Sucres du squelette et nucléobases

Les sucres de la colonne vertébrale et les nucléobases sont des composants essentiels des acides nucléiques tels que l'ADN et l'ARN. La colonne vertébrale est composée de groupes de sucre et de phosphate, tandis que les nucléobases forment le code génétique par appariement des bases. Ces composés sont cruciaux dans l'étude de la génétique et de la biologie moléculaire. Chez CymitQuimica, vous pouvez trouver une variété de sucres de la colonne vertébrale et de nucléobases pour la recherche et l'utilisation en laboratoire.

N6-(2-Isopentenyl)adenine

Produit contrôlé

CAS :

• 2365-40-4

Applications N6-(2-Isopentenyl)adenine can be used in biological study for cytokinins stimulated expression of stress-related proteins and transcripts in Arabidopsis thaliana with isopentenyltransferase overexpression.
References Skalak, J., et al.: J. Exp. Bot., 67, 2861-2873 (2016)

Formule : C₁₀H₁₃N₅

Couleur et forme : White To Off-White

Masse moléculaire : 203.24

6-​Phenyl-​2-​thiouracil

CAS :

• 36822-11-4

Applications 6-​Phenyl-​2-​thiouracil is a reagent used in the synthesis of antifungal agents.
References Gullapelli, K. et al.: Int. J. Pharm. Biol. Sci., 4, 59 (2014);

Formule : C₁₀H₈N₂OS

Couleur et forme : Off-White

Masse moléculaire : 204.248

Guanine

CAS :

• 73-40-5

Impurity Aciclovir EP Impurity B
Applications Guanine is one of the five nucleobases incorporated into biological nucleic acids. Guanine, along with adenine and cytosine, is present in both DNA and RNA, whereas thymine is usually seen only in DNA, and uracil only in RNA. Aciclovir EP Impurity B.
References Geslain, R., et al.: J. Biol. Chem., 284, 27760 (2009); Manini, P., et al.: Toxicol. Lett., 190, 41 (2009); Gong, B., et al.: Biochem., 48, 11961 (2009); Sugimoto, M., et al.: J. Agric. Food Chem., 58, 374 (2010);

Formule : C₅H₅N₅O

Couleur et forme : White To Off-White

Masse moléculaire : 151.13

Adenine Hemisulfate

Produit contrôlé

CAS :

• 321-30-2

Stability Hygroscopic
Applications Adenine Hemisulfate can be one of the factors that influence in vitro growth and shoot multiplication of pomegranate. It can be used in biological study along with varied levels of sucrose, light intensity, and MS medium hydrogen ion concentration where those factors can all significantly influence multiplication and growth of Punica granatum shoots.
References Singh, P., & Patel, R., M.: Bioscan, 9, 1031-1035 (2014)

Formule : C₅H₅N₅·SO₄H₂

Couleur et forme : Neat

Masse moléculaire : 368.33

5-Formyl Uracil

Produit contrôlé

CAS :

• 1195-08-0

Applications Nucleoside derivatives of 5-substituted uracil have been explored for their potential application as anti-viral agents and in the treatment of tumors.
References Ressner, E.C., et al.: J. Med. Chem., 19, 1, 194 (1976)

Formule : C₅H₄N₂O₃

Couleur et forme : Neat

Masse moléculaire : 140.10

Guanosine-13C,15N2 Hydrate

CAS :

• 197227-95-5

Formule : CC₉H₁₃₁₅N₂N₃O₅·H₂O

Couleur et forme : Neat

Masse moléculaire : 304.24

N2-Acetylguanine

Produit contrôlé

CAS :

• 19962-37-9

Applications Protected guanine
References Tretyakova, N., et al.: Chem. Res. Toxicol., 20, 284 (2007), Rana, S., et al.: Bioorg. Med. Chem. Lett., 19, 670 (2009),

Formule : C₇H₇N₅O₂

Couleur et forme : Neat

Masse moléculaire : 193.16

5-Hydroxymethyluracil

Produit contrôlé

CAS :

• 4433-40-3

Applications 5-Hydroxymethyluracil (cas# 4433-40-3) is a compound useful in organic synthesis.

