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2-Deoxy-D-glucose - 98%, high purity , CAS No.154-17-6

22 Citations COA COA
    Grade & Purity:
  • ≥98%
In stock
Item Number
D109194
Grouped product items
SKU Size
Availability
 Price Qty
D109194-1g
1g
5
$58.90
D109194-5g
5g
3
$189.90
D109194-25g
25g
7
$855.90
D109194-100g
100g
1
$3,078.90
Wish List
Bulk Order  SDS  DATASHEET  Specification Sheet

Non-metabolizable glucose analog and glycolytic inhibitor. Antitumor agent.

View related series
Anti-infection (2803) Apoptosis (4276) Carbohydrates for Biochemical Research (7) Chemical Biology (1255) Glucose Metabolism (1943) Hexokinase (6) HSV (104) Metabolic Enzyme/Protease (4860) monosaccharide (323) Virus (1811)

Basic Description

Synonyms 5CFA0332-FB70-485D-A064-6C4C39E7CBA1 | 2 Deoxy D glucose | 2-DEOXY-D-GLUCOSE [HSDB] | EINECS 205-823-0 | 2-Deoxy-D-mannose | 2-Deoxy-D-arabino-hexose;D-Arabino-2-deoxyhexose | 3,3-bis(4-hydroxy-2-methyl-5-propan-2-ylphenyl)-2-benzouran-1-one | D-2-Deoxygl
Specifications & Purity ≥98%
Biochemical and Physiological Mechanisms 2-Deoxy-D-Glucose (2-Deoxyglucose) is a glucose analog that inhibits glycolysis via its actions on hexokinase, the rate limiting step of glycolysis. It is phosphorylated by hexokinase to 2-DG-P which can not be further metabolized by phosphoglucose isomer
Storage Temp Store at 2-8°C
Shipped In
Wet ice
This product requires cold chain shipping. Ground and other economy services are not available.
Note Wherever possible, you should prepare and use solutions on the same day. However, if you need to make up stock solutions in advance, we recommend that you store the solution as aliquots in tightly sealed vials at -20°C. Generally, these will be useable for up to one month. Before use, and prior to opening the vial we recommend that you allow your product to equilibrate to room temperature for at least 1 hour. Need more advice on solubility, usage and handling? Please visit our frequently asked questions (FAQ) page for more details.
Product Description

2-Deoxy-D-glucose is used in the development of anti-cancer strategies that involve radio- and chemosensitization and oxidative stress.

Taxonomic Classification

Taxonomy Tree

Kingdom Organic compounds
Superclass Lipids and lipid-like molecules
Class Fatty Acyls
Subclass Fatty alcohols
Intermediate Tree Nodes Not available
Direct Parent Fatty alcohols
Alternative Parents Medium-chain aldehydes  Beta-hydroxy aldehydes  Alpha-hydrogen aldehydes  Secondary alcohols  Polyols  Primary alcohols  Organic oxides  Hydrocarbon derivatives  
Molecular Framework Aliphatic acyclic compounds
Substituents Fatty alcohol - Medium-chain aldehyde - Beta-hydroxy aldehyde - Alpha-hydrogen aldehyde - Secondary alcohol - Polyol - Organic oxygen compound - Organic oxide - Hydrocarbon derivative - Primary alcohol - Organooxygen compound - Carbonyl group - Aldehyde - Alcohol - Aliphatic acyclic compound
Description This compound belongs to the class of organic compounds known as fatty alcohols. These are aliphatic alcohols consisting of a chain of a least six carbon atoms.
External Descriptors Not available

Associated Targets(Human)

SLC16A1 Tchem Monocarboxylate transporter 1 (146 Activities)
Activity Type Relation Activity value Units Action Type Journal PubMed Id doi Assay Aladdin ID

Mechanisms of Action

Mechanism of Action Action Type target ID Target Name Target Type Target Organism Binding Site Name References

