| DC65770 |
DMPE-mPEG2000(Na salt)
Featured
|
|
|
| DC65784 |
SOPA-NA(18:0-18:1 PA)
Featured
|
|
|
| DC65786 |
mPEG2000-DSPE
Featured
|
mPEG2000-DSPE is used in COVID 19 mRNA vaccines. It is a PEGylated derivative of 1,2-distearoyl-sn-glycero-3-PE . Formulations containing DSPE-MPEG(2000) have been used to prepare liposomes with long circulation time for the delivery of anticancer and antimalarial agents.. mPEG2000-DSPE has also been widely used as hydrophilic surface modifying agent for a variety types of hydrophobic nanoparticles, including recently reported lipid nanoparticle mRNA vaccines. |
|
| DC65791 |
DPPG sodium
Featured
|
|
|
| DC60546 |
514O6,10
Featured
|
514O6,10 is an ionizable lipidoid. 514O6,10 formulated LNPs facilitate mRNA delivery to the pancreas. |
|
| DC60554 |
Lipid 20b |
Lipid 20b is an ionizable lipid containing a thiophene moiety (Thio-lipid) for mRNA delivery. Lipid 20b enables LNPs to transfect the liver and spleen. Lipid 20b is potent in mRNA delivery to the retina with no acute toxicity. |
|
| DC60555 |
C14-O2 |
C14-O2 is an oxidized lipid for mRNA delivery. C14-O2-LNP is capable of potent and selective delivery of mRNA to blood monocytes. C14-O2 LNP is used to deliver a functional CD19-CAR mRNA and is shown to engineer functional CAR monocytes directly in situ. |
|
| DC60556 |
Lipid 29d |
Lipid 29d is an ionizable lipid containing a thiophene moiety (Thio-lipid) for mRNA delivery. Lipid 29d enables LNPs to transfect the lung and spleen. |
|
| DC65849 |
A1-28 |
A1-28 is a disulfide bond-containing ionizable cationic lipid.1 It has been used in the generation of lipid nanoparticles (LNPs) for the delivery of CRISPR complementary single-guide RNA (sgRNA) and Cas9 mRNA for genome editing in vitro. |
|
| DC65851 |
CL15F6
Featured
|
CL15F6 is an ionizable cationic lipid (pKa = 6.75).1 It has been used in the formation of lipid nanoparticles (LNPs) for the delivery of mRNA and polymer-lipid hybrid nanoparticles for the delivery of plasmid DNA in vitro.1,2 |
|
| DC65852 |
C3-K2-E14 |
C3-K2-E14 is an ionizable cationic lipid (pKa = 5.5).1 It has been used in the generation of lipid nanoparticles (LNPs) for the delivery of mRNA or siRNA in vitro and in vivo. LNPs containing C3-K2-E14 and encapsulating siRNA targeting the gene encoding colony-stimulating factor 1 (Csf1) reduce the percentage of circulating Ly6Chi monocytes and increase the percentage of circulating Ly6Cint monocytes in mice. |
|
| DC65853 |
(S)-C12-200 |
(S)-C12-200 is an ionizable cationic lipid (pKa = 7.12) and an isomer of C12-200 (Item No. 36699).1 It has been used in the formation of lipid nanoparticles (LNPs) for the delivery of mRNA in vivo. Intravenous administration of LNPs containing (S)-C12-200 and encapsulating mRNA encoding Cre recombinase increase the percentage of tdTomato+ hepatocytes, endothelial cells, and Kupffer cells in the livers of Ai14 mice greater than (R)-C12-200-containing and Cre mRNA-encapsulating LNPs. |
|
| DC65854 |
PPPDA-O16B |
PPPDA-O16B is a disulfide bond-containing ionizable cationic lipid that has been used in the generation of lipid nanoparticles (LNPs) for plasmid delivery in vitro and in vivo.1 LNPs containing PPPDA-O16B and encapsulating plasmids encoding Ras/Rap1-specific endopeptidase (RRSP) increase RRSP levels and decrease Ras levels in, and reduce the viability of, HeLa cervical cancer cells. LNPs containing PPPDA-O16B and encapsulating plasmids encoding RRSP selectively localize to tumors over the heart, liver, spleen, lungs, and kidneys, as well as decrease tumor volume without reducing body weight, in an HCT116 colorectal cancer mouse xenograft model. |
|
| DC65856 |
Lipid C3 |
