Superoxide Dismutase from bovine erythrocytes, CAS No.9054-89-1

CAS: 9054-89-1 Cat. No.: S755584 EC Number: 232-943-0
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GRADE & PURITY UltraBio™ ? UltraBio™ — Aladdin's line for molecular-biology applications. Use for nuclease-free, high-consistency reagents across molecular workflows. ≥97%(SDS-PAGE) lyophilized powder,≥4,500 units/mg protein
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Size
Status
Price
Qty
15KU
S755584-15KU
8-12 wks(?) Production requires sourcing of materials. We appreciate your patience and understanding.
$453.90
75KU
S755584-75KU
8-12 wks(?) Production requires sourcing of materials. We appreciate your patience and understanding.
$1,487.90
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Why this grade

UltraBio™, ≥97%(SDS-PAGE), lyophilized powder,≥4,500 units/mg protein UltraBio™ for sensitive chromatographic and analytical workflows requiring minimal baseline interference.

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Storage & shipping

Store at -20°C Ships Ice chest + Ice pads Check lot-specific COA for exact specifications.

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Quality documents

SDS, COA, datasheet, and spec sheet available for download. Lot-specific COA accessible via lot number lookup.

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Literature proof

Cited in 13 peer-reviewed publications across chromatography, organic synthesis, and cross-coupling reactions.

Overview

Superoxide dismutases are a group of low molecular weight metalloproteins present in all aerobic cells of plants, animals and micro-organisms. They provide protection against damaging reactions with the superoxide radical anion (O2-) by catalyzing its disproportionation into oxygen and hydrogen peroxide.
Application:
Superoxide Dismutase from bovine erythrocytes has been used in a study to assess activity parameters in adjuvant-induced arthritis. Superoxide Dismutase from bovine erythrocytes has also been used in a study to simplify the process of purifying superoxide dismutases using charge-controlled hydrophobic chromatography on 10-carboxydecyl Sepharose.

Specifications

Product Name
Superoxide Dismutase from bovine erythrocytes, CAS No.9054-89-1
Grade
UltraBio™
Specifications & Purity
UltraBio™, ≥97%(SDS-PAGE), lyophilized powder, ≥4, 500 units/mg protein
Biochemical and Physiological Mechanisms
Superoxide Dismutase from bovine erythrocytes catalyzes the dismutation of superoxide radicals to hydrogen peroxide and molecular oxygen. It serves as an antioxidant and plays a critical role in the defense of cells against the toxic effects of oxygen rad
CAS
9054-89-1
Enzyme Commission Number
1.15.1.1(BRENDA, IUBMB)
Molecule Type
Enzyme
Storage and Shipping
Concentration
lyophilized powder,≥4,500 units/mg protein
Storage
Store at -20°C
Shipped In
Ice chest + Ice pads

Documentation

📋 Safety Data Sheet (SDS)

Comprehensive hazard, handling, storage, and regulatory compliance document.

Download SDS →

✅ Certificate of Analysis (COA)

Lot-specific quality data. Enter your lot number to retrieve the exact COA.

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📊 Datasheet

Quick-reference summary of product specifications and applications.

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🔬 Specification Sheet

Full quality attributes and acceptance criteria for this grade.

