Find where to buy products from suppliers in the USA, including: distributors, industrial manufacturers in America, bulk supplies and wholesalers of raw ingredients & finished goods.
Search for products or services, then visit the American suppliers website for prices, SDS or more information. You can also view suppliers in Australia, NZ or the UK.
| Product | Description | |
|---|---|---|
| Geneticin disulfate (G418 sulfate) | 1g Pack Size. Group: Antibiotics, Bioactive Small Molecules. Formula: C20H40N4O10 ·2H2SO4. CAS No. 108321-42-2. Prepack ID 59693889-1g. Molecular Weight 692.71. See USA prepack pricing. |  |
| Geneticin Sulfate USP | G 418 Sulfate. Glucocorticoid. Grades: USP. CAS No. 108321-42-2. Product ID: 8-04643. Molecular formula: C20H40N4O10. 2H2SO4. Mole weight: 692.71. Purity: potency: ≥450 μg per mg. |  |
| Aspartate aminotransferase, Genetically engineered bacteria | Aspartate aminotransferase, Genetically engineered bacteria (EC 2.6.1.1) (AST) is a transaminase enzyme, is often used in biochemical studies. Aspartate aminotransferase catalyzes aspartate and alpha-ketoglutarate converts to oxaloacetate and glutamate. Aspartate aminotransferase can be found in cerebrospinal fluid, exudates, and transudates [1]. Uses: Scientific research. Group: Signaling pathways. Alternative Names: EC 2.6.1.1; GOT; AST. CAS No. 9000-97-9. Pack Sizes: 200 U; 1 KU. Product ID: HY-P3016. |  |
| G418 Sulfate (Geneticin®) | G418 Sulfate is an aminoglycoside related to Gentamycin, used as a selective agent in bacterial genetics. It is toxic to yeast, bacteria, many plant and mammalian cells, helminths and protozoans. Group: Biochemicals. Alternative Names: O-2-Amino-2,7-dideoxy-D-glycero-α-D-gluco-heptopyranosyl-(1?4)-O-[3-deoxy-4-C-methyl-3-(methylamino)- β-L-arabinopyranosyl-(1?6)]-2-deoxy-D-streptamine Sulfate (1:2); Antibiotic G 418 Sulfate; G418 Sulfate. Grades: Molecular Biology Grade. CAS No. 108321-42-2. Pack Sizes: 1g, 5g, 10g, 25g. Molecular Formula: C20H40N4O10 2H2SO4, Molecular Weight: 692.71. US Biological Life Sciences. |  Worldwide |
| G418 Sulfate (Geneticin®) 50mg/ml Solution, Sterile-filtered | G418 Sulfate is an aminoglycoside related to Gentamycin. It is used as a selective agent in bacterial genetics. It is toxic to yeast, bacteria, many plant and mammalian cells, helminths and protozoans. Group: Biochemicals. Grades: Molecular Biology Grade. CAS No. 108321-42-2. Pack Sizes: 20ml, 5x20ml. US Biological Life Sciences. | Worldwide |
| 0.5% DiI Encapsulated DOTAP Liposomes | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. Categories: Niosomes, ethosomes, and transfersomes. |  |
| 0.5% DiI Encapsulated DOTMA Liposomes | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% DiO Encapsulated DOTAP Liposomes | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% DiO Encapsulated DOTMA Liposomes | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% NBD-DOPE Encapsulated DC-Chol:DOPE (1:2) Liposomes | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% NBD-DOPE Encapsulated DC-Chol:DOPE (50:50) Liposomes | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% NBD-DOPE Encapsulated DDAB:Chol (50:50) Liposomes | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% NBD-DOPE Encapsulated DDAB:DOPE (50:50) Liposomes | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% NBD-DOPE Encapsulated DDAB Liposomes | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% NBD-DOPE Encapsulated DOTAP:Chol (50:50) Liposomes | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% NBD-DOPE Encapsulated DOTAP:Chol:DOPE (10:75:5) Liposomes | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% NBD-DOPE Encapsulated DOTAP:DOPE (50:50) Liposomes | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% NBD-DOPE Encapsulated DOTMA:Chol (50:50) Liposomes | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% NBD-DOPE Encapsulated DOTMA:DOPE (50:50) Liposomes | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% NBD-DOPE Encapsulated GL-67:DOPE (1:2) Liposomes | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% Rhod-PE Encapsulated DC-Chol:DOPE (1:2) Liposomes | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% Rhod-PE Encapsulated DC-Chol:DOPE (50:50) Liposomes | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% Rhod-PE Encapsulated DDAB:Chol (50:50) Liposomes | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% Rhod-PE Encapsulated DDAB:DOPE (50:50) Liposomes | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% Rhod-PE Encapsulated DDAB Liposomes | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% Rhod-PE Encapsulated DOTAP:Chol (50:50) Liposomes | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% Rhod-PE Encapsulated DOTAP:Chol:DOPE (10:75:5) Liposomes | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% Rhod-PE Encapsulated DOTAP:DOPE (50:50) Liposomes | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% Rhod-PE Encapsulated DOTMA:Chol (50:50) Liposomes | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% Rhod-PE Encapsulated DOTMA:DOPE (50:50) Liposomes | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. Categories: Niosomes, ethosomes, and transfersomes. | |
| 0.5% Rhod-PE Encapsulated GL-67:DOPE (1:2) Liposomes | Cationic liposomes are used for the delivery of genetic materials such as various types of DNA and RNA. In order to capture more plasmid efficiently, the negative charge of pDNA is neutralized with positive charge of cationic lipids due to electrostatic interaction and deliver them into cells. So they are researched for use as delivery vectors in gene therapy. Uses: Cancer research; target delivery. Group: Cationic liposome. Categories: Niosomes, ethosomes, and transfersomes. | |
| 1,1-Diphenyl | 1,1-Diphenyl is a polycyclic aromatic hydrocarbon (PAH) that has been shown to cause genetic effects in yeast and developmental defects and mitotic abnomalities in sea urchins. Group: Biochemicals. Grades: Highly Purified. CAS No. 92-52-4. Pack Sizes: 100g, 500g. Molecular Formula: C12H10, Molecular Weight: 154.21. US Biological Life Sciences. | Worldwide |
| 1,2,3,4-Tetra-O-benzyl-b-D-glucopyranoside | 1,2,3,4-Tetra-O-benzyl-b-D-glucopyranoside is a chemical glycoside used as an intermediate in the pharmaceutical industry. It's instrumental in the synthesis of certain anti-viral drugs and research on genetic disorders related to carbohydrate-deficiency syndromes. Synonyms: Benzyl 2,3,4-tri-O-benzyl-b-D-glucopyranoside. CAS No. 27851-29-2. Molecular formula: C34H36O6. Mole weight: 540.65. |  |
| 1,2,6-Tri-O-benzyl-2-deoxy-4-O-[phenoxy(thiocarbonyl)]-2-phthalimido-b-D-glucopyranoside | 1,2,6-Tri-O-benzyl-2-deoxy-4-O-[phenoxy(thiocarbonyl)]-2-phthalimido-b-D-glucopyranoside is a specialized intermediate compound, often used in biomedical research of potential drugs targeting cancer and other genetic diseases. Molecular formula: C42H37NO8S. Mole weight: 715.81. | |
| 1-(2'-Deoxy-5'-O-DMT-3'-O-nitrophenylsulphonyl-b-D-lyxofuranosyl)thymine | 1-(2'-Deoxy-5'-O-DMT-3'-O-nitrophenylsulphonyl-b-D-lyxofuranosyl)thymine is a biochemical reagent used mainly in genetic research. It's typically used in nucleic acid synthesis and can be a component in pharmaceuticals designed to target genetic diseases or disorders. Synonyms: 1-5[5-O-(4,4'-Dimethoxytrityl)-3-O-nitrophenylsulphonyl-2-deoxy-b-D-lyxofuranosyl]thymine; 5'-O-DMT-nosyl-lyxothymidine. Grades: 95%. CAS No. 444717-20-8. Molecular formula: C37H35N3O11S. Mole weight: 729.75. | |
| 1,2-Dibromo-1,1-difluoroethane(hbfc-132bb2) | 1,2-Dibromo-1,1-difluoroethane(hbfc-132bb2). Uses: Designed for use in research and industrial production. Additional or Alternative Names: 1,2-dibromo-1,1-difluoro-ethan;CF2BrCH2Br;Difluorodibromoethane;ethane,1,2-dibromo-1,1-difluoro-;Genetron 132b-B2;genetron132b-b2;HBFC-132B;1,2-DIBROMO-1,1-DIFLUOROETHANE. Product Category: Heterocyclic Organic Compound. CAS No. 75-82-1. Molecular formula: C2H2Br2F2. Mole weight: 223.84. Density: 2.224. Product ID: ACM75821. Alfa Chemistry ISO 9001:2015 Certified. |  |
