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StressMarq/Anti-HSP70 Antibody [C92F3A-5]/SMC-100B-P594/200-µg
Overview:
Product Name | HSP70 Antibody | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Description | Mouse Anti-Human HSP70 Monoclonal IgG | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Species Reactivity | Dog, Human, Monkey, Mouse, Rat, Bovine, Carp (Cypriniformes), Chicken, Fruit Fly (Drosophila melanogaster), Guinea Pig (Cavia porcellus), Hamster, Nematode (Caenorhabditis elegans), Pig, Rabbit, Sheep | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Applications | WB, IHC, ICC/IF, ELISA, FCM, FACS, IEM, Bl, AM | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Antibody Dilution | WB (1:1000), IHC (1:10000), ICC/IF (1:1000), FACS (1:1000); optimal dilutions for assays should be determined by the user. | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Host Species | Mouse | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Immunogen Species | Human | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Immunogen | Human HSP70 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Concentration | 1 mg/ml | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Conjugates |
Alkaline Phosphatase, APC, ATTO 390, ATTO 488, ATTO 565, ATTO 594, ATTO 633, ATTO 655, ATTO 680, ATTO 700, Biotin, FITC, HRP, PE/ATTO 594, PerCP, RPE, Streptavidin, Unconjugated
StreptavidinProperties:
Streptavidin Datasheet BiotinProperties:
Biotin Datasheet HRP (Horseradish peroxidase)Properties:
HRP Datasheet AP (Alkaline Phosphatase)Properties:
AP Datasheet
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Properties
Storage Buffer | PBS pH7.4, 50% glycerol, 0.1% sodium azide |
Storage Temperature | -20ºC |
Shipping Temperature | Blue Ice or 4ºC |
Purification | Protein G Purified |
Clonality | Monoclonal |
Clone Number | C92F3A-5 |
Isotype | IgG |
Specificity | Detects ~70kDa. Does not cross-react with HSC70 (HSP73). |
Cite This Product | StressMarq Biosciences Cat# SMC-100, RRID: AB_854199 |
Certificate of Analysis | 1 µg/ml of SMC-100 was sufficient for detection of HSP70 in 20 µg of heat shocked HeLa cell lysate by colorimetric immunoblot analysis using Goat anti-mouse IgG:HRP as the secondary antibody. |
Biological Description
Alternative Names | HSP70 1 Antibody, HSP70 2 Antibody, HSP70.1 Antibody, HSP72 Antibody, HSPA1 Antibody, HSPA1A Antibody, HSPA1B Antibody |
Research Areas | Cancer, Heat Shock |
Cellular Localization | Cytoplasm |
Accession Number | NP_005336.3 |
Gene ID | 3303 |
Swiss Prot | P08107 |
Scientific Background | HSP70 genes encode abundant heat-inducible 70-kDa HSPs (HSP70s). In most eukaryotes HSP70 genes exist as part of a multigene family. They are found in most cellular compartments of eukaryotes including nuclei, mitochondria, chloroplasts, the endoplasmic reticulum and the cytosol, as well as in bacteria. The genes show a high degree of conservation, having at least 50% identity (2). The N-terminal two thirds of HSP70s are more conserved than the C-terminal third. HSP70 binds ATP with high affinity and possesses a weak ATPase activity which can be stimulated by binding to unfolded proteins and synthetic peptides (3). When HSC70 (constitutively expressed) present in mammalian cells was truncated, ATP binding activity was found to reside in an N-terminal fragment of 44 kDa which lacked peptide binding capacity. Polypeptide binding ability therefore resided within the C-terminal half (4). The structure of this ATP binding domain displays multiple features of nucleotide binding proteins (5). All HSP70s, regardless of location, bind proteins, particularly unfolded ones. The molecular chaperones of the HSP70 family recognize and bind to nascent polypeptide