Nucleótidos
Los nucleótidos son compuestos orgánicos que sirven como building blocks de los ácidos nucleicos, esenciales para la formación del ADN y ARN. Cada nucleótido está compuesto por una base nitrogenada, una molécula de azúcar y uno o más grupos fosfato. Estos nucleótidos se unen para formar largas cadenas, creando el material genético que lleva y transmite la información genética en todos los organismos vivos. En esta sección, encontrará una amplia variedad de nucleótidos cruciales para la investigación en genética, biología molecular y bioquímica. Son fundamentales para estudiar los procesos genéticos, sintetizar ácidos nucleicos y desarrollar herramientas diagnósticas y terapéuticas. En CymitQuimica, ofrecemos nucleótidos de alta calidad para apoyar su investigación científica y aplicaciones, asegurando precisión y fiabilidad en sus experimentos.
Subcategorías de "Nucleótidos"
Se han encontrado 2634 productos de "Nucleótidos"
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9-(b-D-Arabinofuranosyl)hypoxanthine
CAS:<p>9-(b-D-Arabinofuranosyl)hypoxanthine is a glycosylated analogue of the incretin hormone glucagon-like peptide-1 (GLP-1). It has been shown to inhibit Streptococcus pyogenes and other bacteria. 9-(b-D-Arabinofuranosyl)hypoxanthine has also been shown to have inhibitory properties against zirconium oxide, pulmonary vasodilation, squamous cell carcinoma, and rate constant. This drug has not been studied in clinical trials for antiviral prophylaxis or arabinoside. The only known side effects are drug interactions with cyclin D2 and nitrate reductase.</p>Fórmula:C10H12N4O5Pureza:Min. 98 Area-%Forma y color:White PowderPeso molecular:268.23 g/mol2'-O-Methylpseudouridine
CAS:2'-O-methylpseudouridine is a modified nucleoside that belongs to the group of modified nucleosides. It is found in ribonucleic acid (RNA) and deoxyribonucleic acid (DNA). 2'-O-methylpseudouridine is a derivative of pseudouridine and can be categorized as a modified nucleotide. The chemical structure of this compound has been shown using reversed-phase high-performance liquid chromatography. This technique can help identify modifications in RNA, such as 5-carbamoylmethyluridine. 2'-O-methylpseudouridine is an epigenetic marker that may be used to study tissues or sequences.Pureza:Min. 95%Forma y color:PowderPeso molecular:258.23 g/mol2'-O-(2-Methoxyethyl)uridine
CAS:<p>2'-O-(2-Methoxyethyl)uridine is a nucleoside analog that inhibits the synthesis of DNA, RNA and protein. It can be used as an antimetabolite to treat cancer and prevents tumor growth by interfering with cell division. 2'-O-(2-Methoxyethyl)uridine is often used in combination with other chemotherapeutic drugs. This drug is not active against bacteria and does not inhibit the growth of bacteria. The major disadvantage of this drug is its lack of efficacy against tumors, which may be due to the lack of penetration through the cell membrane or damage to DNA caused by radiation, abiotic factors, or malfunctioning enzymes. 2'-O-(2-Methoxyethyl)uridine has been shown to cause damage to cells by altering their metabolism and affecting the function of their mitochondria. Damage can cause cells to die through apoptosis or necrosis.</p>Fórmula:C12H18N2O7Pureza:Min. 95 Area-%Forma y color:PowderPeso molecular:302.28 g/mol8-Bromocyclic adenosine diphosphate ribose sodium
CAS:<p>8-Bromocyclic adenosine diphosphate ribose sodium salt (8BCAR) is a cytosolic cyclase inhibitor that inhibits the synthesis of cyclic adenosine monophosphate (cAMP). 8BCAR blocks the activation of protein kinase A, which is an enzyme involved in the phosphorylation of cAMP. 8BCAR has been shown to inhibit cardiac hypertrophy induced by growth factor-β1 and to increase mitochondrial membrane potential, as well as to suppress cardiomyocyte apoptosis. In addition, this drug can be used for the treatment of cancers such as leukemia and lymphoma.</p>Fórmula:C15H19BrN5NaO13P2Pureza:Min. 95%Forma y color:PowderPeso molecular:642.19 g/mol2',5'-Dideoxyguanosine