| 1,3,4,6-Tetra-O-acetyl-N-propanoyl-D-mannosamine | 1,3,4,6-Tetra-O-acetyl-N-propanoyl-D-mannosamine is a key compound used in biomedicine for the synthesis of potential antiviral drugs. It possesses significant activity against various viral diseases by inhibiting viral replication or entry into host cells. Additionally, it has shown promise in the treatment of certain genetic disorders associated with abnormal glycosylation. This compound plays a crucial role in drug discovery and development, paving the way for innovative therapeutic interventions. Synonyms: 1,3,4,6-Tetra-O-acetyl-2-deoxy-2-[(1-oxopropyl)amino]-D-mannopyranose. Grades: ≥ 95%. CAS No. 379219-32-6. Molecular formula: C17H25NO10. Mole weight: 403.38. | |
| 1,3,5-Tri-O-benzoyl-α-D-arabinofuranose | 1,3,5-Tri-O-benzoyl-α-D-arabinofuranose, a compound widely used in biomedical industry, exhibits tremendous potential in catalyzing the synthesis of diverse pharmaceuticals, especially nucleoside analogs that exhibit potent activity against viral infections, such as HIV and Hepatitis. Moreover, this versatile compound also serves as a precursor in the synthesis of arabinonucleic acids that possess remarkable attributes in investigating and treating genetic disorders, thereby holding immense promise in a range of therapeutic applications. Synonyms: (2R,3S,4S,5R)-5-((benzoyloxy)methyl)-3-hydroxytetrahydrofuran-2,4-diyl dibenzoate; 1-O,3-O,5-O-Tribenzoyl-alpha-D-arabinofuranose. Grades: ≥95% by HPLC. CAS No. 314289-48-0. Molecular formula: C26H22O8. Mole weight: 462.45. | |
| 1-(3'-O-Methyl-b-D-xylofuranosyl)cytosine | 1-(3'-O-Methyl-b-D-xylofuranosyl)cytosine, a formidable antiviral compound, has garnered significant attention in combating various viral infections. Its mechanism of action revolves around impeding the replication of viral genetic material by selectively hindering viral DNA polymerases. Remarkably, this agent has showcased exceptional efficacy against herpesviruses and poxviruses, thereby establishing itself as a paramount weapon in battling viral maladies. | |
| 1,4-b-Galactotetraose | 1,4-b-Galactotetraose is a tetrasaccharide used in the pharmaceutical industry for research into specific bacterial enzyme activity, carbohydrate-protein interactions and potential therapies for galactosemia, a rare genetic metabolic disorder. Synonyms: O-b-D-Galactopyranosyl-(1?4)-O-b-D-galactopyranosyl-(1?4)-O-b-D-galactopyranosyl-(1?4)-D-galactose. CAS No. 107595-47-1. Molecular formula: C24H42O21. Mole weight: 666.58. | |
| 1-[(5E)-3-O-[(Bis-di-isopropylamino)(2-cyanoethoxy)phosphino]-5,6-dideoxy-6-(diethoxyphosphinyl)-2-O-(2-methoxyethyl)-β-D-ribo-hex-5-enofuranosyl]-5-methyluracil | 1-[(5E)-3-O-[(Bis-di-isopropylamino)(2-cyanoethoxy)phosphino]-5,6-dideoxy-6-(diethoxyphosphinyl)-2-O-(2-methoxyethyl)-β-D-ribo-hex-5-enofuranosyl]-5-methyluracil is an exceptionally powerful antiviral therapy that has shown remarkable promise in fighting HIV-1 and other retroviral infections. With its distinctive molecular structure and inhibitive function against the viral genetic makeup, this drug has the potential to pave the way for a new generation of antiviral treatments. Clinical trials have proven its efficacy, highlighting its vital role in the treatment of conditions previously thought incurable. The uniqueness of this product lies in its complexity its scientific brilliance lies in its simplicity. Experience the power of science with 1-[(5E)-3-O-[(Bis-di-isopropylamino)(2-cyanoethoxy)phosphino]-5,6-dideoxy-6-(diethoxyphosphinyl)-2-O-(2-methoxyethyl)-β-D-ribo-hex-5-enofuranosyl]-5-methyluracil. Synonyms: 3-[[ (2R, 3R, 4R, 5R) -2-[ (E) -2-diethoxyphosphorylethenyl]-4- (2-methoxyethoxy) -5- (5-methyl-2, 4-dioxopyrimidin-1-yl) oxolan-3-yl]oxy-[di (propan-2-yl) amino]phosphanyl]oxypropanenitrile. Grades: ≥95%. CAS No. 1345562-47-1. Molecular formula: C27H46N4O10P2. Mole weight: 648.62. | |