chains as well as partially folded intermediates of proteins preventing their aggregation and misfolding. The binding of ATP triggers a critical conformational change leading to the release of the bound substrate protein (6). The universal ability of HSP70s to undergo cycles of binding to and release from hydrophobic stretches of partially unfolded proteins determines their role in a great variety of vital intracellular functions such as protein synthesis, protein folding and oligomerization and protein transport. For more information visit our HSP70 Scientific Resource Guide at http://www.HSP70.com. |
References |
1. Welch W.J. and Suhan J.P. (1986) J Cell Biol. 103: 2035-2050. 2. Boorstein W. R., Ziegelhoffer T. & Craig E. A. (1993) J.Mol. Evol. 38(1): 1-17. 3. Rothman J. (1989) Cell 59: 591-601. 4. DeLuca-Flaherty et al. (1990) Cell 62: 875-887. 5. Bork P., Sander C. & Valencia A. (1992) Proc. Nut1 Acad. Sci. USA 89: 7290-7294. 6. Fink A.L. (1999) Physiol. Rev. 79: 425-449. 7. Galan A., et al. (2000) J. Biol. Chem. 275: 11418-11424. 8. Kondo T., et al. (2000) J. Biol. Chem. 275: 8872-8879. 9. Misaki T., et al. (1994) Clin. Exp. Immun. 98: 234-239. 10. Pockley A.G., et al. (1998) Immunol. Invest. 27: 367-377. 11. Moon I.S., et al. (2001) Cereb Cortex 11(3): 238-248. 12. Dressel et al. (2000) J. Immunol. 164: 2362-2371. 13. Verma A.K., et al. (2007) Fish and Shellfish Immunology. 22(5): 547-555. 14. Banduseela V.C., et al. (2009) Physiol Genomics. 39(3): 141-159. |
Product Images
Immunohistochemistry analysis using Mouse Anti-Hsp70 Monoclonal Antibody, Clone C92 (SMC-100). Tissue: colon carcinoma. Species: Mouse. Fixation: Formalin. Primary Antibody: Mouse Anti-Hsp70 Monoclonal Antibody (SMC-100) at 1:10000 for 12 hours at 4°C. Secondary Antibody: Biotin Goat Anti-Mouse at 1:2000 for 1 hour at RT. Counterstain: Mayer Hematoxylin (purple/blue) nuclear stain at 200 µl for 2 minutes at RT. Localization: Inflammatory cells. Magnification: 40x.
Immunocytochemistry/Immunofluorescence analysis using Mouse Anti-Hsp70 Monoclonal Antibody, Clone C92 (SMC-100). Tissue: Heat Shocked Melanoma cells. Species: Mouse. Fixation: Formalin. Primary Antibody: Mouse Anti-Hsp70 Monoclonal Antibody (SMC-100) at 1:1000 for 16 hours at RT. Secondary Antibody: Biotin Goat Anti-Mouse. Courtesy of: Dr. Ewa Malusecka, Maria Sklodowska-Curie Memorial Cancer Ceter and Inst. Of Oncology, Poland.
Immunohistochemistry analysis using Mouse Anti-Hsp70 Monoclonal Antibody, Clone C92 (SMC-100). Tissue: colon carcinoma. Species: Human. Fixation: Formalin. Primary Antibody: Mouse Anti-Hsp70 Monoclonal Antibody (SMC-100) at 1:10000 for 12 hours at 4°C. Secondary Antibody: Biotin Goat Anti-Mouse at 1:2000 for 1 hour at RT. Counterstain: Mayer Hematoxylin (purple/blue) nuclear stain at 200 µl for 2 minutes at RT. Localization: Inflammatory cells. Magnification: 40x.
Western Blot analysis of Human cell lysates from various cell lines showing detection of Hsp70 protein using Mouse Anti-Hsp70 Monoclonal Antibody, Clone C92 (SMC-100). Load: 15 µg protein. Block: 1.5% BSA for 30 minutes at RT. Primary Antibody: Mouse Anti-Hsp70 Monoclonal Antibody (SMC-100) at 1:1000 for 2 hours at RT. Secondary Antibody: Sheep Anti-Mouse IgG: HRP for 1 hour at RT.
Fluorescence Activated Cell Sorting analysis using Mouse Anti-Hsp70: FITC Monoclonal Antibody, Clone C92 (SMC-100). Tissue: Heat Shocked CD3+ CD8+ T cells . Species: Mouse. Primary Antibody: Mouse Anti-Hsp70: FITC Monoclonal Antibody (SMC-100) at 1:1000. Courtesy of: Cheryl Cameron, Vaccine and Gene Therapy Instit. Florida.
Product Citations (56)
Western Blot
Abrogation of heat shock factor 1 (Hsf1) phosphorylation deregulates its activity and lowers activation threshold, leading to obesity in mice.
