Peroxidase Labeling Kit-SH - Amerigo Scientific

- Overview
  - Peroxidase Labeling Kit-SH is used mainly for the preparation of peroxidase-labeled IgG for enzyme immunoassay (EIA) and for the preparation of peroxidase-labeled antigen for competitive EIA. SH-reactive peroxidase, a component of this kit, can react with the thiol groups of proteins or other molecules. This kit contains all the necessary reagents for the labeling process, including reducing agent and storage buffer. SH-reactive peroxidase forms a covalent link with the target molecule. Reducing agent can create free thiol groups in the IgG molecule. When peroxidase-labeled IgG is used for EIA, the labeling efficiency of the SH-reactive peroxidase is high enough to eliminate any postlabeling purification process.. If a high-purity conjugate is required after labeling, simply use an affinity column or a gelpermeation column. When labeling small molecules, excess molecules can be removed by using the filtration tubes included in this kit.
    
    Please contact us at for specific academic pricing.
- Properties
  - Categories
    
    Enzyme labeling
    
    Storage
    
    0-5°C
    
    Shipping
    
    ambient temperature
    
    * For research use only
- Applications
  - Application
    
    Western blot; Microscopy; Microplate assay
- Reference
  - 1) K. Inoue, A. Sugiyama, P. C. Reid, Y. Ito, K. Miyauchi, S. Mukai, M. Sagara, K. Miyamoto, H. Satoh, I. Kohno, T. Kurata, H. Ota, A. Mantovani, T. Hamakubo, H. Daida and T. Kodama, "Establishment of a High Sensitivity Plasma Assay for Human Pentraxin3 as a Marker for Unstable Angina Pectoris", Arterioscler. Thromb. Vasc. Biol., 2007, 27, 161.
    
    2) N. Esaki, Y. Ohkawa, N. Hashimoto, Y. Tsuda, Y. Ohmi, R. H. Bhuiyan, N. Kotani, K. Honke, A. Enomoto, M. Takahashi, K. Furukawa, and K. Furukawa, "ASC amino acid transporter 2, defined by enzyme-mediated activation of radical sources, enhances malignancy of GD2-positive small-cell lung cancer.", Cancer Sci.., 2018, 109, (1), 141.
    
    3) G.W.Zhanga, S.J.Lai, Y.Yoshimura, and N.Isobe, "Messenger RNA expression and immunolocalization of psoriasin in the goat mammary gland and its milk concentration after an intramammary infusion of lipopolysaccharide", Vet. J.., 2014, 202, (1), 89.
    
    4) G-W. Zhang, S-J. Lai, Y. Yoshimura, and N. Isobe, "Expression of cathelicidins mRNA in the goat mammary gland and effect of the intramammary infusion of lipopolysaccharide on milk cathelicidin-2 concentration", Vet. Microbiol.., 2014, 170, (1-2), 125.
    
    5) H. Tateno, S. Saito, K. Hiemori, K. Kiyoi, K. Hasehira, M. Toyoda, Y. Onuma, Y. Ito, H. Akutsu, and J. Hirabayashi, "α2–6 sialylation is a marker of the differentiation potential of human mesenchymal stem cells", Glycobiology., 2016, 26, (12), 1328.
    
    6) K. Iizumi, H. Kawasaki, A. Shigenaga, M. Tominaga, A. Otsu, A. Kamo, Y. Kamata, K. Takamori, and F. Yamakura, "Tryptophan nitration of immunoglobulin light chain as a new possible biomarker for atopic dermatitis", J Clin Biochem Nutr., 2018, 63, (3), 197.
    
    7) K. Morioka, K. Fukai, K. Yoshida, R. Yamazoe, H. Onozato, S. Ohashi, T. Tsuda, and K. Sakamoto, "Foot-and-Mouth Disease Virus Antigen Detection Enzyme-Linked Immunosorbent Assay Using Multiserotype-Reactive Monoclonal Antibodies", J. Clin. Microbiol.., 2009, 47, (11), 3663.
    
    8) M. Watanabe, I. Takemasa, N. Kaneko, Y. Yokoyama, E. Matsuo, S. Iwasa, M. Mori, N. Matsuura, M. Monden, and O. Nishimura, "Clinical significance of circulating galectins as colorectal cancer markers", Oncol. Rep.., 2011, 25, (5), 1217.
    
    9) M. Yasunaga, S. Saijou, S. Hanaoka, T. Anzai, R. Tsumura, and Y. Matsumura, "Significant antitumor effect of an antibody against TMEM180, a new colorectal cancer‐specific molecule", Cancer Sci.., 2019, 110, (2), 761.
    
    10) N. Esaki, Y. Ohkawa, N. Hashimoto, Y. Tsuda, Y. Ohmi, R. H. Bhuiyan, N. Kotani, K. Honke, A. Enomoto, M. Takahashi, K. Furukawa, and K. Furukawa, "ASC amino acid transporter 2, defined by enzyme‐mediated activation of radical sources, enhances malignancy of GD2‐positive small‐cell lung cancer", Cancer Sci.., 2018, 109, (1), 141.
    
    11) N. Hashimoto, K. Hamamura, N. Kotani, K. Furukawa, K. Kaneko, K. Honke, and K. Furukawa, "Proteomic analysis of ganglioside‐associated membrane molecules: Substantial basis for molecular clustering", Proteomics., 2012, 12, (21), 3154.
    
    12) N. Kotani, Y. Ida, T. Nakano, I. Sato, R. Kuwahara, A. Yamaguchi, M. Tomita, K. Honke, and T. Murakoshi, "Tumor-dependent secretion of close homolog of L1 results in elevation of its circulating level in mouse model for human lung tumor", Biochem. Biophys. Res. Commun.., 2018, 501, (4), 982.
    
    13) R. Yamashita, N. Kotani, Y. Ishiura, S. Higashiyama, and K. Honke, "Spatiotemporally-regulated interaction between β1 integrin and ErbB4 that is involved in fibronectin-dependent cell migration", J. Biol. Chem.., 2011, 149, (3), 347.
    
    14) T. Noro, E. Oishi, T. Kaneshige, K. Yaguchi, K. Amimoto, and M. Shimizu, "Identification and characterization of haemagglutinin epitopes of Avibacterium paragallinarum serovar C", Vet. Microbiol.., 2008, 131, (3-4), 406.

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