Basic Description

Synonyms	delta-(+)-Glyceraldehyde \| HY-128748 \| DL-Glyceraldehyde, >=90% (GC) \| GLYCERALDEHYDE, (+/-)- \| SB44379 \| D-(+)-Glyceraldehyde; (R)-2,3-Dihydroxy-propanal \| gliceraldehido \| Glycerinaldehyd \| NSC67934 \| NSC-67934 \| Q423211 \| STL453543 \| Propanal, 2,3-dihy
Specifications & Purity	≥90%
Biochemical and Physiological Mechanisms	Glyceraldehyde is a potent crosslinking agent and is considered non-toxic. It is an intermediate in many metabolic pathways, such as the glycolysis and pentose phosphate pathways.
Storage Temp	Store at 2-8°C,Protected from light,Argon charged
Shipped In	Wet ice
Product Description	Product description： Glyceraldehyde is a simple monosaccharide. According to the number of carbon atoms and the type of carbonyl group, glyceraldehyde is a triose. It is a colorless sweet compound. Application： Dl-glyceraldehyde has been used for: As a modifier for preparing crystalline solutions As a substrate for measuring aldose reductase activity The specific activity of GAPDH (glyceraldehyde-3-phosphate dehydrogenase) was determined in the preparation of d/ L-glyceraldehyde raw materials Explanation： Dl-glyceraldehyde is the substrate of aldose reductase.

Associated Targets(Human)

AKR1B1 Tclin Aldose reductase (1 Activities)

Discover Target: AKR1B1

Activity Type	Activity Value -log(M)	Mechanism of Action	Activity Reference	Publications (PubMed IDs)

AKR1B1 Tclin Aldose reductase (1404 Activities)

Discover Target: AKR1B1

Activity Type	Relation	Activity value	Units	Action Type	Journal	PubMed Id	doi	Assay Aladdin ID

Associated Targets(non-human)

Catharanthus roseus (29 Activities)

Explore this target

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

IUPAC Name	2,3-dihydroxypropanal
INCHI	InChI=1S/C3H6O3/c4-1-3(6)2-5/h1,3,5-6H,2H2
InChi Key	MNQZXJOMYWMBOU-UHFFFAOYSA-N
Canonical SMILES	C(C(C=O)O)O
Isomeric SMILES	C(C(C=O)O)O
PubChem CID	751
Molecular Weight	90.08

Certificates

Certificate of Analysis(COA)

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3 results found

Lot Number	Certificate Type	Date	Item
L2318397	Certificate of Analysis	Nov 24, 2023	D589509
L2318398	Certificate of Analysis	Nov 24, 2023	D589509
L2318399	Certificate of Analysis	Nov 24, 2023	D589509

Chemical and Physical Properties

Sensitivity	Light sensitive；Air sensitive
Melt Point(°C)	145°C

Citations of This Product

How to Cite Aladdin Scientific Products?

1. Ruite Lai, Qidong Hou, Guanjie Yu, Chao Xie, Hengli Qian, Tianliang Xia, Xinyu Bai, Yao Tang, Mian Laiq Ur Rehman, Meiting Ju. (2023) Incorporation of tin into zirconium phosphate to boost efficient conversion of trioses to lactic acid. CATALYSIS COMMUNICATIONS, 185 (106803). [PMID:22307329] [10.1016/j.catcom.2023.106803]
2. Jinsheng Huang, Huiling Huang, Yiyao Wang, Bin Xu, Minzhao Lin, Shisong Han, Yuanyuan Yuan, Yong Wang, Xintao Shuai. (2023) Retinol-binding protein-hijacking nanopolyplex delivering siRNA to cytoplasm of hepatic stellate cell for liver fibrosis alleviation. BIOMATERIALS, 299 (122134). [PMID:37167895] [10.1016/j.biomaterials.2023.122134]
3. Gui-Hua Wei, Ting Lu, Hai-Yan Liu, Jiao-Xuan Bai, Qian Wang, Guang-Yue Li, Ying-Hua Liang. (2023) Exploring the continuous cleavage-oxidation mechanism of the catalytic oxidation of cellulose to formic acid: A combined experimental and theoretical study. FUEL, 341 (127667). [PMID:] [10.1016/j.fuel.2023.127667]
4. Yongfang Zhou, Thomas J.A. Slater, Xuanli Luo, Yi Shen. (2023) A versatile single-copper-atom electrocatalyst for biomass valorization. APPLIED CATALYSIS B-ENVIRONMENTAL, 324 (122218). [PMID:] [10.1016/j.apcatb.2022.122218]
5. Xiaomei Ning, Xiaosong Zhou, Jin Luo, Liang Zhan. (2022) PtBi on carbon cloth as efficient flexible electrode for electro-oxidation of liquid fuels. JOURNAL OF ELECTROANALYTICAL CHEMISTRY, 904 (115958). [PMID:] [10.1016/j.jelechem.2021.115958]
6. Haiyong Wang, Haosheng Xin, Chiliu Cai, Changhui Zhu, Zhongxun Xiu, Qiying Liu, Yujing Weng, Chenguang Wang, Xinghua Zhang, Shijun Liu, Zifang Peng, Longlong Ma. (2020) Selective C3-C4 Keto-Alcohol Production from Cellulose Hydrogenolysis over Ni-WOx/C Catalysts. ACS Catalysis, 10 (18): (10646–10660). [PMID:] [10.1021/acscatal.0c02375]
7. Ting Lu, Yucui Hou, Weize Wu, Muge Niu, Wei Li, Shuhang Ren. (2018) Catalytic oxidation of cellulose to formic acid in V(V)-Fe(III)-H2SO4 aqueous solution with O2. FUEL PROCESSING TECHNOLOGY, 173 (197). [PMID:] [10.1016/j.fuproc.2018.02.001]
8. Xiaomei Ning, Yuhang Li, Hao Yu, Feng Peng, Hongjuan Wang, Yanhui Yang. (2016) Promoting role of bismuth and antimony on Pt catalysts for the selective oxidation of glycerol to dihydroxyacetone. JOURNAL OF CATALYSIS, 335 (95). [PMID:] [10.1016/j.jcat.2015.12.020]
9. Xiaomei Ning, Hao Yu, Feng Peng, Hongjuan Wang. (2015) Pt nanoparticles interacting with graphitic nitrogen of N-doped carbon nanotubes: Effect of electronic properties on activity for aerobic oxidation of glycerol and electro-oxidation of CO. JOURNAL OF CATALYSIS, 325 (136). [PMID:] [10.1016/j.jcat.2015.02.010]