Names and Identifiers

Pubchem Sid 488187422
Pubchem Sid Url https://pubchem.ncbi.nlm.nih.gov/substance/488187422
IUPAC Name (3R,4S,5R)-3,4,5,6-tetrahydroxyhexanal
INCHI InChI=1S/C6H12O5/c7-2-1-4(9)6(11)5(10)3-8/h2,4-6,8-11H,1,3H2/t4-,5-,6+/m1/s1
InChIKey VRYALKFFQXWPIH-PBXRRBTRSA-N
Smiles C(C=O)C(C(C(CO)O)O)O
Isomeric SMILES C(C=O)[C@H]([C@@H]([C@@H](CO)O)O)O
WGK Germany 3
RTECS MQ3325000
Molecular Weight 164.16
Beilstein 1723331
Reaxy-Rn 2041872
Reaxys-RN_link_address https://www.reaxys.com/reaxys/secured/hopinto.do?context=S&query=IDE.XRN=2041872&ln=

Certificates(CoA,COO,BSE/TSE and Analysis Chart)

C of A & Other Certificates(BSE/TSE, COO):
Analytical Chart:

Find and download the COA for your product by matching the lot number on the packaging.

25 results found

Lot Number Certificate Type Date Item
A2516113 Certificate of Analysis Dec 30, 2024 D109194
A2516115 Certificate of Analysis Dec 30, 2024 D109194
A2516117 Certificate of Analysis Dec 30, 2024 D109194
A2516118 Certificate of Analysis Dec 30, 2024 D109194
H2430348 Certificate of Analysis Aug 19, 2024 D109194
H2430349 Certificate of Analysis Aug 19, 2024 D109194
H2430350 Certificate of Analysis Aug 19, 2024 D109194
H2430351 Certificate of Analysis Aug 19, 2024 D109194
D2408085 Certificate of Analysis Jun 07, 2023 D109194
G2312782 Certificate of Analysis Jun 07, 2023 D109194
G2312790 Certificate of Analysis Jun 07, 2023 D109194
G2312792 Certificate of Analysis Jun 07, 2023 D109194
G2312774 Certificate of Analysis Jun 07, 2023 D109194
G2312775 Certificate of Analysis Jun 07, 2023 D109194
G2312784 Certificate of Analysis Jun 07, 2023 D109194
G2312783 Certificate of Analysis Jun 07, 2023 D109194
I2418083 Certificate of Analysis Jun 07, 2023 D109194
F2312717 Certificate of Analysis May 15, 2023 D109194
G2205112 Certificate of Analysis Jun 01, 2022 D109194
G2205098 Certificate of Analysis Jun 01, 2022 D109194
G2205097 Certificate of Analysis Jun 01, 2022 D109194
G2205096 Certificate of Analysis Jun 01, 2022 D109194
E2124231 Certificate of Analysis Mar 17, 2021 D109194
E2124150 Certificate of Analysis Mar 17, 2021 D109194
E2124230 Certificate of Analysis Mar 17, 2021 D109194

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Chemical and Physical Properties

Solubility Soluble in water.
Specific Rotation[α] 46.5 ° (C=1, H2O)
Melt Point(°C) 146-147°C
Molecular Weight 164.160 g/mol
XLogP3 -2.900
Hydrogen Bond Donor Count 4
Hydrogen Bond Acceptor Count 5
Rotatable Bond Count 5
Exact Mass 164.068 Da
Monoisotopic Mass 164.068 Da
Topological Polar Surface Area 98.000 Ų
Heavy Atom Count 11
Formal Charge 0
Complexity 116.000
Isotope Atom Count 0
Defined Atom Stereocenter Count 3
Undefined Atom Stereocenter Count 0
Defined Bond Stereocenter Count 0
Undefined Bond Stereocenter Count 0
The total count of all stereochemical bonds 0
Covalently-Bonded Unit Count 1

