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| Product | Description | |
|---|---|---|
| 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. | |
| 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. | |
| 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. | |
| 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. | |
| 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. | |
| 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. | |
| 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. | |
| 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. | |
| 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. | |
| 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. | |
| 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. | |
| 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. | |
| 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. | |
| 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. | |
| 1,2-Decanediol | 1,2-Decanediol is a 1,2-alkanediol that is used as an antimicrobial agent in cosmetics. 1,2-Decanediol also suppresses the fluidity of the hydrophilic and hydrophobic groups in the phospholipid membrane of liposomes. Group: Biochemicals. Grades: Highly Purified. CAS No. 1119-86-4. Pack Sizes: 1g, 5g. Molecular Formula: C10H22O2, Molecular Weight: 174.28. US Biological Life Sciences. |  Worldwide |
| 1,2-Dierucoyl-sn-glycero-3-phosphocholine | 1,2-Dierucoyl-sn-glycero-3-phosphocholine (DEPC) is the composition of liposome membrane. 1,2-Dierucoyl-sn-glycero-3-phosphocholine is used for the preparation of liposomes and studying the properties of lipid bilayers. The GO (glucose oxidase) in the 1,2-Dierucoyl-sn-glycero-3-phosphocholine liposome shows the high activity [1] [2]. Uses: Scientific research. Group: Biochemical assay reagents. Alternative Names: DEPC; L-Dierucoyl lecithin; Dierucoyllecithin. CAS No. 51779-95-4. Pack Sizes: 10 mM * 1 mL; 500 mg. Product ID: HY-W127499. |  |
| 1,2-Dierucoyl-sn-glycero-3-phosphocholine | 1,2-Dierucoyl-sn-glycero-3-phosphocholine is a phosphocholine with erucic acid. It can be used in formulation of micelles, liposomes, and other types of artificial membranes. Synonyms: DEPC; L-Dierucoyl lecithin; (7R,22Z)-4-Hydroxy-N,N,N-trimethyl-10-oxo-7-[[(13Z)-1-oxo-13-docosen-1-yl]oxy]-3,5,9-trioxa-4-phosphahentriacont-22-en-1-aminium 4-Oxide Inner Salt; [R-(Z,Z)]-4-Hydroxy-N,N,N-trimethyl-10-oxo-7-[(1-oxo-13-docosenyl)oxy]-3,5,9-trioxa-4-phosphahentriacont-22-en-1-aminium Inner Salt 4-Oxide; Dierucoyl-L-α-glycerophosphorylcholine; Dierucoyllecithin; 1,2-di-(13Z-docosenoyl)-sn-glycero-3-phosphocholine. Grades: >98% by HPLC. CAS No. 51779-95-4. Molecular formula: C52H100NO8P. Mole weight: 898.32. |  |
| 1,2-Dihexanoyl-sn-glycero-3-phosphocholine | 1,2-dihexanoyl-sn-glycero-3-phosphocholine is a phosphatidylcholine. It can play a role as a surfactant and is commonly used in the generation of micelles, liposomes, and other types of artificial membranes. Uses: Scientific research. Group: Biochemical assay reagents. CAS No. 34506-67-7. Pack Sizes: 25 mg. Product ID: HY-W127457. | |