References

1. Ruite Lai, Qidong Hou, Guanjie Yu, Chao Xie, Hengli Qian, Tianliang Xia, Xinyu Bai, Yao Tang, Mian Laiq Ur Rehman, Meiting Ju. (2023) Incorporation of tin into zirconium phosphate to boost efficient conversion of trioses to lactic acid. CATALYSIS COMMUNICATIONS, 185 (106803). [PMID:22307329] [10.1016/j.catcom.2023.106803]
2. Jinsheng Huang, Huiling Huang, Yiyao Wang, Bin Xu, Minzhao Lin, Shisong Han, Yuanyuan Yuan, Yong Wang, Xintao Shuai. (2023) Retinol-binding protein-hijacking nanopolyplex delivering siRNA to cytoplasm of hepatic stellate cell for liver fibrosis alleviation. BIOMATERIALS, 299 (122134). [PMID:37167895] [10.1016/j.biomaterials.2023.122134]
3. Gui-Hua Wei, Ting Lu, Hai-Yan Liu, Jiao-Xuan Bai, Qian Wang, Guang-Yue Li, Ying-Hua Liang. (2023) Exploring the continuous cleavage-oxidation mechanism of the catalytic oxidation of cellulose to formic acid: A combined experimental and theoretical study. FUEL, 341 (127667). [PMID:] [10.1016/j.fuel.2023.127667]
4. Yongfang Zhou, Thomas J.A. Slater, Xuanli Luo, Yi Shen. (2023) A versatile single-copper-atom electrocatalyst for biomass valorization. APPLIED CATALYSIS B-ENVIRONMENTAL, 324 (122218). [PMID:] [10.1016/j.apcatb.2022.122218]
5. Xiaomei Ning, Xiaosong Zhou, Jin Luo, Liang Zhan. (2022) PtBi on carbon cloth as efficient flexible electrode for electro-oxidation of liquid fuels. JOURNAL OF ELECTROANALYTICAL CHEMISTRY, 904 (115958). [PMID:] [10.1016/j.jelechem.2021.115958]
6. Haiyong Wang, Haosheng Xin, Chiliu Cai, Changhui Zhu, Zhongxun Xiu, Qiying Liu, Yujing Weng, Chenguang Wang, Xinghua Zhang, Shijun Liu, Zifang Peng, Longlong Ma. (2020) Selective C3-C4 Keto-Alcohol Production from Cellulose Hydrogenolysis over Ni-WOx/C Catalysts. ACS Catalysis, 10 (18): (10646–10660). [PMID:] [10.1021/acscatal.0c02375]
7. Ting Lu, Yucui Hou, Weize Wu, Muge Niu, Wei Li, Shuhang Ren. (2018) Catalytic oxidation of cellulose to formic acid in V(V)-Fe(III)-H2SO4 aqueous solution with O2. FUEL PROCESSING TECHNOLOGY, 173 (197). [PMID:] [10.1016/j.fuproc.2018.02.001]
8. Xiaomei Ning, Yuhang Li, Hao Yu, Feng Peng, Hongjuan Wang, Yanhui Yang. (2016) Promoting role of bismuth and antimony on Pt catalysts for the selective oxidation of glycerol to dihydroxyacetone. JOURNAL OF CATALYSIS, 335 (95). [PMID:] [10.1016/j.jcat.2015.12.020]
9. Xiaomei Ning, Hao Yu, Feng Peng, Hongjuan Wang. (2015) Pt nanoparticles interacting with graphitic nitrogen of N-doped carbon nanotubes: Effect of electronic properties on activity for aerobic oxidation of glycerol and electro-oxidation of CO. JOURNAL OF CATALYSIS, 325 (136). [PMID:] [10.1016/j.jcat.2015.02.010]

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SKU	Size	Availability	Price	Qty
D589509-250mg	250mg	Available within 8-12 weeks(?) Production requires sourcing of materials. We appreciate your patience and understanding.	$36.90
D589509-1g	1g	Available within 8-12 weeks(?) Production requires sourcing of materials. We appreciate your patience and understanding.	$89.90

2,3-Dihydroxypropanal - 90%, high purity , CAS No.56-82-6