| 1-[(5E)-5,6-Dideoxy-6-(diethoxyphosphinyl)-2-O-methyl-b-D-ribo-hex-5-enofuranosyl]uracil | 1-[(5E)-5,6-Dideoxy-6-(diethoxyphosphinyl)-2-O-methyl-b-D-ribo-hex-5-enofuranosyl]uracil, an immensely powerful antiviral compound, finds its application in the management of viral infections. It exhibits remarkable efficacy in selectively impeding RNA virus replication by perturbing their genetic material. Its utility extends to combatting ailments caused by RNA viruses, such as influenza, hepatitis C, and respiratory syncytial virus. This prodigious molecule, with its distinctive molecular architecture and mode of action, assumes invaluable importance within the realm of biomedical science, offering unprecedented prospects in combating detrimental viral pathogens. | |
| 1-(5-O-(Dimethoxytrityl)-β-D-2-deoxyribofuranosyl)-3-nitropyrrole | 1-(5-O-(Dimethoxytrityl)-β-D-2-deoxyribofuranosyl)-3-nitropyrrole is a biochemical utilized in synthesizing oligonucleotides. This chemical compound essentially aids drugs used in genetic research and in treating genetic diseases with gene therapy. Synonyms: 1-(5-O-(DIMETHOXYTRITYL)-BETA-D-2-DEOXYRIBOFURANOSYL)-3-NITROPYRROLE; (2R,3S,5R)-2-[[bis(4-methoxyphenyl)-phenylmethoxy]methyl]-5-(3-nitropyrrol-1-yl)oxolan-3-ol; (2R, 3S, 5R)-2- ( (Bis (4-methoxyphenyl) (phenyl)methoxy)methyl)-5- (3-nitro-1H-pyrrol-1-yl)tetrahydrofuran-3-ol; 1H-Pyrrole,1-[5-O-[bis(4-methoxyphenyl)phenylmethyl]-2-deoxy-b-D-erythro-pentofuranosyl]-3-nitro-. Grades: ≥ 95%. CAS No. 166984-63-0. Molecular formula: C30H30N2O7. Mole weight: 530.58. | |
| 1-(5-O-(Dimethoxytrityl)-β-D-2-deoxyribofuranosyl)-5-nitroindole | 1-(5-O-(Dimethoxytrityl)-β-D-2-deoxyribofuranosyl)-5-nitroindole is an integral element in the synthesis of oligonucleotides, manifesting its criticality in genetic research endeavours, specifically for ameliorating genetic afflictions. This compound's significance is pronounced in the constitution of antisense drugs that target selective DNA or RNA sequences. Synonyms: 1-(5-O-(DIMETHOXYTRITYL)-beta-D-2-DEOXYRIBOFURANOSYL)-5-NITROINDOLE; (2R,3S,5R)-2-[[bis(4-methoxyphenyl)-phenylmethoxy]methyl]-5-(5-nitroindol-1-yl)oxolan-3-ol; 1-(5'-O-DMT-b-D-2-deoxyribofuranosyl)-5-nitroindole; (2R, 3S, 5R)-2- ( (Bis (4-methoxyphenyl) (phenyl)methoxy)methyl)-5- (5-nitro-1H-indol-1-yl)tetrahydrofuran-3-ol. Grades: ≥ 97%. CAS No. 869355-18-0. Molecular formula: C34H32N2O7. Mole weight: 580.63. | |
| 1-a-Methylaminotrityl-2-deoxy-3,5-di-O-toluoyl-D-ribose | 1-a-Methylaminotrityl-2-deoxy-3,5-di-O-toluoyl-D-ribose - a fundamental compound within the biomedical sphere, utilized for the synthesis of oligonucleotides. These synthetic molecules boast immense potential in treating a range of dire maladies including inherited genetic disorders and malignant tumors, broadening usage in the pursuit of enhancing human health and wellbeing. | |
| 1-(β-D-2-Deoxyribofuranosyl)-3-nitropyrrole | 1-(β-D-2-Deoxyribofuranosyl)-3-nitropyrrole is a specialized biomedical compound utilized in the study of genetic disorders. Specifically, this product is employed to facilitate research into DNA damage, mutations, and the subsequent repair mechanisms. Grades: ≥ 97%. CAS No. 157066-48-3. Molecular formula: C9H12N2O5. Mole weight: 228.20. | |
| 1-Deoxy-2-fluoronojirimycin | 1-Deoxy-2-fluoronojirimycin is a pharmacological therapy available for patients suffering from type 1 Gaucher disease. This rare genetic ailment is known to result in the accumulation of lipids within a few vital organs and tissues. Inhibiting enzyme alpha-glucosidase, which plays a crucial role in breaking down intricate sugars, is the primary mechanism of action of this drug. By obstructing the enzymatic activity, 1-Deoxy-2-fluoronojirimycin effectively mitigates lipid buildup, thereby enhancing the symptoms of Gaucher's disease. Molecular formula: C6H12FNO4. Mole weight: 181.16. | |
| 1-Deoxy-D-ribose | 1-Deoxy-D-ribose is a vital product extensively utilized in the biomedicine industry. It plays a significant role in the synthesis of nucleotides, DNA, and RNA, thus contributing to genetic material integrity and stability. Furthermore, it is involved in various physiological processes and is utilized as a therapeutic agent in the treatment of certain rare genetic disorders and diseases related to nucleotide metabolism. Synonyms: 1,4-Anhydro-L-ribitol. CAS No. 51607-76-2. Molecular formula: C5H10O4. Mole weight: 134.2. | |
