoxia, ischemia, inflammation, autoimmunity, apoptosis, cancer, organ transplantation, and bacterial and viral infections. HSP70 has also been studied in the normal processes of aging, spermatogenesis, menstruation, and physical activity such as exercise.

REACH authorisation
Abcam has not and does not intend to apply for the REACH Authorisation of customers' uses of products that contain European Authorisation list (Annex XIV) substances.
It is the responsibility of our customers to check the necessity of application of REACH Authorisation, and any other relevant authorisations, for their intended uses.

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Precision

[ { "reproducibilityType": "Inter", "sample": "Overall", "replicates": 9, "mean": null, "standardDeviation": null, "coefficientOfVariability": "< 13" }, { "reproducibilityType": "Intra", "sample": "Overall", "replicates": 24, "mean": null, "standardDeviation": null, "coefficientOfVariability": "< 5" } ]
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Recovery

[ { "sample": "Tissue Extracts", "range": null, "average": ">= 90" }, { "sample": "Cell Lysate", "range": null, "average": ">= 90" } ]
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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
Multi
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.

HSP70 also known as Heat Shock Protein 70 is a highly conserved molecular chaperone with a mass of approximately 70 kDa. The protein plays an important role in maintaining protein homeostasis by assisting in the proper folding of nascent and stress-denatured proteins. It is ubiquitously expressed in the cytoplasm and mitochondria of both prokaryotic and eukaryotic cells. The expression of HSP70 rapidly increases in response to stressors such as heat infection and inflammation providing a protective mechanism for the cell.
Biological function summary

Heat Shock Protein 70 assists in the protection of cells from protein aggregation and assists in the degradation of unstable proteins. As part of a larger molecular chaperone complex HSP70 interacts with co-chaperones like HSP40 and Bag1 to mediate these functions. Its role extends to modulating apoptosis and initiating repair mechanisms under cellular stress. The balance between its anti-apoptotic and pro-survival functions is essential in cell survival during stress conditions.

Pathways

Heat Shock Protein 70 participates significantly in the cellular stress response and protein repair pathways. It integrates into the protein quality control pathway where it collaborates with other chaperone proteins such as HSP90. This coordination ensures proper protein folding and prevents aggregation therefore maintaining cell function and integrity. Additionally HSP70 is involved in the NF-kB signaling pathway regulating stress-induced transcription factors and influencing inflammation and immune responses.

Heat Shock Protein 70 has connections to cancer and neurodegenerative diseases. In cancer HSP70 proteins can support tumor growth by inhibiting apoptosis and may contribute to resistance against chemotherapy. They interact notably with proteins like p53 in this context. While in neurodegenerative diseases like Alzheimer's HSP70 aids in preventing the aggregation of neurotoxic proteins such as tau and amyloid-beta therefore potentially slowing disease progression. Understanding these interactions emphasizes the duality of HSP70 as both protective in normal cells and potentially harmful in pathological states.
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Product protocols

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Target data

Molecular chaperone implicated in a wide variety of cellular processes, including protection of the proteome from stress, folding and transport of newly synthesized polypeptides, activation of proteolysis of misfolded proteins and the formation and dissociation of protein complexes. Plays a pivotal role in the protein quality control system, ensuring the correct folding of proteins, the re-folding of misfolded proteins and controlling the targeting of proteins for subsequent degradation. This is achieved through cycles of ATP binding, ATP hydrolysis and ADP release, mediated by co-chaperones. The co-chaperones have been shown to not only regulate different steps of the ATPase cycle, but they also have an individual specificity such that one co-chaperone may promote folding of a substrate while another may promote degradation. The affinity for polypeptides is regulated by its nucleotide bound state. In the ATP-bound form, it has a low affinity for substrate proteins. However, upon hydrolysis of the ATP to ADP, it undergoes a conformational change that increases its affinity for substrate proteins. It goes through repeated cycles of ATP hydrolysis and nucleotide exchange, which permits cycles of substrate binding and release. The co-chaperones are of three types : J-domain co-chaperones such as HSP40s (stimulate ATPase hydrolysis by HSP70), the nucleotide exchange factors (NEF) such as BAG1/2/3 (facilitate conversion of HSP70 from the ADP-bound to the ATP-bound state thereby promoting substrate release), and the TPR domain chaperones such as HOPX and STUB1 (PubMed : 24012426, PubMed : 24318877, PubMed : 26865365). Maintains protein homeostasis during cellular stress through two opposing mechanisms : protein refolding and degradation. Its acetylation/deacetylation state determines whether it functions in protein refolding or protein degradation by controlling the competitive binding of co-chaperones HOPX and STUB1. During the early stress response, the acetylated form binds to HOPX which assists in chaperone-mediated protein refolding, thereafter, it is deacetylated and binds to ubiquitin ligase STUB1 that promotes ubiquitin-mediated protein degradation (PubMed : 27708256). Regulates centrosome integrity during mitosis, and is required for the maintenance of a functional mitotic centrosome that supports the assembly of a bipolar mitotic spindle (PubMed : 27137183). Enhances STUB1-mediated SMAD3 ubiquitination and degradation and facilitates STUB1-mediated inhibition of TGF-beta signaling (PubMed : 24613385). Essential for STUB1-mediated ubiquitination and degradation of FOXP3 in regulatory T-cells (Treg) during inflammation (PubMed : 23973223). Required as a co-chaperone for optimal STUB1/CHIP ubiquitination of NFATC3 (By similarity). Negatively regulates heat shock-induced HSF1 transcriptional activity during the attenuation and recovery phase period of the heat shock response (PubMed : 9499401). Involved in the clearance of misfolded PRDM1/Blimp-1 proteins. Sequesters them in the cytoplasm and promotes their association with SYNV1/HRD1, leading to proteasomal degradation (PubMed : 28842558).. (Microbial infection) In case of rotavirus A infection, serves as a post-attachment receptor for the virus to facilitate entry into the cell.
See full target information HSPA1A