Formule : C₅H₆N₂O₃

Couleur et forme : Neat

Masse moléculaire : 142.11

9-(2-Propenyl)adenine

Produit contrôlé

CAS :

• 4121-39-5

Applications 9-(2-Propenyl)adenine is an N-substituted purine used in the preparation of mesityl dihydroisoxazolyl homo-N-nucleosides.
References Thalassitis, A. et al.: Bioorg. Med. Chem. Lett., 19, 6433 (2009); Chiacchio, U. et al.: Tetrahedron, 60, 441 (2004)

Formule : C₈H₉N₅

Couleur et forme : Neat

Masse moléculaire : 175.19

4-Thiouracil

CAS :

• 591-28-6

Applications 4-Thiouracil is a derivative of Uracil (U801000), which is a nitrogenous base in RNA nucleic acid. 4-Thiouracil is used for tagging in cell type-specific RNA isolation from intact complex tissues.
References Miller, M., et al.: Nat. Methods, 6, 439 (2009); Seth, P., et al.: J. Med. Chem., 53, 8309 (2010); Cui, H., et al.: Eur. J. Med. Chem., 45, 5140 (2010);

Formule : C₄H₄N₂OS

Couleur et forme : Neat

Masse moléculaire : 128.152

6-​Methyl-​2-​thiouracil

Produit contrôlé

CAS :

• 56-04-2

Applications 6-​Methyl-​2-​thiouracil is a derivative of methylthiouracil (M330710), a competitive inhibitor of Nitric Oxide Synthase (NOS). Potential anti-inflammatory agent.
References Palumbo, A. et al.: Biochem. Bioph. Res. Co. 282, 793(2001), Ku, S. et al.: Toxicol. App. Pharmacol., 288, 374 (2015);

Formule : C₅H₆N₂OS

Couleur et forme : White

Masse moléculaire : 142.18

6-Amino-5-1,3-dimethyl-5-(formamido)uracil

Produit contrôlé

CAS :

• 7597-60-6

Applications 6-Amino-5-1,3-dimethyl-5-(formamido)uracil is a substitued uracilic metabolite of methylxanthine and is also a metabolite of Theophylline (T343850). 6-Amino-5-1,3-dimethyl-5-(formamido)uracil has been used for the synthesis of 8-arylaminotheophyllines.
References Peri, G., et. al.: Toxicol. Lett., 18, 133 (1983); Celardo, A., et. al.: Eur. J. Drug Metab. Ph., 10, 279 (1985); Senga, K., et. al.: J. Heterocyclic Chem., 15, 641 (1978)

Formule : C₇H₁₀N₄O₃

Couleur et forme : Neat

Masse moléculaire : 198.18

5,6-Dimethylthiouracil

CAS :

• 28456-54-4

Applications 5,6-Dimethylthiouracil is a heterocyclic building block.

Formule : C₆H₈N₂OS

Couleur et forme : Off-White

Masse moléculaire : 156.21

5-Hydroxymethyl-2’-deoxyuridine

Produit contrôlé

CAS :

• 5116-24-5

Stability Hygroscopic
Applications 5-Hydroxymethyl-2’-deoxyuridine acts as a biomarker for the diagnosis for oxidative stress in humans. Used as a diagnostic to for propensitiy for the development of breast cancer.
References McAnulty, L. et al.: App. Physiol. Nutr. Metab., 36, 976 (2011); Djuric Z. et al.: Cancer Epidemiol. Biomarkers. Prev., 10, 147 (2001); Frenkel, K. et al.: 7, 49, (1998);

Formule : C₁₀H₁₄N₂O₆

Couleur et forme : White To Off-White

Masse moléculaire : 258.228

5-Chlorouracil

Produit contrôlé

CAS :