| 1-O-Acetyl-2,3,5-tri-O-benzoyl-4-thio-b-D-ribofuranose | 1-O-Acetyl-2,3,5-tri-O-benzoyl-4-thio-b-D-ribofuranose, an essential biochemical, serves as a vital intermediary in synthesizing nucleotides and nucleosides such as antiviral and anticancer drugs, such as AZT and FdUrd. Moreover, it acts as a crucial reagent in the creation of modified RNA and DNA oligonucleotides, which enable the possible cure of genetic and metabolic disorders, thereby demonstrating its therapeutic potential. Synonyms: 3R, 4S, 5R) -2-acetoxy-5- ( (benzoyloxy) methyl) tetrahydrothiophene-3, 4-diyl dibenzoate; 2,3,5-Tri-O-benzoyl-1-O-acetyl-4-thio-D-ribofuranose; NSC782571; NSC-782571; F12880; [(2R,3S,4R)-5-acetyloxy-3,4-dibenzoyloxythiolan-2-yl]methyl benzoate; (3R, 4S, 5R) -2-acetoxy-5- ( (benzoyloxy) methyl) tetrahydrothiophene-3, 4-diyldibenzoate. CAS No. 1015447-26-3. Molecular formula: C28H24O8S. Mole weight: 520.55. | |
| 2,2'-Anhydro-5'-O-toluoyluridine | 2,2'-Anhydro-5'-O-toluoyluridine, an intriguing compound, emerges as a mesmerizing biomedicine marvel in the therapeutic realm for select viral afflictions. Possessing a potent antiviral attribute, this drug ingeniously thwarts viral replication through its ability to impede the delicate process of viral genetic material synthesis. By targeting disease-causing viruses with unparalleled precision and efficacy, this tantalizing wonder holds immense promise as a formidable remedy for viral infections, thus presenting an auspicious prospect within the biomedical landscape. Synonyms: 2,2'-Anhydro-5'-O-toluoyl-D-uridine. Molecular formula: C17H16N2O6. Mole weight: 344.32. | |
| (2, 2'-Bis (2-indenyl) biphenyl) zirconium Dichloride | (2, 2'-Bis (2-indenyl) biphenyl) zirconium Dichloride forms a metallocene and co-catalyst system with methylaluminoxane (MAO). It is also derived from 1,1-Diphenyl (D486980), which is a polycyclic aromatic hydrocarbon (PAH) that has been shown to cause genetic effects in yeast and developmental defects and mitotic abnormalities in sea urchins. Group: Biochemicals. Grades: Highly Purified. CAS No. 312968-31-3. Pack Sizes: 5mg, 10mg. Molecular Formula: C30H20Cl2Zr, Molecular Weight: 542.61. US Biological Life Sciences. | Worldwide |
| 2,3,4,6-Tetra-O-acetyl-b-D-galactopyranosyl bromide | 2,3,4,6-Tetra-O-acetyl-b-D-galactopyranosyl bromide is a useful reagent in the biomedical industry utilized for various purposes. It is commonly employed in the synthesis of carbohydrates and glycoconjugates for studying cell-surface interactions, such as carbohydrate-protein recognition. Additionally, it plays a crucial role in designing drugs to treat diseases related to abnormal carbohydrate metabolism or glycosylation, like cancer and genetic disorders. Synonyms: 1-Bromo-2,3,4,6-tetra-O-acetyl-b-D-galactopyranose. CAS No. 19285-38-2. Molecular formula: C14H19BrO9. Mole weight: 411.2. | |
| 2,3,4,6-Tetra-O-acetyl-D-galactopyranose | 2,3,4,6-Tetra-O-acetyl-D-galactopyranose is a carefully synthesized derivative of a crucial monosaccharide, D-Galactose. This compound plays a role in drug development for galactosemia, a rare genetic metabolic disorder. It is also used in biomedical research, studying lipid metabolism and glycosylation processes. CAS No. 47339-09-3. Molecular formula: C14H20O10. Mole weight: 348.3. | |
| 2',3'-ddA-CE Phosphoramidite | The 2',3'-ddA-CE Phosphoramidite, an indispensable biomedical compound, finds widespread application in the synthesis of oligonucleotides for research investigations. It assumes a profound function in the advancement of targeted therapeutic drugs with a focus on distinct ailments and genetic anomalies, encompassing viral infections and specific cancer subtypes. Synonyms: N6-diisobutylaminomethylidene-2',3'-dideoxyAdenosine, 5'-[(2-cyanoethyl)-(N,N-diisopropyl)]-phosphoramidite. Molecular formula: C28H47N8O3P. Mole weight: 574.70. | |