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Citations of This Product

How to Cite Aladdin Scientific Products?
1. Wanzhen Li, Yongqi Yang, Jun Wang, Ting Ge, Shuixia Wan, Lin Gui, Yugui Tao, Ping Song, Liangjun Yang, Fei Ge, Weiwei Zhang.  (2024)  Establishment of bone-targeted nano-platform and the study of its combination with 2-deoxy-d-glucose enhanced photodynamic therapy to inhibit bone metastasis.  Journal of the Mechanical Behavior of Biomedical Materials,  150  (106306). 
2. Pengfei Sun, Wan Yang, Jiarong He, Liuliang He, Pengfei Chen, Wenjuan Xu, Qingming Shen, Daifeng Li, Quli Fan.  (2023)  Phenylboronic Acid-Modified Near-Infrared Region Ii Excitation Donor–Acceptor–Donor Molecule for 2-Deoxy-D-Glucose Improved Starvation/Chemo/Photothermal Combination Therapy.  Advanced Healthcare Materials,    (2302099). 
3. Yanzhi Xing, Yulong Xu, Yanna Lin, E Shuang, Han Leng, Jianhua Wang, Xuwei Chen.  (2023)  Rational synthesis of carbon dots with phosphate ester group for direct mapping of endogenous alkaline phosphatase and polarity monitoring in living cells.  JOURNAL OF COLLOID AND INTERFACE SCIENCE,  640  (626). 
4. Guangyu Cheng, Lin Li, Qingjie Li, Shulin Lian, Hongbo Chu, Yunlu Ding, Chikun Li, Yan Leng.  (2022)  β-elemene suppresses tumor metabolism and stem cell-like properties of non-small cell lung cancer cells by regulating PI3K/AKT/mTOR signaling.  American Journal of Cancer Research,  12  (4): ( 1535–1555). 
5. Hui Chen, Han Zhang, Lixing Cao, Jinling Cui, Xuan Ma, Chong Zhao, Shutao Yin, Hongbo Hu.  (2022)  Glucose Limitation Sensitizes Cancer Cells to Selenite-Induced Cytotoxicity via SLC7A11-Mediated Redox Collapse.  Cancers,  14  (2): (345). 
6. Yeneng Dai, Zhiquan Sun, Honghai Zhao, Dashan Qi, Xiangyu Li, Diya Gao, Meixing Li, Quli Fan, Qingming Shen, Wei Huang.  (2021)  NIR-II fluorescence imaging guided tumor-specific NIR-II photothermal therapy enhanced by starvation mediated thermal sensitization strategy.  BIOMATERIALS,  275  (120935). 
7. Yuping Wei, Caiying Zhang, Man Zhang, Qionghong Niu, Fengli Hui, Zi Liu, Xia Xu.  (2021)  Insight of Synergistic Effect between CPP and Cargo on the Facilitation Mechanisms of R7-PTX Translocation: Experiments and Molecular Simulations.  EUROPEAN JOURNAL OF PHARMACEUTICAL SCIENCES,  161  (105790). 
8. Yangke Wanyan, Xixi Xu, Kehang Liu, Huidan Zhang, Junai Zhen, Rong Zhang, Jumei Wen, Ping Liu, Yuqing Chen.  (2020)  2-Deoxy-d-glucose Promotes Buforin IIb-Induced Cytotoxicity in Prostate Cancer DU145 Cells and Xenograft Tumors.  MOLECULES,  25  (23): (5778). 
9. Yan Zhiyu, Wu Xiangli, Zhao Mengran, Zhang Jinxia.  (2020)  Lactic acid accumulation under heat stress related to accelerated glycolysis and mitochondrial dysfunction inhibits the mycelial growth of Pleurotus ostreatus.  APPLIED MICROBIOLOGY AND BIOTECHNOLOGY,  104  (15): (6767-6777). 
10. Chen Xiaolong, Hu Cuihua, Zhang Yanan, Hao Wenjing, He Xu, Li Qing, Huang Yuxi, Huang Yibing, Chen Yuxin.  (2020)  Anticancer Activity and Mechanism of Action of kla-TAT Peptide.  International Journal of Peptide Research and Therapeutics,  26  (4): (2285-2296). 
11. Yaqun Fang, Xiaoqin He, Pengcheng Zhang, Chuanbin Shen, James Mwangi, Cheng Xu, Guoxiang Mo, Ren Lai, Zhiye Zhang.  (2019)  In Vitro and In Vivo Antimalarial Activity of LZ1, a Peptide Derived from Snake Cathelicidin.  Toxins,  11  (7): (379). 