• 1820-81-1

Impurity Fluorouracil EP Impurity E
Applications Used for the experimental and clinical treatment of neoplastic and viral diseases. Fluorouracil EP Impurity E.
References Yu, H., et al.: J. Biol. Chem., 268, 15935 (1993), Staleva, L., et al.: Mutat. Res., 370, 81(1996), Harris, V., et al.: J. Mol. Biol., 326, 1389 (2003)

Formule : C₄H₃ClN₂O₂

Couleur et forme : Neat

Masse moléculaire : 146.53

N4-Hydroxycytosine

CAS :

• 20555-88-8

N4-Hydroxycytosine is an intramolecular hydrogen that inhibits the replication of viruses by inhibiting their DNA polymerase. It is a structural analogue of cytosine and can be found in both left- and right-handed forms, which are termed isomers. The chemical study of N4-hydroxycytosine has shown it to have inhibitory effects on human immunodeficiency virus and hepatitis C virus. 13C-NMR spectroscopy has been used to identify the chemical structure of N4-hydroxycytosine and its reactivity with other molecules. N4-Hydroxycytosine can be synthesized by the reaction between formaldehyde and 2,3,5,6-tetrafluorocytosine.

Formule : C₄H₅N₃O₂

Degré de pureté : Min. 95%

Couleur et forme : Powder

Masse moléculaire : 127.1 g/mol

6-Phenyl-2-thiouracil

CAS :

• 36822-11-4

6-Phenyl-2-thiouracil (6PTU) is an alkylthio group that inhibits the growth of microorganisms by binding to DNA. 6PTU binds to the oxygen nucleophiles in DNA and prevents transcription and replication. It also has a positive effect on the synthesis of proteins, which may be due to its ability to regulate gene transcription. 6PTU has been shown to inhibit cell growth in culture by blocking protein synthesis. This drug is used as an analytical method for determining urinary glucose levels in animals because it reacts with glucose in urine samples. The reaction produces a chromatographic peak that can be quantified using an electrochemical detector.

Formule : C₁₀H₈N₂OS

Degré de pureté : Min. 95%

Couleur et forme : Powder

Masse moléculaire : 204.25 g/mol

N9-Benzyladenine

CAS :

• 4261-14-7

N9-Benzyladenine is a drug that regulates the activity of adenosine receptors. It is an endogenous substance found in plants and animals, but can also be synthesized chemically. N9-Benzyladenine has been shown to inhibit protein synthesis by binding to cyclic nucleotide phosphodiesterases, resulting in the accumulation of cyclic AMP and activation of adenylate cyclase. This leads to an increase in intracellular cAMP levels that is mediated by Gs protein coupled receptors. N9-Benzyladenine has been shown to have anti-inflammatory properties, which may be due to its ability to inhibit the release of tumor necrosis factor-α (TNF-α).

Formule : C₁₂H₁₁N₅

Degré de pureté : Min. 95%

Couleur et forme : Powder

Masse moléculaire : 225.25 g/mol

8-Aminopurine

CAS :

• 20296-09-7

8-Aminopurine is an aminopurine that is used as a research tool in magnetic resonance spectroscopy. The proton magnetic resonance spectrum of 8-aminopurine shows two characteristic peaks at 3.0 and 4.2 ppm, which are assigned to the aminopurine tautomers (3-HPA, 4-HPA). The kinetic stability of 8-aminopurine in water is pH dependent and has been shown to be strongly dependent on the presence of aldehyde oxidase (AO) activity. AO activity can be inhibited by the addition of dimethylformamide or other non-specific inhibitors such as 2,6-dichloroisonicotinic acid.

Formule : C₅H₅N₅

Degré de pureté : Min. 95%

Couleur et forme : White Powder

Masse moléculaire : 135.13 g/mol

6-Chlorouracil

CAS :

• 4270-27-3

Intermediate in the synthesis of alogliptin

Formule : C₄H₃ClN₂O₂

Couleur et forme : White Slightly Yellow Powder

Masse moléculaire : 146.53 g/mol