| 1,2-Dilauroyl-sn-glycero-3-phosphate (Sodium Salt) | 1,2-Dilauroyl-sn-glycero-3-phosphate (Sodium Salt) is useful in elevating the role of phosphatidic acids in micelles, liposomes and artificial membranes. Group: Biochemicals. Grades: Highly Purified. CAS No. 108321-06-8. Pack Sizes: 100mg, 250mg. Molecular Formula: C27H53O8P Na, Molecular Weight: 558.7. US Biological Life Sciences. | Worldwide |
| 1,2-Dimyristoyl-sn-glycero-3-PG (sodium salt) | 1,2-Dimyristoyl-sn-glycero-3-PG (DMPG) is a phospholipid containing the saturated long-chain (14:0) myristic acid inserted at the sn-1 and sn-2 positions. It can be used in the generation of micelles, liposomes, and other types of artificial membranes. Synonyms: 1,2-Dimyristoyl-sn-glycero-3-PG (sodium salt); 1,2-Dimyristoyl-sn-glycero-3-phospho-rac-(1-glycerol) sodium salt. Grades: ≥99%. CAS No. 200880-40-6. Molecular formula: C34H66O10PNa. Mole weight: 688.85. | |
| 1,2-Dimyristoyl-sn-glycero-3-phosphate Sodium Salt | 1,2-Dimyristoyl-sn-glycero-3-phosphate Sodium Salt is used to evaluate phosphatidic acids (PAs) in micelles, liposomes, and artificial membrane. Also, it is derived from (S)-(+)-2,2-Dimethyl-1,3-dioxolane-4-methanol (D472635), which is an MEK inhibitor with anti-tumor activity. Group: Biochemicals. Grades: Highly Purified. CAS No. 80724-31-8. Pack Sizes: 1mg. Molecular Formula: C31H60NaO8P. US Biological Life Sciences. | Worldwide |
| 1,2-Dimyristoyl-sn-glycero-3-phosphocholine | 1,2-Dimyristoyl-sn-glycero-3-phosphocholine is used in the generation of micelles and liposomes.1,2-Dimyristoyl-sn-glycero-3-phosphocholine (DMPC) is a phospholipid found in eukaryotes, but not most bacteria. It is used in lipid bilayer studies to analyze organelle and cell membranes. Its also been used to study molecules in membranes, such as the interaction between DMPC and proteins in lab-constructed dimyristoyl phosphatidyl choline vesicles.CAS Number:18194-24-6. Group: Biochemicals. Alternative Names: 3,5,9-Trioxa-4-phosphatricosan-1-aminium, 4-hydroxy-N,N,N-trimethyl-10-oxo-7-[(1-oxotetradecyl)oxy]-, hydroxide, inner salt, 4-oxide, (R)-; Choline, hydroxide, dihydrogen phosphate, inner salt, ester with 1,2-dimyristin, L- (8CI); Choline, phosphate, ester with L-1,2-dimyristin(6CI); 1,2-Bis(myristoyl)-sn-glycerophosphocholine; 1,2-Dimyristoyl-3-sn-phosphatidylcholine; 1,2-Dimyristoyl-3-sn-phosphatidylcholine; 1,2-Dimyristoyl-L-3-phosphatidylcholine; 1,2-Dimyristoyl-L-phosphatidylcholine; 1,2-Dimyristoyl-L-a-phosphatidylcholine; 1,2-Dimyristoyl-sn-3-glycerophosphocholine; 1,2-Dimyristoyl-sn-glycero-3-phosphatidylcholine; 1,2-Dimyristoyl-sn-glycero-3-phosphocholine; 1,2-Dimyristoyl-sn-glycero-3-phosphocholine; 1,2-Dimyristoyl-sn-glycero-3-phosphorylcholine; 1,2-Dimyristoyl-sn-glycerol-3. Grades: Highly Purified. CAS No. 18194-24-6. Pack Sizes: 250mg, 500mg, 1g. US Biological Life Sciences. | Worldwide |
| 1,2-Dimyristoyl-sn-glycero-3-phosphocholine-d9 | 1,2-Dimyristoyl-sn-glycero-3-phosphocholine-d9 is labelled 1,2-Dimyristoyl-sn-glycero-3-phosphocholine (D493590) which is used in the generation of micelles and liposomes. Group: Biochemicals. Grades: Highly Purified. Pack Sizes: 1mg, 2.5mg. Molecular Formula: C36H63D9NO8P, Molecular Weight: 686.99. US Biological Life Sciences. | Worldwide |