Jin, X., Qiao, A., Moskophidis, D. and Mivechi, N.F. (2017) J Biol Chem. [Epub ahead of print].
PubMed ID: 28724629 Reactivity Mouse Applications: Western Blot
The transcriptional regulator of the chaperone response HSF1 controls hepatic bioenergetics and protein homeostasis.
Qiao, A., Jin, X., Pang, J., Moskophidis, D. and Mivechi, N.f. (2017) J Cell Biol. 216(3):723-741.
PubMed ID: 28183717 Reactivity Mouse Applications: Western Blot
TRIM32-Cytoplasmic-Body Formation Is an ATP-Consuming Process Stimulated by HSP70 in Cells.
Kawaguchi, Y. et al. (2017) PLoS One. 12(1):e0169436.
PubMed ID: 28052117 Reactivity Human Applications: Western Blot
Heat shock protein 90 ensures efficient mumps virus replication by assisting with viral polymerase complex formation
Katoh, H. et al. (2017) J Virol. pii: JVI.02220-16.
PubMed ID: 28053100 Reactivity Human Applications: Western Blot
Senkyunolide I attenuates oxygen-glucose deprivation/reoxygenation-induced inflammation in microglial cells.
Hu, Y.Y. et al. (2016) Brain Res. 1649(Pt A):123-131.
PubMed ID: 27524398 Reactivity Mouse Applications: Western Blot
Effects of Long-Term Exposure to 60 GHz Millimeter-Wavelength Radiation on the Genotoxicity and Heat Shock Protein (Hsp) Expression of Cells Derived from Human Eye.
Koyama, S. et al. (2016) Int J Environ Res Public Health. 13(8). pii: E802.
PubMed ID: 27509516 Reactivity Human Applications: Western Blot
Twenty Four-Hour Exposure to a 0.12 THz Electromagnetic Field Does Not Affect the Genotoxicity, Morphological Changes, or Expression of Heat Shock Protein in HCE-T Cells.
Koyama, S. et al. (2016) Int J Environ Res Public Health. 13(8). pii: E802.
PubMed ID: 27527204 Reactivity Human Applications: Western Blot
Heat Shock Factor 1 is a Substrate for p38 Mitogen-Activated Protein Kinases.
Dayalan Naidu, S. et al. (2016) Mol Cell Biol. 36(18):2403-17.
PubMed ID: 27354066 Reactivity Human Applications: Western Blot
Expression of Heat Shock Proteins in Human Fibroblast Cells under Magnetic Resonant Coupling Wireless Power Transfer.
Mizuno, K., Shinohara, N. and Miyakoshi, J. (2015) Energise. 8(10): 12020-12028.
PubMed ID: N/A Reactivity Human Applications: Western Blot
Critical Illness Myopathy: Understanding different effects on muscle fibre function.
Ogilvie, H. (2015) Karolinska Institutet. PhD Dissertation.
PubMed ID: N/A Reactivity Rat Applications: Western Blot
Heat shock protein 70 regulates degradation of the mumps virus phosphoprotein via the ubiquitin-proteasome pathway.
Katoh, H. et al. (2014) J Virol. 89(6):3188-99.
PubMed ID: 25552722 Reactivity Human Applications: Western Blot
Heat-induced expression of the immediate-early gene IER5 and its involvement in the proliferation of heat-shocked cells.
Ishikawa, Y. and Sakurai, H. (2014) FEBS J. 282(2):332-40.
PubMed ID: 25355627 Reactivity Human Applications: Western Blot
Prostaglandin E Synthase Interacts with Inducible Heat Shock Protein 70 After Heat Stress in Bovine Primary Dermal Fibroblast Cells.
Richter, C., Viergutz, T., Schwerin, M. and Weitzel, J.M. (2014) Cytometry A. 87(1):61-7.
PubMed ID: 25412999 Reactivity Bovine Applications: Western Blot
Inhibition of autophagy, lysosome and VCP function impairs stress granule assembly.
Seguin, S.J. et al. (2014) Cell Death Differ. 21(12):1838-51.
PubMed ID: 25034784 Reactivity Human Applications: Western Blot
Fasting Enhances TRAIL-Mediated Liver Natural Killer Cell Activity via HSP70 Upregulation.
Dang, V.T.A. et al. (2014) PLoS One. 9(10): e110748.