| 2',3'-Dideoxy-6-thio-inosine | 2',3'-Dideoxy-6-thio-inosine, a powerful antiviral agent widely employed in the biomedical field, exhibits commendable efficacy against HIV, hepatitis B, and hepatitis C viral infections. Its mechanism of action involves impeding the replication of the virus via disruption of its genetic material. This pharmaceutical substance holds immense significance as a pivotal instrument in antiviral therapeutic interventions and scientific investigations. Synonyms: 6-Thiopurine-2',3'-dideoxyriboside; 9-(2,3-Dideoxy-b-D-ribofuranosyl)-6-mercaptopurine. CAS No. 126502-10-1. Molecular formula: C10H12N4O2S. Mole weight: 252.29. | |
| 2',3'-Dideoxyadenosine-5'-triphosphate lithium salt | 2',3'-Dideoxyadenosine-5'-triphosphate lithium salt, a nucleoside analogue renowned for inhibiting DNA polymerase, has found widespread use in treatments for HIV and research surrounding neurological disorders, whilst also serving as a staple in studying DNA sequencing and a variety of genetic diseases. Synonyms: ddATP. Grades: ≥ 95% (HPLC). CAS No. 93939-70-9. Molecular formula: C10H12N5O11P3·3Li. Mole weight: 498.91. | |
| 2',3'-O-pAnisyl-Guo | 2',3'-O-pAnisyl-Guo is a synthetic nucleoside involved in the biomedical industry as a building block in oligonucleotide synthesis. It's used in the research of genetic diseases, development of gene therapy, and production of antiviral and anticancer drugs. CAS No. 98346-16-7. Molecular formula: C18H19N6O6. Mole weight: 401.38. | |
| 2,4,6-Tri-O-benzoyl-3-benzyl-D-mannopyranosyl trichloroacetimidate | 2,4,6-Tri-O-benzoyl-3-benzyl-D-mannopyranosyl trichloroacetimidate is a highly valuable chemical reagent due to its unparalleled potential in the synthesis of oligosaccharides and glycoconjugates. Its significance extends to drug discovery research, where it serves a critical role in the development of new compounds to treat a variety of debilitating diseases such as cancer, infectious diseases, and genetic disorders. Furthermore, this versatile compound is also utilized as a powerful molecular tool in comprehensive studies of the intricate structures and functions of carbohydrates and glycoconjugates within manifold biological systems. Molecular formula: C36H30Cl3NO9. Mole weight: 726.98. | |
| 2,4-Dinitrophenyl b-D-glucopyranoside | 2,4-Dinitrophenyl b-D-glucopyranoside is primarily used in biomedicine as a substrate to study enzyme kinetics. Specifically, this compound is used in the research of genetic disorders involving beta-glucosidase, such as Gaucher's disease. Synonyms: 2',4'-Dinitrophenylglucopyranoside; 25775-97-7; (3R,4S,5S,6R)-2-(2,4-dinitrophenoxy)-6-(hydroxymethyl)oxane-3,4,5-triol; 2,4-Dnpg; 2',4'-Dinitrophenyl-beta-D-glucopyranoside; SCHEMBL5063678; 2,4-Dinitrophenyl hexopyranoside; DTXSID40948639; beta-D-Glucopyranoside, 2,4-dinitrophenyl. CAS No. 25775-97-7. Molecular formula: C12H14N2O10. Mole weight: 346.25. | |
| 2',5'-Bis-O-(triphenylmethyl)uridine | 2',5'-Bis-O-(triphenylmethyl)uridine, a revolutionary biomedical product, emerges as a beacon of hope in combating RNA-related diseases. By harnessing its extraordinary chemical constitution and inherent traits, this wonder substance may pave the way for groundbreaking RNA-based therapeutics, revolutionizing the treatment landscape for ailments like cancer and genetic disorders. Synthesis of this prodigious compound employs the intricate techniques of organic chemistry. Synonyms: 2',5'-di-O-trityluridine; 2',5'-O-Bis(triphenylmethyl)uridine; NSC 94674; 2'-O,5'-O-Ditrityluridine; 1-((2R,3R,4R,5R)-4-Hydroxy-3-(trityloxy)-5-((trityloxy)methyl)tetrahydrofuran-2-yl)pyrimidine-2,4(1H,3H)-dione. Grades: ≥95%. CAS No. 6554-11-6. Molecular formula: C47H40N2O6. Mole weight: 728.83. | |
| 2,5-Dideoxy-2,5-imino-D-glucitol | 2,5-Dideoxy-2,5-imino-D-glucitol, a groundbreaking biomedical marvel, emerges as a formidable solution for combating certain abstruse genetic anomalies. Strikingly, this compound manifests potent inhibitory prowess against particular enzymes, invariably surmounting the grievous manifestations of these ailments. Synonyms: 2,5-Anhydro-2,5-imino-D-glucitol. CAS No. 132295-44-4. Molecular formula: C6H13NO4. Mole weight: 163.17. | |
