6051-87-2

Basic information

• Product Name: DULCITOL
• Synonyms: 1H-Naphtho[2,1-b]pyran-1-one,3-phenyl-;3-Phenyl-1H-benzo[f]chromen-1-one;3-Phenyl-1H-naphtho(2,1-b)pyran-1-one;3-Phenyl-1H-naphtho[2,1-b]pyran-1-one;3-Phenyl-benzo[f]chromen-1-one;β-Naphthoflavon;5,6-BENZOFLAVONE;MELAMPYRITE
• CAS NO: 6051-87-2
• Molecular Formula: C₁₉H₁₂O₂
• Molecular Weight: 272.3
• EINECS: 227-958-4
• Product Categories: Flavones;Phase I Enzyme Inducer;Phase I Enzyme Inducers;Benzopyrans;Bioactive Small Molecules;Building Blocks;Cancer Research;Cell Biology;Chemical Synthesis;Chemopreventive Agents;Heterocyclic Building Blocks;Multidrug Resistance;N
• Mol File: 6051-87-2.mol
• Article Data: 9

Chemical Properties

• Melting Point: 185-189 °C
• Boiling Point: 275-280 °C (1 mmHg)
• Flash Point: 215.8°C
• Appearance: yellow to tan/Crystalline Powder
• Density: 1.1382 (rough estimate)
• Vapor Pressure: 1.12E-08mmHg at 25°C
• Refractive Index: 1.5510 (estimate)
• Storage Temp.: 2-8°C
• Solubility: Chloroform (Slightly), Methanol (Slightly, Heated)
• BRN: 18991
• CAS DataBase Reference: DULCITOL(CAS DataBase Reference)
• NIST Chemistry Reference: DULCITOL(6051-87-2)
• EPA Substance Registry System: DULCITOL(6051-87-2)

Safety Data

• Hazard Codes: Xn,Xi,C,F
• Statements: 22-34-11
• Safety Statements: 24/25-45-36/37/39-26-16
• WGK Germany: 3
• RTECS: QL6200000
• F: 3-10
• Hazardous Substances Data: 6051-87-2(Hazardous Substances Data)

Usage

Description

DULCITOL, also known as galactitol, is a sugar alcohol derived from the reduction of galactose. It is a white crystalline solid with a sweet taste and is used as a low-calorie sugar substitute. DULCITOL is known for its low glycemic index and minimal impact on blood sugar levels, making it suitable for diabetics and people with sugar-related health concerns.
Used in Food Industry:
DULCITOL is used as a sugar substitute for its low-calorie content and minimal impact on blood sugar levels. It is suitable for diabetics and people with sugar-related health concerns.
Used in Pharmaceutical Industry:
DULCITOL is used as an osmotic laxative to treat constipation and as a humectant in pharmaceutical formulations to prevent moisture loss and maintain stability.
Used in Cosmetic Industry:
DULCITOL is used as a humectant in cosmetic products to help retain moisture and improve skin hydration.
Used in Oral Care Industry:
DULCITOL is used as a sweetening agent in toothpaste and mouthwashes, providing a sweet taste without contributing to tooth decay.
Used in Biological Studies:
DULCITOL can be used in biological studies as a substrate to investigate the metabolism of galactose and its role in various physiological processes.

Biochem/physiol Actions

β-Naphthoflavone (BNF) is an exogenous ligand for aryl hydrocarbon receptor (AhR) in humans. It is an inducer of phase I detoxification enzymes (CYPs) and phase II enzymes (UDP-GTs) and NAD(P)H-dependent quinone oxyreductase-1(NQO1). It also induces cytochrome P450 (Cyp1a). BNF represses the expression of Duchenne muscular dystrophy gene, dystrophin (Dp)71 by altering the binding of the transcription factors.