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Advanced Data

Certificates(CoA,COO,BSE/TSE and Analysis Chart)
C of A & Other Certificates(BSE/TSE, COO):
Analytical Chart:
Documents & Articles
UltraBio™: Defining Excellence in Molecular Biology Applications
Coelenterazine (CTZ) Differences and an Application Overview
Review of Glucose-6-phosphate Dehydrogenase (G6PD): Structural Features, Metabolic Functions, and Research Applications
Review of the Principles, Methods, and Application Considerations for Superoxide Dismutase Activity Determination
Functional System Overview of Cellular Metabolic Enzymes in Energy Metabolism, Redox, and Signal Transduction
Cellular Electron Transfer Networks and Mechanisms of Metabolism-Signaling Coupling
Antioxidant Enzyme Networks in Skin Cells and Their Applications in Skincare and Cosmetics
Citations of This Product
References
1. Dong Zhicheng, Xu Yunyun, Wu Can, Chao Jin, Tian Chen, Lin Zhang.  (2023)  Efficient removal of natural organo-chromium(III) through self-circulating decomplex and immobilization with nanoscale zero-valent iron.  Nano Research,      [PMID:] [10.1007/s12274-023-6028-9]
2. Jiayi Luo, Yunqiang Yi, Zhanqiang Fang.  (2023)  Nitrogen-rich magnetic biochar prepared by urea was used as an efficient catalyst to activate persulfate to degrade organic pollutants.  CHEMOSPHERE,      [PMID:37482309] [10.1016/j.chemosphere.2023.139614]
3. Jiayi Luo, Yunqiang Yi, Zhanqiang Fang.  (2023)  Effect of Mn-based magnetic biochar /PS reaction system on oxidation of metronidazole.  CHEMOSPHERE,      [PMID:37119924] [10.1016/j.chemosphere.2023.138747]
4. Gu Yurong, Zhang Yi, Jiang Chengchun, Dong Zijun, Bai Xue.  (2023)  Efficient metformin transformation in sulfite/UV process co-present with oxygen.  Frontiers in Environmental Science,      [PMID:] [10.3389/fenvs.2022.1071963]
5. Xixi Chen, Wanyi Fu, Zhichao Yang, Yulong Yang, Yanjun Li, Hui Huang, Xihui Zhang, Bingcai Pan.  (2023)  Enhanced H2O2 utilization efficiency in Fenton-like system for degradation of emerging contaminants: Oxygen vacancy-mediated activation of O2.  WATER RESEARCH,      [PMID:36603306] [10.1016/j.watres.2022.119562]
6. Xiang Li, Xianyi Gan.  (2022)  Photo-Fenton degradation of multiple pharmaceuticals at low concentrations via Cu-doped-graphitic carbon nitride (g-C3N4) under simulated solar irradiation at a wide pH range.  Journal of Environmental Chemical Engineering,      [PMID:] [10.1016/j.jece.2022.108290]
7. Jiayi Luo, Yunqiang Yi, Guangguo Ying, Zhanqiang Fang, Yifeng Zhang.  (2021)  Activation of persulfate for highly efficient degradation of metronidazole using Fe(II)-rich potassium doped magnetic biochar.  SCIENCE OF THE TOTAL ENVIRONMENT,      [PMID:34856267] [10.1016/j.scitotenv.2021.152089]
8. Zhenxiao Zheng, Kai Zhu, Zhiyuan Dai.  (2021)  Preparation of Antarctic Krill Oil Emulsion and Its Stability under Catalase Treatment.  Foods,  10  (11): (2797).  [PMID:34829078] [10.3390/foods10112797]
9. Qian Peng, Xuekun Tang, Kun Liu, Xianping Luo, Dongsheng He, Ying Dai, Ganghong Huang.  (2019)  High-Efficiency Catalysis of Peroxymonosulfate by MgO for the Degradation of Organic Pollutants.  Minerals,  10  (1): (2).  [PMID:] [10.3390/min10010002]
10. Shiyu Liu, Rongchang Wang, Cuixiang Ma, Dianhai Yang, Duanxin Li, Zbigniew Lewandowski.  (2019)  Improvement of electrochemical performance via enhanced reactive oxygen species adsorption at ZnO–NiO@rGO carbon felt cathodes in photosynthetic algal microbial fuel cells.  CHEMICAL ENGINEERING JOURNAL,      [PMID:] [10.1016/j.cej.2019.123627]
11. Yunqiang Yi, Guoquan Tu, Pokeung Eric Tsang, Zhanqiang Fang.  (2019)  Insight into the influence of pyrolysis temperature on Fenton-like catalytic performance of magnetic biochar.  CHEMICAL ENGINEERING JOURNAL,      [PMID:] [10.1016/j.cej.2019.122518]
12. Qing-Yuan Li, Xi-Wei Pang, Xing Xing, Xin-Xin Xu, Jun-Jun Jia, Ke-Jiang Zhao, Zhen-Bang Tian, Chao-Jun Wu, Zhong-Liang Zhang, Jing Wang.  (2025)  Facile synthesis of copper sulfide nanoflower decorated amine-grafted polyacrylonitrile fibers for rapid and long-lasting antimicrobial performance mediated by photothermal and photocatalytic effects.  Materials Today Communications,      [PMID:] [10.1016/j.mtcomm.2025.112201]
13. Maochang Xu, Dan Ran, Jian Hu, Jingying Mao, Dehui Qiao, Zongquan Zhang, Xiaoya Liang, Li Zhang, Yu Nie, Hong Yang, Xiangyu Zhou, Chunhong Li.  (2024)  Multifunctional Prussian blue nanozymes alleviate atherosclerosis through inhibiting the inflammation feedback loop.  Journal of Materials Chemistry B,      [PMID:39692245] [10.1039/D4TB01926A]
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