| 2,5-Dideoxy-2,5-imino-D-mannitol HCl | 2,5-Dideoxy-2,5-imino-D-mannitol HCl, a highly efficacious pharmaceutical compound, occupies a prominent position in the biomedical landscape owing to its profound therapeutic value in tackling Fabry disease. This exceptionally intricate and infrequent genetic anomaly manifests itself as an aberrant accumulation of globotriaosylceramide (GL-3). The remarkable inhibitory action of this medication on the alpha-galactosidase A enzyme effectively restricts the accrual of GL-3, thereby thwarting the relentless advancement of this incapacitating ailment. Synonyms: 2,5-Anhydro-2,5-imino-D-mannitol HCl. CAS No. 210115-92-7. Molecular formula: C6H13NO4.HCl. Mole weight: 199.63. | |
| 2-Acetamido-2-deoxy-b-D-glucopyranosyl amine | 2-Acetamido-2-deoxy-b-D-glucopyranosyl amine, a highly sought-after compound within the biomedical industry, finds extensive utility in synthesizing glycoconjugates earmarked for diagnostic and therapeutic application. Undeniably pivotal, this compound assumes a paramount role in drug development, with a specific focus on combating an array of afflictions such as infections, cancers, and genetic anomalies. Synonyms: 2-acetamido-2-deoxy-beta-D-glucopyranosylamine; N-Acetyl-beta-D-glucosaminylamine; 4229-38-3; 2-Acetamido-2-deoxy-beta-D-glucosylamine; 2-Acetamido-2-deoxy-b-D-glucopyranosyl amine; 2-Acetamido-2-deoxy-b-D-glucosylamine; N-Acetyl-b-glucosaminylamine; N-[(2R,3R,4R,5S,6R)-2-amino-4,5-dihydroxy-6-(hydroxymethyl)oxan-3-yl]acetamide; N-acetyl-beta-glucosaminylamine; 114910-04-2; 2-Acetamido-1-amino-1,2-dideoxy-beta-D-glucopyranose; N-((2R,3R,4R,5S,6R)-2-AMINO-4,5-DIHYDROXY-6-(HYDROXYMETHYL)TETRAHYDRO-2H-PYRAN-3-YL)ACETAMIDE. CAS No. 18615-50-4. Molecular formula: C8H16N2O5. Mole weight: 220.22. | |
| 2-(Acetylamino)-1-O-benzyl-2-deoxy-3,4-O-isopropylidene-6-O-(2,3,4,6-tetra-O-acetyl-b-D-galactopyranosyl)-D-galactopyranoside | 2-(Acetylamino)-1-O-benzyl-2-deoxy-3,4-O-isopropylidene-6-O-(2,3,4,6-tetra-O-acetyl-b-D-galactopyranosyl)-D-galactopyranoside is a biochemical agent primarily used in medical research for glycosylation studies. It can be applied in studying and developing biopharmaceutical drugs to treat genetic disorders like Congenital Disorders of Glycosylation. Synonyms: 2-(Acetylamino)-1-O-benzyl-2-deoxy-3,4-O-isopropylidene-6-O-(2,3,4,6-tetra-O-acetyl-b-D-galactopyranosyl)-D-galactopyranoside; [(2R,3S,4S,5R,6R)-6-[[(3aR,4R,7R,7aR)-7-acetamido-2,2-dimethyl-6-phenylmethoxy-4,6,7,7a-tetrahydro-3aH-[1,3]dioxolo[4,5-c]pyran-4-yl]methoxy]-3,4,5-triacetyloxyoxan-2-yl]methyl acetate. CAS No. 352273-66-6. Molecular formula: C32H43NO15. Mole weight: 681.68. | |
| 2-Amino-2'-deoxyadenosine 5'-triphosphate | 2-Amino-2'-deoxyadenosine 5'-triphosphate, a crucial compound extensively employed in the biomedical sector, plays a pivotal role as a DNA polymerase substrate, facilitating the intricate processes of DNA replication and repair. Remarkably, it partakes in synthesizing indispensable DNA and RNA molecules, fundamentally contributing to a myriad of cellular mechanisms. Its significance transcends biological boundaries as it finds profound utility in drug development endeavors aimed at combatting DNA-associated ailments, including cancer and genetic disorders. Synonyms: [[(2R,3S,5R)-5-(2,6-diaminopurin-9-yl)-3-hydroxyoxolan-2-yl]methoxy-hydroxyphosphoryl] phosphono hydrogen phosphate; Ddaptp; (((2R,3S,5R)-5-(2,6-Diamino-9H-purin-9-yl)-3-hydroxytetrahydrofuran-2-yl)methyl)triphosphoric acid; 2-NH2-Datp; 2-Amino-2'-deoxyadenosine 5'-triphosphate; 2-amino-2' deoxyadenosine 5'-triphosphate; 2,6-Diaminopurine deoxyribonucleoside triphosphate; Boc-(R)-3-Amino-3-(3-nitro-phenyl)-propionicacid; Adenosine 5'-(tetrahydrogen triphosphate), 2-amino-2'-deoxy-; 9-[2-Deoxy-5-O- (hydroxy{[hydroxy (phosphonooxy) phosphoryl]oxy}phosphoryl) pentofuranosyl]-2-imino-2, 9-dihydro-1H-purin-6-amine. CAS No. 81503-63-1. Molecular formula: C10H17N6O12P3. Mole weight: 506.20. | |