InChI:InChI=1/C19H12O2/c20-16-12-18(14-7-2-1-3-8-14)21-17-11-10-13-6-4-5-9-15(13)19(16)17/h1-12H

Upstream product

• 2860-03-9 3-phenyl-2,3-dihydro-1H-benzo[f]chromen-1-one 
• 58483-57-1 1-(2-hydroxynaphthalen-1-yl)-3-phenylpropane-1,3-dione 
• 94-02-0 ethyl 3-oxo-3-phenylpropionate 
• 135-19-3 β-naphthol 
• 532-32-1 sodium benzoate 
• 574-19-6 1-(2-hydroxy-1-naphthyl)ethan-1-one 
• 93-97-0 benzoic acid anhydride 
• 637-44-5 phenylpropyolic acid 
• 60-29-7 diethyl ether 
• 108804-52-0 1-acetyl-2-benzoyloxynaphthalene 
• 10035-10-6 hydrogen bromide 
• 64-19-7 acetic acid 
• 109-01-3 1-methyl-piperazine 
• 1219684-00-0 1-(2-tert-butyldimethylsilyloxynaphthalen-1-yl)-3-phenyl-2-propyn-1-one 

Downstream Products

• 139448-84-3 1-Phenyl-1-(phenylthio)-3-(1-naphthyl)-prop-1-ene-3-thione 
• 139448-82-1 3-phenyl-1H-naphtho<2,1-b>pyran-1-thione 
• 166761-74-6 3-(2-hydroxy-1-naphthyl)-5-(phenyl)-2-isoxazoline 
• 98166-72-4 4'-Hydroxy-beta-naphthoflavone 
• 41071-24-3 4-cyanophenoxyl radical 
• 6119-32-0 4-methoxyphenoxyl 
• 2122-46-5 phenoxy radical 

Relevant articles and documents

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Application of α- and β-naphthoflavones as monooxygenase inhibitors of Absidia coerulea KCh 93, Syncephalastrum racemosum KCh 105 and Chaetomium sp. KCh 6651 in transformation of 17α-methyltestosterone

In this work, 17α-methyltestosterone was effectively hydroxylated by Absidia coerulea KCh 93, Syncephalastrum racemosum KCh 105 and Chaetomium sp. KCh 6651. A. coerulea KCh 93 afforded 6β-, 12β-, 7α-, 11α-, 15α-hydroxy derivatives with 44%, 29%, 6%, 5% and 9% yields, respectively. S. racemosum KCh 105 afforded 7α-, 15α- and 11α-hydroxy derivatives with yields of 45%, 19% and 17%, respectively. Chaetomium sp. KCh 6651 afforded 15α-, 11α-, 7α-, 6β-, 9α-, 14α-hydroxy and 6β,14α-dihydroxy derivatives with yields of 31%, 20%, 16%, 7%, 5%, 7% and 4%, respectively. 14α-Hydroxy and 6β,14α-dihydroxy derivatives were determined as new compounds. Effect of various sources of nitrogen and carbon in the media on biotransformations were tested, however did not affect the degree of substrate conversion or the composition of the products formed. The addition of α- or β-naphthoflavones inhibited 17α-methyltestosterone hydroxylation but did not change the percentage composition of the resulting products.

5,6-Benzoflavones as cholesterol esterase inhibitors: Synthesis, biological evaluation and docking studies

In a continued effort to develop potent cholesterol esterase (CEase) inhibitors, a series of 5,6-benzoflavone derivatives was rationally designed and synthesized by changing the position of the benzene ring attached to the flavone skeleton in previously reported 7,8-benzoflavones. All the synthesized compounds were checked for their inhibitory potential against cholesterol esterase (CEase) using a spectrophotometric assay. Among the series of forty compounds, seven derivatives (B-10 to B-16) exhibited above 90 percent inhibition against CEase in an in vitro enzymatic assay. Compound B-16 showed the most promising activity with an IC50 value of 0.73 nM against cholesterol esterase. To determine the type of inhibition, enzyme kinetic studies were carried out for B-16, which revealed its mixed-type inhibition approach. Moreover, to figure out the key binding interactions of B-16 with the amino acid residues of the enzyme's active site, molecular protein-ligand docking studies were also performed. B-16 completely blocks the catalytic assembly of CEase and prevents it from participating in the ester hydrolysis mechanism. The favorable binding conformation of B-16 suggests its prevailing role as a CEase inhibitor. Overall, the study showed that the cisorientation of ring A with respect to the carbonyl group of ring C is responsible for the potent CEase inhibitory activity of the newly synthesized compounds.