69-89-6

Name	2,6-Dihydroxypurine
CAS	69-89-6
EINECS(EC#)	200-718-6
Molecular Formula	C5H4N4O2
MDL Number	MFCD00078453
Molecular Weight	152.11
MOL File	69-89-6.mol

Chemical Properties

Appearance	White to off-white crystalline powder
Melting point	300 °C
Boiling point	274.55°C (rough estimate)
density	1.5452 (rough estimate)
vapor density	5.3 (vs air)
refractive index	1.8500 (estimate)
storage temp.	Store at RT.
solubility	NH₄OH: freely soluble
form	Powder
pka	pKa 9.95 (Uncertain)
color	White to slightly yellow
Odor	Odorless
Water Solubility	Soluble in water(0.067g/L).
Merck	14,10059
BRN	8733
InChIKey	LRFVTYWOQMYALW-UHFFFAOYSA-N
LogP	-0.730
CAS DataBase Reference	69-89-6(CAS DataBase Reference)
NIST Chemistry Reference	Xanthine(69-89-6)
EPA Substance Registry System	69-89-6(EPA Substance)

Safety Data

Hazard Codes	Xi
Risk Statements	R36:Irritating to the eyes. R43:May cause sensitization by skin contact. less more
Safety Statements	S36/37:Wear suitable protective clothing and gloves . less more
WGK Germany	3
RTECS	ZD7700000
TSCA	Yes
HS Code	29335900

Raw materials And Preparation Products

Hazard Information

Chemical Properties

White to off-white crystalline powder

Uses

2,6-Dihydroxypurine was fund in animal organs, yeast, patatoes, coffee beans, tea. 2,6-Dihydroxypurine can be used to relax and widen certain breathing passages of the lungs. It is also found that a large number of derivatives have adenoside receptor antagonist properties.

Definition

A poisonous colorless crystalline organic compound that occurs in blood, coffee beans, potatoes, and urine. It is used as a chemical intermediate.

Definition

Xanthine: a purine base, C₅H₄N₄O₂,found in many organisms.

Origin

Xanthines (1H-purine-2,6(3H,7H)-diones) are purine based natural heterocyclic alkaloids. They were first discovered in 1817 by German chemist Emil Fisher and later the name ‘xanthine’ was coined in 1899[1].

Biological Functions

In fact, xanthine and its derivatives act as intermediate molecules in generation of GMP, GDP and GTP via the salvage pathway inside the cells. In addition, xanthine plays imperative role in catabolism of nucleotides and nucleic acids as xanthine acts as precursor of uric acid. Therefore, xanthine contains similar skeleton as that of purines which forms the building blocks of unit of life i.e. ribonucleotides (RNA) and deoxyribonucleotides (DNA). The structural resemblance with two of the important purine derivatives Adenine and Guanine; makes xanthine a good therapeutic molecule[1].

Synthesis Reference(s)

Chemical and Pharmaceutical Bulletin, 22, p. 1200, 1974 DOI: 10.1248/cpb.22.1200

General Description

Xanthine is a purine that can be produced in the purine metabolic pathway via different precursors:

Guanine deamination by guanine deaminase
Hypoxanthine conversion by xanthine oxidoreductase

Biochem/physiol Actions

A high level of xanthine is implicated in metabolic disorders like Lesch-Nyhan syndrome. A xanthine-based biosensor may be useful for detecting xanthine in food and clinical samples. Blood and urine samples of patients with renal failure, gout and xanthinuria show high levels of xanthine.

storage

Store at 2-8°C

Purification Methods

The monohydrate separates in a microcrystalline form on slow acidification with acetic acid of a solution of xanthine in dilute NaOH. It is also precipitated by addition of conc NH3 to its solution in hot 2N HCl (charcoal). After washing with H2O and EtOH, it is dehydrated by heating above 125o. Its solubility in H2O is 1 in 14,000parts at 16o and 1 in 1,500parts of boiling H2O, and separates as plates . It has no m, but the perchlorate has m 262-264o [Lister Purines Part II, Fused Pyrimidines Brown Ed, Wiley-Interscience pp252-253 1971, ISBN 0-471-38205-1]. [Beilstein 26 H 447, 26 I 131, 26 II 260, 26 III/IV 2327.]

References

[1] Ahlawat, Jyoti Minakshi Sharma and Chandra S. Pundir. “Advances in xanthine biosensors and sensors: A review.” Enzyme and Microbial Technology 69 1 (2023).

Material Safety Data Sheet(MSDS)

Spectrum Detail

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