| 2'-Amino-2'-deoxycytidine-5'-triphosphate | 2'-Amino-2'-deoxycytidine-5'-triphosphate, a pivotal entity in the realm of biomedicine, takes the lead in this era of unravelling genomic mysteries. Bearing immense significance, this prodigious compound unlocks the gateway to DNA sequencing and synthesis, facilitating the precise scrutiny of genetic data. Its indispensability surfaces in the quest to unveil mutations, unravel the enigma of DNA replication, and probe into multifarious malignancies and hereditary anomalies. Synonyms: 2'-Amino-dCTP; 2'-Amino-2'-deoxy-D-cytidine-5'-triphosphate. Grades: ≥90% by AX-HPLC. CAS No. 65444-12-4. Molecular formula: C9H17N4O13P3. Mole weight: 482.17. | |
| 2'-Amino-2'-deoxyguanosine-5'-triphospate tetralithium salt | 2'-Amino-2'-deoxyguanosine-5'-triphosphate tetralithium salt, a compound of utmost importance in the realm of biomedical research and drug discovery, exhibits its significance as a precursor for the synthesis of altered nucleotides, particularly employed in DNA and RNA sequencing. Its indispensable role in elucidating DNA methylation, epigenetic modifications, and mutagenesis studies across diverse ailments, encompassing cancer and genetic disorders, renders it a critical component. Synonyms: 2'-Amino-2'-deoxy-D-guanosine-5'-triphospate tetralithium salt. Grades: 95%. CAS No. 108269-13-2. Molecular formula: C10H17N6O13P3Li4. Mole weight: 549.96. | |
| 2-Amino-2'-deoxy-N2,N6-bis(diisobutylaminomethylidene)-5'-O-DMT-adenosine 3'-CE phosphoramidite | 2-Amino-2'-deoxy-N2,N6-bis(diisobutylaminomethylidene)-5'-O-DMT-adenosine 3'-CE phosphoramidite stands as an indispensable entity in spurring nucleic acid synthesis. As an agent that cultivates the establishment of phosphodiester bonds in solid-phase synthesis of DNA and RNA fragments, it provides fundamental advancements to the probing and treatment of genetic maladies and cancerous conditions. When utilized to its fullest capacity, 2-Amino-2'-deoxy-N2,N6-bis(diisobutylaminomethylidene)-5'-O-DMT-adenosine 3'-CE phosphoramidite galvanizes the synthesis of oligonucleotides and probes, profoundly accelerating treatment and diagnosis of ailments. Synonyms: 5'-(4,4'-Dimethoxytrityl)-N2,N6-bis(diisobutylaminomethylidene)-2,6-diamino-2'-deoxypurine riboside 3'-[(2-cyanoethyl)-(N,N-diisopropyl)]-phosphoramidite; 2-Amino-2'-deoxy-N2,N6-bis(diisobutylaminomethylidene)-5'-O-DMT-D-adenosine 3'-CE phosphoramidite; 2-Amino-dA-CE phosphoramidite. Molecular formula: C58H83N10O6P. Mole weight: 1047.32. | |
| 2'-Amino-2'-deoxyuridine-5'-triphosphate | 2'-Amino-2'-deoxyuridine-5'-triphosphate, a pivotal constituent employed in the field of molecular biology, assumes the role of a vital substrate for DNA polymerase within the context of PCR amplifications. Such utilization affords the opportunity for the meticulous labeling and integration of modified nucleotides. Advantaged by its indispensability, this product facilitates genetic sequencing, fluorescent labeling, as well as manipulation of genes of utmost significance in the domains of drug discovery and disease diagnostics. Synonyms: 2'Amino-dUTP. Grades: ≥90% by AX-HPLC. CAS No. 61468-90-4. Molecular formula: C9H16N3O14P3. Mole weight: 483.16. | |
| 2-Amino-6-methoxy-2'-C-methylguanosine 5'-triphosphate triethylammonium salt | 2-Amino-6-methoxy-2'-C-methylguanosine 5'-triphosphate triethylammonium salt, a remarkable chemical, unveils its unfathomable effects by unraveling the intricate mechanisms underlying RNA methylation, RNA splicing, and RNA modification. With a structural resemblance to guanosine triphosphate (GTP), this analog emerges as a pivotal tool fostering innovative research endeavors concerning the enigmatic domains of cancer biology and genetic disorders. Molecular formula: C12H20N5O14P3·C24H60N4. Mole weight: 955.99. | |
Our database is helping our users find suppliers everyday.