| 1,2-Dimyristoyl-sn-glycero-3-phospho-rac-(1-glycerol) (Sodium Salt) | 1,2-Dimyristoyl-sn-glycero-3-phospho-rac-(1-glycerol) (Sodium Salt), is used in the production of micelles, liposomes, and other type of artificial membranes. Group: Biochemicals. Grades: Highly Purified. CAS No. 200880-40-6. Pack Sizes: 25mg, 100mg. Molecular Formula: C34H66O10P Na, Molecular Weight: 688.85. US Biological Life Sciences. | Worldwide |
| 1,2-Dimyristoyl-sn-glycero-d5-3-phospho-rac-(1-glycerol) (Sodium Salt) | 1,2-Dimyristoyl-sn-glycero-d5-3-phospho-rac-(1-glycerol) (Sodium Salt) is labelled 1,2-Dimyristoyl-sn-glycero-3-phospho-rac-(1-glycerol) (D479625, Sodium Salt), which is used in the production of micelles, liposomes, and other type of artificial membranes. Group: Biochemicals. Grades: Highly Purified. Pack Sizes: 1mg, 2.5mg. Molecular Formula: C34H61D5NaO10P, Molecular Weight: 693.88. US Biological Life Sciences. | Worldwide |
| 1,2-Dioleoyloxy-3-(dimethylamino)propane | 1,2-Dioleoyloxy-3-(dimethylamino)propane is a cationic amphiphile that is being studied for its potential role in preparing liposomes for interaction with artificial and biological membranes and cellular transfection techniques. Synonyms: 9-Octadecenoic acid (9Z)-1,1'-[1-[(dimethylamino)methyl]-1,2-ethanediyl] ester; DODAP; (Z)-3-(dimethylamino)propane-1,2-diyl dioleate. Grades: 95%. CAS No. 127512-29-2. Molecular formula: C41H77NO4. Mole weight: 648.05. | |
| 1,2-Dioleoyl-sn-glycero-3-phosphocholine | 1,2-Dioleoyl-sn-glycero-3-phosphocholine (DOPC) is a phospholipid and is commonly used alone, or with other components, in the generation of micelles, liposomes, and other types of artificial membranes. Uses: Scientific research. Group: Natural products. Alternative Names: DOPC. CAS No. 4235-95-4. Pack Sizes: 10 mM * 1 mL; 50 mg; 100 mg. Product ID: HY-113424A. | |
| 1,2-Dioleoyl-sn-glycero-3-phosphocholine-d9 | 1,2-Dioleoyl-sn-glycero-3-phosphocholine-d9 is labelled 1,2-Dioleoyl-sn-glycero-3-phosphocholine (D493605) which is used in the generation of micelles and liposomes. Group: Biochemicals. Grades: Highly Purified. Pack Sizes: 1mg, 2.5mg. Molecular Formula: C44H75D9NO8P, Molecular Weight: 795.17. US Biological Life Sciences. | Worldwide |
| 1,2-Dipalmitoyl-sn-glycerol 3-phosphate sodium | 1,2-Dipalmitoyl-sn-glycerol 3-phosphate sodium (compound 3-F7) is a phosphatidic acid and a human endogenous metabolite [1]. It is used in the generation of micelles, liposomes, and artificial membranes. Uses: Scientific research. Group: Natural products. CAS No. 169051-60-9. Pack Sizes: 5 mg. Product ID: HY-113437A. | |
| 1,2-Distearoyl-sn-glycero-3-PG (sodium salt) | 1,2-Distearoyl-sn-glycero-3-PG is a phospholipid containing the saturated long-chain (18:0) stearic acid inserted at the sn-1 and sn-2 positions. It can be used in the generation of micelles, liposomes, and other types of artificial membranes. Synonyms: 18:0 PG; 1,2-Distearoyl-sn-glycero-3-PG (sodium salt); 1,?2-Distearoyl-sn-glycero-3-phospho-(1'-rac-glycerol); 1,2-Distearoyl-sn-glycero-3-phosphoglycerol; 1,2-DSPG. Grades: >98.0% (HPLC). CAS No. 200880-42-8. Molecular formula: C42H82NaO10P. Mole weight: 801.1. | |
| 1,2-Distearoyl-sn-Glycero-3-Phosphatidylglycerol sodium | 1,2-Distearoyl-sn-Glycero-3-Phosphatidylglycerol (sodium) is the component of liposomes for drug delivery [1]. Uses: Scientific research. Group: Biochemical assay reagents. Alternative Names: DSPG sodium. CAS No. 200880-42-8. Pack Sizes: 50 mg; 100 mg; 250 mg; 500 mg. Product ID: HY-145742. | |