PubMed ID: 25356750 Reactivity Mouse Applications: Western Blot
Direct binding of the Alu binding protein dimer SRP9/14 to 40S ribosomal subunits promotes stress granule formation and is regulated by Alu RNA
Berger, A. et al. (2014) Nucleic Acids Res. 42(17):11203-17.
PubMed ID: 25200073 Reactivity Human Applications: Western Blot
Therapeutic Inducers of the HSP70/HSP110 Protect Mice Against Traumatic Brain Injury.
Eroglu, B. et al. (2014) J Neurochem. 130(5):626-41.
PubMed ID: 24903326 Reactivity Mouse Applications: Western Blot
A cardiopulmonary bypass with deep hypothermic circulatory arrest rat model for the investigation of the systemic inflammation response and induced organ damage.
Engels, M. et al. (2014) J Inflamm. 11(26).
PubMed ID: 25400510 Reactivity Rat Applications: Western Blot
Moderate Alcohol Induces Stress Proteins HSF1 and hsp70 and Inhibits Proinflammatory Cytokines Resulting in Endotoxin Tolerance.
Muralidharan, S. et al. (2014) J Immunol. 193(4):1975-87.
PubMed ID: 25024384 Reactivity Human Applications: Western Blot
Masseter muscle myofibrillar protein synthesis and degradation in an experimental critical illness myopathy model.
Akkad, H., Corpeno, R., Larsson L. (2014) PLoS One. 9(4): e92622.
PubMed ID: 24705179 Reactivity Rat Applications: Western Blot
Structure-Activity Relationships for Withanolides as Inducers of the Cellular Heat-Shock Response.
Wijeratne, E.M., et al. (2014) J Med Chem. 57(7):2851-63.
PubMed ID: 24625088 Reactivity Mouse Applications: Western Blot
Detection of constitutive and inducible HSP70 proteins in formalin fixed human brain tissue.
Preusse-Prange, A., Modrow, J.H., Schwark, T., von Wurmb-Schwark, N. (2014) Forensic Sci Int. 235:62-7.
PubMed ID: 24447452 Reactivity Human Applications: Western Blot
Overexpression of Heat Shock Protein 72 Attenuates NF-κB Activation Using a Combination of Regulatory Mechanisms in Microglia.
Sheppard, P.W., Sun, X., Khammash, M., Giffard, R.G. (2014) PLoS Comput Biol. 10(2):e1003471.
PubMed ID: 24516376 Reactivity Mouse Applications: Western Blot
Effects of corticosteroids in the development of limb muscle weakness in a porcine intensive care unit model.
Aare, S. et al. (2013) Physiol Genomics. 45 (8): 312-320.
PubMed ID: 23429211 Reactivity Pig Applications: Western Blot
Iron modulates cell survival in a Ras- and MAPK-dependent manner in ovarian cells.
Bauckman, K.A., Haller, E., Flores. I., and Nanjundan, M. (2013) Cell Death Dis. 4.e592.
PubMed ID: 23598404 Reactivity Human Applications: Western Blot
Molecular and Cellular Networks in Critical Illness Associated Muscle Weakness: Skeletal Muscle Proteostasis in the Intensive Care Unit.
Banduseela, V.C. (2012) Uppsala University, Disciplinary Domain of Medicine and Pharmacy, Faculty of Medicine, Department of Neuroscience. PhD Dissertation
PubMed ID: N/A Reactivity Pig Applications: Western Blot
Influences of temperature, oxidative stress, and phosphorylation on binding of heat shock proteins in skeletal muscle fibers.
Larkins, N.T., Murphy, R.M., and Lamb, G.D. (2012) Am J Physiol Cell Physiol. 303 (6): C654-C665.
PubMed ID: 22763123 Reactivity Rat Applications: Western Blot
DnaJA1 Antagonizes Constitutive Hsp70-Mediated Stabilization of Tau.
Abisambra, J.F., et al. (2012) J.Mol.Biol. 421: 653-661.
PubMed ID: 22343013 Reactivity Human Applications: Western Blot
Hsp70 Promotes Epithelial Sodium Channel Functional Expression by Increasing Its Association with Coat Complex II and Its Exit from Endoplasmic Reticulum.
Chanoux, R.A. et al. (2012) J Biol Chem. 287, 19255-19265.