12. Shi Ning, Liu Qiying, Cen Hu, Ju Rongmei, He Xiong, Ma Longlong.  (2020)  Formation of humins during degradation of carbohydrates and furfural derivatives in various solvents.  Biomass Conversion and Biorefinery,  10  (2): (277-287). 
13. Liu Ru-Tao, Zhang Min, Yang Chun-Lin, Zhang Peng, Zhang Na, Du Tong, Ge Meng-Ru, Yue Long-Tao, Li Xiao-Li, Li Heng, Duan Rui-Sheng.  (2018)  Enhanced glycolysis contributes to the pathogenesis of experimental autoimmune neuritis.  Journal of Neuroinflammation,  15  (1): (1-13). 
14. Mingtong Ye, Sufan Wang, Ting Wan, Rui Jiang, Yun Qiu, Lei Pei, Nengzhi Pang, Yuanling Huang, Yufeng Huang, Zhenfeng Zhang, Lili Yang.  (2017)  Combined Inhibitions of Glycolysis and AKT/autophagy Can Overcome Resistance to EGFR-targeted Therapy of Lung Cancer.  Journal of Cancer,  (18): ( 3774–3784). 
15. Yuping Wei, Liang Ma, Liang Zhang, Xia Xu.  (2017)  Noncovalent interaction-assisted drug delivery system with highly efficient uptake and release of paclitaxel for anticancer therapy.  International Journal of Nanomedicine,  12  ( 7039–7051). 
16. Xianzhi Qu, Jiyao Sheng, Luyan Shen, Jing Su, Yunjie Xu, Qi Xie, Yao Wu, Xuewen Zhang, Liankun Sun.  (2017)  Autophagy inhibitor chloroquine increases sensitivity to cisplatin in QBC939 cholangiocarcinoma cells by mitochondrial ROS.  PLoS One,  12  (3): (e0173712). 
17. Quan-Xing Mao, Shuang E, Jun-Mei Xia, Ru-Sheng Song, Yang Shu, Xu-Wei Chen, Jian-Hua Wang.  (2016)  Hydrophobic Carbon Nanodots with Rapid Cell Penetrability and Tunable Photoluminescence Behavior for in Vitro and in Vivo Imaging.  LANGMUIR,  32  (46): (12221–12229). 
18. Ming-Zhen Zhang, Yong Yu, Rong-Na Yu, Min Wan, Rong-Ying Zhang, Yuan-Di Zhao.  (2013)  Tracking the Down-Regulation of Folate Receptor-α in Cancer Cells through Target Specific Delivery of Quantum Dots Coupled with Antisense Oligonucleotide and Targeted Peptide.  Small,  (24): (4183-4193). 
19. Ling Jiang, Liying Zhu, Xian Xu, Ming Lin, Yanping Li, Xiaotong Li, Huaiyan Cui, He Huang.  (2013)  Bioproduction of hydrogen by simultaneous saccharification and fermentation of cassava starch with 2-deoxyglucose-resistant mutant strains of Clostridium tyrobutyricum.  INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,  38  (6349). 
20. Yuefang Deng, Shuang Li, Qing Xu, Min Gao, He Huang.  (2012)  Production of fumaric acid by simultaneous saccharification and fermentation of starchy materials with 2-deoxyglucose-resistant mutant strains of Rhizopus oryzae.  BIORESOURCE TECHNOLOGY,  107  (363). 
21. Yixuan Xu, Huiping Dang, Changchang Teng, Dalong Yin, Lifeng Yan.  (2024)  ATP Inhibition for Starvation/Mild Photothermal/Photodynamic Synergy Therapy Using Polypeptide Nanoparticles Conjugating 2-Deoxy-D-Glucose and Dye under NIR Phototheranostic Strategy.  Advanced Healthcare Materials,    (2401219). 
22. Yanzhi Xing, Jiaxin Li, Han Leng, Yanfeng Zhang, Shuang E, Jianhua Wang, Xuwei Chen.  (2024)  From cell membrane to endoplasmic reticulum: Tunable lipid membrane imaging by regulating the lipophilicity and internalization of carbon dots.  CHEMICAL ENGINEERING JOURNAL,  492  (152068). 

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