| 1,2-Distearoyl-sn-glycero-3-phosphocholine | 1,2-Distearoyl-sn-glycero-3-phosphocholine is a derivative of Lecithin (L320050) whcih is a surfactant. 1,2-Distearoyl-sn-glycero-3-phosphocholine is also used in the generation of micelles and liposomes. Group: Biochemicals. Grades: Highly Purified. CAS No. 816-94-4. Pack Sizes: 25mg, 50mg. Molecular Formula: C44H88NO8P, Molecular Weight: 790.15. US Biological Life Sciences. | Worldwide |
| 1,2-Distearoyl-sn-glycero-3-phosphocholine-d9 | 1,2-Distearoyl-sn-glycero-3-phosphocholine-d9 is labelled 1,2-Distearoyl-sn-glycero-3-phosphocholine (D493600), a derivative of Lecithin (L320050) whcih is a surfactant. 1,2-Distearoyl-sn-glycero-3-phosphocholine is also used in the generation of micelles and liposomes. Group: Biochemicals. Grades: Highly Purified. Pack Sizes: 1mg, 2.5mg. Molecular Formula: C44H79D9NO8P, Molecular Weight: 799.2. US Biological Life Sciences. | Worldwide |
| 1,2-Distearoyl-sn-glycero-3-phosphoethanolamine | 1,2-Distearoyl-sn-glycero-3-phosphoethanolamine is used in the generation of micelles and liposomes. Group: Biochemicals. Grades: Highly Purified. CAS No. 1069-79-0. Pack Sizes: 50mg, 250mg. Molecular Formula: C41H82NO8P, Molecular Weight: 748.07. US Biological Life Sciences. | Worldwide |
| 1,2-Distearoyl-sn-glycero-3-phospho-L-serine sodium salt | 1,2-Distearoyl-sn-glycero-3-phospho-L-serine sodium salt, an imperative lipidic component, finds application in developing liposomes deployed for efficacious drug delivery. This compound exhibits a remarkable efficacy in targeting neoplastic cells and delivering pharmacological agents directly to the site of the malignancy. Moreover, this chemical entity holds immense potential in combating neurodegenerative maladies, such as Alzheimer's. Synonyms: 3-sn-Phosphatidyl-L-serine, distearoyl sodium salt; DSPS-Na; PS(18:0/18:0); (2S,8R)-2-Amino-5-hydroxy-11-oxo-8-[(1-oxooctadecyl)oxy]-4,6,10-trioxa-5-phosphaoctacosanoic acid 5-oxide sodium salt. CAS No. 321595-13-5. Molecular formula: C42H81NNaO10P. Mole weight: 814.05. | |
| 1,2-DLPC | 1,2-DLPC (1,2-Dilauroyl-sn-glycero-3-phosphocholine) is a ligand for LRH-1 agonists. 1,2-DLPC is a phospholipid used in the synthesis of liposomes. 1,2-DLPC enhances fat breakdown and apoptosis in fat cells through a TNFα -dependent pathway, while also inhibiting palmitate-induced insulin resistance through PPARα -mediated inflammation in muscle cells [1] [2] [3]. Uses: Scientific research. Group: Biochemical assay reagents. Alternative Names: 1,2-Dilauroyl-sn-glycero-3-phosphocholine. CAS No. 18194-25-7. Pack Sizes: 25 mg; 50 mg; 100 mg. Product ID: HY-107737. | |
| 14:0 EPC chloride | 14:0 EPC chloride is an acyl cationic lipid that can be used for liposomes applied in drug delivery [1]. Uses: Scientific research. Group: Biochemical assay reagents. CAS No. 186492-53-5. Pack Sizes: 10 mg; 25 mg. Product ID: HY-144021. | |
| 18:1 EPC chloride | 18:1 EPC (chloride), an egg phosphatidylcholine, is used for liposomes applied in drug delivery [1]. Uses: Scientific research. Group: Biochemical assay reagents. CAS No. 474945-24-9. Pack Sizes: 5 mg; 10 mg; 25 mg. Product ID: HY-144018. | |