CAS:<p>2',5'-Dideoxyguanosine is a modified nucleoside analog of guanosine, one of the four natural nucleosides found in RNA and DNA. This synthetic molecule has hydroxyl groups removed from the 2' and 5' positions of the sugar component, which alters its ability to participate in nucleic acid synthesis.</p>Fórmula:C10H13N5O3Pureza:Min. 97 Area-%Forma y color:White PowderPeso molecular:251.25 g/molGemcitabine HCl
CAS:<p>Anticancer nucleoside; DNA synthesis interference</p>Fórmula:C9H11F2N3O4·HClPureza:Min. 98 Area-%Forma y color:White PowderPeso molecular:299.66 g/mol1-(b-D-Arabinofuranosyl)uracil
CAS:<p>1-(b-D-Arabinofuranosyl)uracil is a nucleoside analog containing uracil, a nitrogenous base found in RNA, and a β-D-Arabinofuranose sugar. This compound could be used to study its effects on DNA/RNA synthesis.</p>Fórmula:C9H12N2O6Pureza:Min. 95%Forma y color:White PowderPeso molecular:244.2 g/mol2'-O-Methyl-5-methylcytidine
CAS:<p>2'-O-Methyl-5-methylcytidine is a nucleoside that is categorized as a modified nucleic acid. It is structurally similar to cytidine, but has an additional methyl group. 2'-O-Methyl-5-methylcytidine stabilizes the conformational structure of nucleic acids and can be used to regulate the activity of enzymes. This modified nucleoside has been shown to have thermophilic characteristics when it interacts with human cells. The stability of 2'-O-Methyl-5-methylcytidine increases with increasing temperature, making it possible for this molecule to regulate gene expression in organisms that live at high temperatures.</p>Fórmula:C11H17N3O5Pureza:Min. 95%Forma y color:White Off-White PowderPeso molecular:271.27 g/molL-Adenosine
CAS:<p>L-Adenosine is a nucleoside that is naturally synthesized in the body and is also found in certain foods. It has a variety of functions, including as an adenosine receptor agonist, a transport agent, and a substrate for metabolic pathways. In addition to its function as an adenosine receptor agonist, L-adenosine can be transported into mammalian cells by facilitated diffusion. The uptake of L-adenosine into cells is dependent on the concentration of extracellular adenosine and its concentration-response curve has been determined experimentally. L-Adenosine also acts as an inhibitor of phosphodiesterase enzyme which increases cAMP levels in cells. This increase in cAMP leads to increased calcium ion influx into the cell, which may lead to activation of protein kinase A (PKA) and protein kinase C (PKC). L-Adenosine has been shown to have cardiac effects at high concentrations. These effects may be</p>Fórmula:C10H13N5O4Pureza:Min. 95%Forma y color:White PowderPeso molecular:267.24 g/molS-(5'-Adenosyl)-L-homocysteine dihydrate
CAS:<p>S-(5'-Adenosyl)-L-homocysteine dihydrate is the active form of homocysteine. It has been shown to inhibit the growth of HL-60 cells and induce apoptosis in these cells. S-(5'-Adenosyl)-L-homocysteine dihydrate binds to dsDNA as a methyltransferase inhibitor, which leads to DNA methylation and inhibits DNA binding. The inhibition of DNA binding prevents transcription, leading to cell death. This drug has also been shown to have an anti-atherosclerotic effect in a model system by inhibiting the adenosine receptor.</p>Fórmula:C14H20N6O5S•(H2O)2Pureza:Min. 98 Area-%Forma y color:PowderPeso molecular:420.44 g/mol3-(3-Amino-3-carboxypropyl)uridine