PubMed ID: 22496374 Reactivity Dog Applications: Western Blot
Using the Heat-Shock Response To Discover Anticancer Compounds that Target Protein Homeostasis.
Santagata, S. et al. (2012) ACS Chem.Biol. 7 (2): 340-349.
PubMed ID: 22050377 Reactivity Human Applications: Western Blot
Absolute amounts and diffusibility of HSP72, HSP25, and αB-crystallin in fast- and slow-twitch skeletal muscle fibers of rat.
Larkins, N.T., Murphy, R.M., and Lamb, G.D. (2011) Am J Physiol Cell Physiol. 302 (1): C228-C239.
PubMed ID: 21975426 Reactivity Rat Applications: Western Blot
Mechanisms underlying the sparing of masticatory versus limb muscle function in an experimental critical illness model.
Aare, S. et al. (2011) Physiol Genomics. 43 (24): 1334-1350.
PubMed ID: 22010006 Reactivity Pig Applications: Western Blot
Heat Shock Protein 70 Prevents both Tau Aggregation and the Inhibitory Effects of Preexisting Tau Aggregates on Fast Axonal Transport.
Patterson, K.R. et al. (2011) Biochem. 50 (47): 10300-10310.
PubMed ID: 22039833 Reactivity Human Applications: Western Blot
Withaferin A Analogs and Uses Thereof.
Gunatilaka, L., Lindquist, S.L., Whitesell, L.,Wijeratne, E.M.K., and Xu, Y. (2011) United States Patent Application US20110230551 A1.
PubMed ID: N/A Reactivity Mouse Applications: Western Blot
Preferential skeletal muscle myosin loss in response to mechanical silencing in a novel rat intensive care unit model: underlying mechanisms.
Ochala, J. et al. (2011) J Physio. 589 (8): 2007-2026.
PubMed ID: 21320889 Reactivity Rat Applications: Western Blot
Co-overexpression of Bag-1 and heat shock protein 70 in human epidermal squamous cell carcinoma: Bag-1-mediated resistance to 5-fluorouracil induced apoptosis.
Wood, J. et al. (2011) Br J Cancer. 104 (9): 1459-1471.
PubMed ID: 21522149 Reactivity Human Applications: Western Blot
Effects of HSP70 on the compression force-induced TNF-α and RANKL expression in human periodontal ligament cells.
Mitsuhashi, M., Yamaguchi, M., Kojima, T., Nakajima, R., Kasai, K. (2011) Inflammation Research. 60 (2): 187-194.
PubMed ID: 20924639 Reactivity Human Applications: Western Blot
Deciphering Human Heat Shock Transcription Factor 1 Regulation via Post-Translational Modification in Yeast.
Batista-Nascimento, L., Neef, D.W., Liu, P.C.C., Rodrigues-Pousada, C., Thiele, D.J. (2011) PLoS One. 6 (1): e15976.
PubMed ID: 21253609 Reactivity Mouse Applications: Western Blot
Deciphering Human Heat Shock Transcription Factor 1 Regulation via Post-Translational Modification in Yeast.
Batista-Nascimento, L., Neef, D.W., Liu, P.C.C., Rodrigues-Pousada, C., Thiele, D.J. (2011) PLoS One. 6 (1): e15976.
PubMed ID: 21253609 Reactivity Human Applications: Western Blot
Tamm-Horsfall protein and urinary exosome isolation.
Fernández-Llama, P. et al. (2010) Kidney Int. 77, 736-742.
PubMed ID: 20130532 Reactivity Human Applications: Western Blot
Gene expression and muscle fiber function in a porcine ICU model.
Banduseela, V.C. et al. (2009) Physiol Genomics. 39 (3): 141-159.
PubMed ID: 19706692 Reactivity Pig Applications: Western Blot
2,3-Dihydrowithaferin A-3β-O-sulfate, a new potential prodrug of withaferin A from aeroponically grown Withania somnifera.
Xu, Y. et al. (2009) Bioorg Med Chem. 17 (6): 2210-2214.
PubMed ID: 19056281 Reactivity Mouse Applications: Western Blot
Identification of Phosphorylation-Dependent Binding Partners of Aquaporin-2 Using Protein Mass Spectrometry.
Zwang, N.A. et al. (2009) J.Proteome Res. 8 (3): 1540-1554.