| 18:1 PA (sodium salt) | DOPA (1,2-dioleoyl-sn-glycero-3-phosphate) is an anionic lipid. Uses: Dopa may be used as a component in liposomes/lipid bilayers, and an activator of multiple pkc isotypes. Synonyms: 1,2-dioleoyl-sn-glycero-3-phosphatidic acid (sodium salt); DOPA-Na; 1,2-Dioleoyl-sn-glycero-3-PA. Grades: 98%. CAS No. 108392-02-5. Molecular formula: C39H73NaO8P. Mole weight: 723.95. | |
| 1-(Ethoxycarbonylmethyl)-6-methoxyquinolinium Bromide | 1-(Ethoxycarbonylmethyl)-6-methoxyquinolinium Bromide is used as a chloride probe. This fluorescent indicator is suitable for detection of chloride concentrations in liposomes, reconstituted membranes or in extracellular medium. Group: Biochemicals. Grades: Highly Purified. CAS No. 162558-52-3. Pack Sizes: 50mg, 100mg. Molecular Formula: C14H16NO3 Br. US Biological Life Sciences. | Worldwide |
| 1-Oleoyl-2-palmitoyl-sn-glycero-3-PC | 1-Oleoyl-2-palmitoyl-sn-glycero-3-PC derives from an oleic acid. 1-Oleoyl-2-palmitoyl-sn-glycero-3-PC can be used for the synthesis of liposomes [1]. Uses: Scientific research. Group: Biochemical assay reagents. CAS No. 59491-62-2. Pack Sizes: 5 mg; 10 mg. Product ID: HY-142990. | |
| 1-Palmitoyl-2-oleoyl-sn-glycero-3-PC | 1-Palmitoyl-2-oleoyl-sn-glycero-3-PC (POPC), a phospholipid, is a major component of biological membranes. 1-Palmitoyl-2-oleoyl-sn-glycero-3-PC is used for the preparation of liposomes and studying the properties of lipid bilayers [1]. Uses: Scientific research. Group: Natural products. Alternative Names: POPC. CAS No. 26853-31-6. Pack Sizes: 25 mg; 50 mg; 100 mg. Product ID: HY-130462. | |
| 1-Palmitoyl -2-pyrene decanoyl phosphatidyl choline-d9 | 1-Palmitoyl -2-pyrene decanoyl phosphatidyl choline-d9 is labelled 1-Palmitoyl -2-pyrene decanoyl phosphatidyl choline (P155100) which is a fluorescent phospholipid used to study the mechanism of spontaneous phospholipid transfer between single-walled phospholipid vesicles (liposomes) and other membrane interactions. Group: Biochemicals. Grades: Highly Purified. Pack Sizes: 2.5mg, 5mg. Molecular Formula: C50H67D9NO8P, Molecular Weight: 859.17. US Biological Life Sciences. | Worldwide |
| 2,6-Dimethylcarbonylphenyl 10-Methyl-9-acridinecarboxylate 4-NHS Ester Triflate | Novel acridinium esters are disclosed that are useful, either alone or when incorporated into liposomes, as chemiluminescent agents in binding assays. Group: Biochemicals. Alternative Names: 9- [ [4- [ [ (2, 5-Dioxo-1-pyrrolidinyl) oxy] carbonyl] -2, 6-dimethylphenoxy] carbonyl] -10-methylacridinium Trifluoromethane sulfonate; 2, 6-Di methyl -4- (N-succinimidyl oxycarbonyl ) phenyl 10-Methyl-9-acridinecarboxylate Trifluoromethane sulfonate. Grades: Highly Purified. Pack Sizes: 5mg. US Biological Life Sciences. | Worldwide |
| 2-?Oleoyl-?1-?palmitoyl-?sn-?glycero-?3-?phospho-?L-?serine Sodium Salt | 2-?Oleoyl-?1-?palmitoyl-?sn-?glycero-?3-?phospho-?L-?serine Sodium Salt is a reagent that triggered the release of 5-Aminolevulinic acid (5-ALA) from stealth liposomes. A negatively charged membrane lipid. Group: Biochemicals. Grades: Highly Purified. CAS No. 321863-21-2. Pack Sizes: 1mg, 2.5mg. Molecular Formula: C40H75NNaO10P, Molecular Weight: 783.99. US Biological Life Sciences. | Worldwide |
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