Additional targets

HSPA1B
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Publications (11)

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

Nature communications 16:829 PubMed39827193

2025

Lymphatic platelet thrombosis limits bone repair by precluding lymphatic transporting DAMPs.

Applications

Unspecified application

Species

Unspecified reactive species

Yangkang Zheng,Lin Cong,Li Zhao,Pengyu Wang,Lianping Xing,Junling Liu,Hao Xu,Ning Li,Yongjian Zhao,Luying Yuan,Qi Shi,Xueqing Sun,Qianqian Liang,YongJun Wang

World journal of diabetes 15:2123-2134 PubMed39493567

2024

Effect of cuproptosis on acute kidney injury after cardiopulmonary bypass in diabetic patients.

Applications

Unspecified application

Species

Unspecified reactive species

Xi-Jin Deng,Yi-Nan Wang,Chuan-Bao Lv,Zhong-Zhi Qiu,Ling-Xin Zhu,Jing-Hui Shi,Si-Ri-Gu-Leng Sana

World journal of gastrointestinal oncology 16:3118-3157 PubMed39072171

2024

Kombo knife combined with sorafenib in liver cancer treatment: Efficacy and safety under immune function influence.

Applications

Unspecified application

Species

Unspecified reactive species

Yang Cao,Pei-Pei Li,Bing-Li Qiao,Quan-Wang Li

Frontiers in immunology 15:1326137 PubMed38469295

2024

USP50 regulates NLRP3 inflammasome activation in duodenogastric reflux-induced gastric tumorigenesis.

Applications

Unspecified application

Species

Unspecified reactive species

Chenye Zhao,Mingchao Mu,Xiaopeng Li,Zepeng Dong,Jiahao Wang,Chengzhi Yao,Jianbao Zheng,Xuejun Sun,Junhui Yu

Nature 625:557-565 PubMed38172636

2024

Na1.7 as a chondrocyte regulator and therapeutic target for osteoarthritis.

Applications

Unspecified application

Species

Unspecified reactive species

Wenyu Fu,Dmytro Vasylyev,Yufei Bi,Mingshuang Zhang,Guodong Sun,Asya Khleborodova,Guiwu Huang,Libo Zhao,Renpeng Zhou,Yonggang Li,Shujun Liu,Xianyi Cai,Wenjun He,Min Cui,Xiangli Zhao,Aubryanna Hettinghouse,Julia Good,Ellen Kim,Eric Strauss,Philipp Leucht,Ran Schwarzkopf,Edward X Guo,Jonathan Samuels,Wenhuo Hu,Mukundan Attur,Stephen G Waxman,Chuan-Ju Liu

Brain and behavior 13:e2861 PubMed36573756

2022

Exogenous recombinant Hsp70 attenuates sevoflurane anesthesia-induced cognitive dysfunction in aged mice.

Applications

Unspecified application

Species

Unspecified reactive species

Yongxiang Xie,Jianzhong Huang,Yijia Chen

Neurotrauma reports 2:370-380 PubMed34901937

2021

Blood-Based Brain and Global Biomarker Changes after Combined Hypoxemia and Hemorrhagic Shock in a Rat Model of Penetrating Ballistic-Like Brain Injury.

Applications

Unspecified application

Species

Unspecified reactive species

Xue Li,Kevin Pierre,Zhihui Yang,Lynn Nguyen,Gabrielle Johnson,Juliana Venetucci,Isabel Torres,Brandon Lucke-Wold,Yuan Shi,Angela Boutte,Deborah Shear,Lai Yee Leung,Kevin K W Wang

Cancers 13: PubMed34298823

2021

Synergistic Effect Induced by Gold Nanoparticles with Polyphenols Shell during Thermal Therapy: Macrophage Inflammatory Response and Cancer Cell Death Assessment.

Applications

Unspecified application

Species

Unspecified reactive species

Valeria De Matteis,Mariafrancesca Cascione,Loris Rizzello,Daniela Erminia Manno,Claudia Di Guglielmo,Rosaria Rinaldi

Journal of translational medicine 15:252 PubMed29237455

2017

Molecular and histological effects of MR-guided pulsed focused ultrasound to the rat heart.

Applications

Unspecified application

Species

Unspecified reactive species

Kee W Jang,Tsang-Wei Tu,Matthew E Nagle,Bobbi K Lewis,Scott R Burks,Joseph A Frank

Journal of child neurology 32:41-45 PubMed27664194

2016

Cognitive Function and Heat Shock Protein 70 in Children With Temporal Lobe Epilepsy.

Applications

sELISA

Species

Human

Azza M Oraby,Ehab R Abdol Raouf,Mostafa M El-Saied,Maha K Abou-Khadra,Suzette I Helal,Adel F Hashish
View all publications
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