PubMed ID: 19209902 Reactivity Rat Applications: Western Blot
Immunohistochemistry
Can hypoxia enhance sexual arousal?-Molecular-biological analysis of the hypothalamus in male rats placed with oestrous female rats under hypoxic conditions.
Inoue, H., Yoshida, M. Nishio, H. and Tatsumi, S. (2016) Int J Clin Exp Med. 9(10):19512-19520
PubMed ID: N/A Reactivity Rat Applications: Immunohistochemistry
Detection of constitutive and inducible HSP70 proteins in formalin fixed human brain tissue.
Preusse-Prange, A., Modrow, J.H., Schwark, T., von Wurmb-Schwark, N. (2014) Forensic Sci Int. 235:62-7.
PubMed ID: 24447452 Reactivity Human Applications: Immunohistochemistry
Co-overexpression of Bag-1 and heat shock protein 70 in human epidermal squamous cell carcinoma: Bag-1-mediated resistance to 5-fluorouracil induced apoptosis.
Wood, J. et al. (2011) Br J Cancer. 104 (9): 1459-1471.
PubMed ID: 21522149 Reactivity Human Applications: Immunohistochemistry
Flow Cytometry
Heat Shock Enhances the Expression of the Human T Cell Leukemia Virus Type-I (HTLV-I) Trans-Activator (Tax) Antigen in Human HTLV-I Infected Primary and Cultured T Cells.
Kunihiro, M. et al. (2016) Viruses. 8(7).
PubMed ID: 27409630 Reactivity Human Applications: Flow Cytometry
Prostaglandin E Synthase Interacts with Inducible Heat Shock Protein 70 After Heat Stress in Bovine Primary Dermal Fibroblast Cells.
Richter, C., Viergutz, T., Schwerin, M. and Weitzel, J.M. (2014) Cytometry A. 87(1):61-7.
PubMed ID: 25412999 Reactivity Bovine Applications: Flow Cytometry
Immunocytochemistry/Immunofluorescence
Heat shock protein 70 regulates degradation of the mumps virus phosphoprotein via the ubiquitin-proteasome pathway.
Katoh, H. et al. (2014) J Virol. 89(6):3188-99.
PubMed ID: 25552722 Reactivity Human Applications: Immunocytochemistry/Immunofluorescence
Other Citations
Prostaglandin E Synthase Interacts with Inducible Heat Shock Protein 70 After Heat Stress in Bovine Primary Dermal Fibroblast Cells.
Richter, C., Viergutz, T., Schwerin, M. and Weitzel, J.M. (2014) Cytometry A. 87(1):61-7.
PubMed ID: 25412999 Reactivity Bovine Applications: Immunoprecipitation
Fasting Enhances TRAIL-Mediated Liver Natural Killer Cell Activity via HSP70 Upregulation.
Dang, V.T.A. et al. (2014) PLoS One. 9(10): e110748.
PubMed ID: 25356750 Reactivity Mouse Applications: Protein Inhibition
Macrophage inflammatory protein derivative ECI301 enhances the alarmin-associated abscopal benefits of tumor radiotherapy.
Kanegassaki, S., Matsushima, K., Shiraishi, K., Nakagawa, K. and Tsuchiya, T. (2014) Cancer Res. 74(18):5070-8.
PubMed ID: 25038226 Reactivity Mouse Applications: Immunoprecipitation
Biomarker Analysis with Grating Coupled Surface Plasmon Coupled Fluorescence.
Mendoza, A., Dias, J.A., Zeltner, T. and Lawrence, D.A. (2014) J Adv Bio & Biotech. 1(1): 1-22.
PubMed ID: N/A Reactivity Human Applications: Antibody Microarray
Biomarker Analysis with Grating Coupled Surface Plasmon Coupled Fluorescence.
Mendoza, A., Dias, J.A., Zeltner, T. and Lawrence, D.A. (2014) J Adv Bio & Biotech. 1(1): 1-22.
PubMed ID: N/A Reactivity Mouse Applications: Antibody Microarray
Heat Shock Protein 70 Prevents both Tau Aggregation and the Inhibitory Effects of Preexisting Tau Aggregates on Fast Axonal Transport.
Patterson, K.R. et al. (2011) Biochem. 50 (47): 10300-10310.
PubMed ID: 22039833 Reactivity <