CAS:<p>3-(3-Amino-3-carboxypropyl)uridine is an uridine analog that is used in the study of protein synthesis. It can be used to determine the amino acid sequence of a protein, or to identify proteins with similar sequences. 3-(3-Amino-3-carboxypropyl)uridine can also be used to study enzymatic reactions, such as those involved in the synthesis of polypeptides. This molecule has been shown to produce disulfide bonds and form covalent bonds with other molecules. The three-dimensional structure of this molecule has been determined by NMR spectroscopy and X-ray crystallography.</p>Fórmula:C13H19N3O8Pureza:Min. 95%Forma y color:PowderPeso molecular:345.31 g/molAdenosine 5'-triphosphate magnesium salt
CAS:<p>Adenosine-5'-triphosphate (ATP) is a nucleotide found in all living cells. It is used as a coenzyme for adenosine kinase, adenosine phosphokinase, and adenosine deaminase. ATP also acts as an important signaling molecule and has been shown to be involved in the regulation of cell metabolism, muscle contraction, and other cellular processes. The human body normally produces enough ATP to meet its needs through aerobic metabolism of glucose or fatty acids, but under certain conditions such as intense muscular activity or insufficient oxygen, more ATP must be produced by anaerobic metabolism. In these situations the mitochondria use glycolysis to produce lactic acid which is then converted into pyruvic acid by the enzyme lactate dehydrogenase. Pyruvic acid is then oxidized by the enzyme pyruvate dehydrogenase complex to produce acetyl-CoA which is further oxidized by the enzyme complex called Krebs</p>Fórmula:C10H18N5O13P3•xMgPureza:Min. 95 Area-%Forma y color:White Off-White PowderPeso molecular:509.20 g/mol6-Dimethylamino-9-(b-D-ribofuranosyl)purine
CAS:<p>6-Dimethylamino-9-(b-D-ribofuranosyl)purine (6-DMAP) is an analog of adenine that has been shown to have anticancer activity in human serum and tissue culture. 6-DMAP can inhibit the synthesis of ATP, leading to cell death by significantly inhibiting cellular processes such as glycolysis and DNA replication. 6-DMAP also has a significant cytotoxicity on various types of cancer cells and plant tissues. The mechanism of action for the anticancer activity of 6-DMAP is not yet known, but it may be due to its ability to interfere with purine metabolism or its ability to form covalent bonds with DNA.</p>Fórmula:C12H17N5O4Pureza:Min. 98 Area-%Forma y color:White PowderPeso molecular:295.3 g/molAcetyl coenzyme A trilithium
CAS:Acetyl coenzyme A trilithium salt (ACAT) is a prodrug that is metabolized in vivo to the active form, acetyl coenzyme A. Acetyl coenzyme A has been shown to inhibit the growth of human carcinoma cells and some typhimurium strains. It binds to cytochrome P450, which is involved in the oxidation of acetate and other organic substrates. ACAT has also been shown to be effective against squamous cell carcinoma by inhibiting the production of reactive oxygen species (ROS) in these cells. The anticancer activity of ACAT may be due to its ability to inhibit the conversion of amines into heterocyclic amines, which are known carcinogens.Fórmula:C23H35Li3N7O17P3SPureza:Min. 95%Forma y color:White PowderPeso molecular:827.37 g/mol5'-Deoxy-5'-(methylthio)adenosine
CAS:<p>5'-Deoxy-5'-(methylthio)adenosine is a nucleoside that has been shown to inhibit the growth of bowel cancer cells. 5'-Deoxy-5'-(methylthio)adenosine blocks the synthesis of DNA and RNA by inhibiting the action of enzymes involved in DNA metabolism. It also inhibits methionine synthase and phosphorylase, which are involved in protein synthesis. This compound has been shown to be effective in treating cancer tissues due to its ability to inhibit polymerase chain reactions and prevent the formation of cancerous cells.</p>Fórmula:C11H15N5O3SPureza:(Hplc-Ms) Min. 98 Area-%Forma y color:White PowderPeso molecular:297.34 g/mol2-Iodoadenosine
CAS:<p>2-Iodoadenosine is a chemical compound that is produced from the oxidation of uridine. It is used in the synthesis of peptides, which are important for biological processes like signal transduction and cell growth. 2-Iodoadenosine can be made by coupling other molecules to an adenosine molecule. This process involves a cross-coupling reaction with palladium catalysts or hydroxylation reactions with sodium borohydride. The resulting product has been shown to have anticancer and anti-microbial activities against protozoan parasites and cyclic peptide structures.</p>Fórmula:C10H12IN5O4Pureza:Min. 97 Area-%Forma y color:PowderPeso molecular:393.14 g/mol3'-Amino-3'-deoxycytidine
CAS:<p>It is an antiviral agent that inhibits the replication of RNA viruses by acting as a chain terminator during RNA synthesis. It is also a valuable research tool for studying viral replication mechanisms and is being explored for potential anticancer properties.</p>Fórmula:C9H14N4O4Pureza:Min. 95%Forma y color:PowderPeso molecular:242.23 g/mol3'-O-Acetylthymidine
CAS:<p>3'-O-Acetylthymidine is a dinucleoside analogue of thymidine. It has been used as a model for human immunodeficiency virus (HIV) and has been shown to be resistant to HIV infection in vitro. 3'-O-Acetylthymidine inhibits the synthesis of protein by binding to the ribosomal RNA of the host cell, preventing the formation of an aminoacyl-tRNA synthetase complex with tRNA. This prevents the incorporation of amino acids into proteins, leading to inhibition of protein synthesis and cell death. 3'-O-Acetylthymidine also inhibits HIV replication by competing with deoxycytidine triphosphate for incorporation into DNA, preventing the synthesis of viral DNA. 3'-O-Acetylthymidine is hydrolyzed by esterases or glucuronidases, oxidized by cytochrome P450 enzymes, reduced by glutathione reductase</p>Fórmula:C12H16N2O6Pureza:Min. 98 Area-%Forma y color:White PowderPeso molecular:284.27 g/molN2,7-Dimethylguanosine
CAS:<p>N2,7-Dimethylguanosine is a modified nucleotide that is an intermediate in the biosynthesis of guanine. This modification is catalyzed by an enzyme called methyltransferase, which transfers a methyl group from S-adenosylmethionine to the guanine base. N2,7-dimethylguanosine has been shown to be involved in epigenetic regulation and translation regulation as well as having a biological function as an acceptor for aminoacylation. N2,7-dimethylguanosine can be detected with mass spectrometry and can also be immobilized onto solid supports for use in biochemical pathways.<br>br><br>N2,7-dimethylguanosine is synthesized from S-adenosylmethionine (SAM) and 5'-methylthioadenosine (MTA) by a series of reactions involving methyltetrahydrofolate reductase and methy</p>Fórmula:C12H18N5O5Pureza:Min. 95%Forma y color:White PowderPeso molecular:312.3 g/molN4-Methyl-2'-O-methyl-cytidine
CAS:<p>N4-Methyl-2'-O-methyl-cytidine is a nucleoside analog that is used as an antibiotic. The ribosomal RNA in prokaryotes has been found to be sensitive to this drug, which inhibits protein synthesis by reversibly binding to the 50S subunit of the ribosome and inhibiting translocation. N4-Methyl-2'-O-methyl-cytidine also binds to the ribonucleoprotein in eukaryotic cells, blocking translation of mRNA into proteins. N4-Methyl-2'-O-methyl-cytidine is effective against Gram positive bacteria, such as Staphylococcus aureus and Clostridium perfringens, while being inactive against Gram negative bacteria. This drug has a molecular weight of 197 and can be broken down into low molecular weight fragments or high molecular weight fragments.</p>Fórmula:C11H17N3O5Pureza:Min. 95%Forma y color:White PowderPeso molecular:271.27 g/mol