Lipid C3 is an ionizable cationic lipid (pKa = 5.05-5.671).1,2 It has been used in the formation of lipid nanoparticles (LNPs) for the delivery of mRNA in vitro and in vivo.1 Intracerebroventricular administration of LNPs containing lipid C3 and encapsulating mRNA encoding α-L-iduronidase (Idua) to neonates increase midbrain and hippocampal α-L-iduronidase enzyme activity and decrease forebrain, midbrain, and hippocampal glycosaminoglycan levels in an Idua-W392X mouse model of the lysosomal storage disorder mucopolysaccharidosis type I, also known as Hurler syndrome. Intracerebroventricular administration of LNPs containing lipid C3 and encapsulating an mRNA reporter to fetal macaques in utero increase brain GFP expression. |
|
| DC65857 |
BAmP-O16B |
BAmP-O16B is an ionizable cationic amino lipid that has been used in the generation of lipid nanoparticles (LNPs).1 LNPs containing BAmP-O16B and encapsulating NSA-inactivated RNase A reduce the viability of SiHa and HeLa cancer cells, but not non-cancerous NIH3T3 and HEK293T cells, upon intracellular reactivation of RNase A by glutathione (GSH). |
|
| DC65858 |
Lipid OA2 (hydrochloride) |
Lipid OA2 is an ionizable cationic lipid that has been used in the generation of single-component lipid nanoparticles (LNPs) for the delivery of siRNA.1 LNPs containing lipid OA2 and siRNA targeting the gene encoding suppressor of cytokine signaling 1 (Socs1) decrease Socs1 expression by approximately 50% in isolated mouse bone marrow dendritic cells (BMDCs). Vaccination with ovalbumin-induced isolated mouse BMDCs transfected with LNPs composed of lipid OA2 and Socs1-targeting siRNA increases survival and decreases tumor volume in a B16-OVA murine melanoma model. |
|
| DC60561 |
DB-lipidoid 11-10-8 |
DB-lipidoid 11-10-8 is a degradable branched (DB) lipidoid. 11-10-8 LNP is more potent than MC3 LNP at delivering mRNA. 11-10-8 LNP enables roughly five-fold higher TTR genome editing efficiency and therapeutic FGF21 protein expression compared to MC3 LNP. |
|
| DC60564 |
Lipid GVS-18-B6
Featured
|
Lipid GVS-18-B6 is a silicon ether ionizable lipid for mRNA delivery. GVS-18-B6 showes particularly good liver specificity, with a liver-to-spleen EGFP signal ratio of 92:1. GVS-18-B6 also showes rapid tissue clearance within 6 hours of dosing. |
|
| DC60566 |
Lipid CAD9 (3-A2-7b)
Featured
|
Lipid CAD9 (3-A2-7b is a cationic degradable (CAD) lipid. 3-A2-7b formulated LNP, LNP-CAD9, can deliver FLuc mRNA to the lungs in vivo. LNP-CAD9 co-delivering Cas9 mRNA/VEGFR2 single guide RNA (sgRNA) effectively induces VEGFR2 knock out in lung endothelial cells of female mice. |
|
| DC65965 |
Tri-GalNAc(OAc)3
Featured
|
Tri-GalNAc(OAc)3 is a triantenerrary N-acetylgalactosamine (tri-GalNAc) with an amino group, which is useful precursor for synthesis of GalNAc-LYTAC that engage the asialoglycoprotein receptor for targeted protein degradation. Tri-GalNAc(OAc)3 was first reported in Nat Chem Biol. 2021 Sep;17(9):937-946 (compound ). This product has no formal name at the moment. |
|
| DC65966 |
DSPE-PEG2000-triGalNAc ammonium
Featured
|
DSPE-PEG2K-triGalNAc is a polar lipid composed of DSPE and tri-N-acetylgalactosamine that can be used to construct liposomes target to asialoglycoprotein receptor (ASGPR). |
|
| DC60575 |
U-101
Featured
|
U-101 is an ionizable lipid for mRNA delivery. U-101-LNP/IL-2F mRNA formulation demonstrats effective antitumor activity and safety.LNPs containing lipid U-101 and encapsulating mRNA encoding a fusion protein composed of IL-2, a linker, and CD25 inhibit tumor growth in an MC-38 mouse xenograft model. |
|
| DC60578 |
TE-EP8-S |
Lipid TE-EP8-S is a one-component ionizable cationic lipid for mRNA delivery to splenic T cells. |
|
| DC60579 |
Lipid B3
Featured
|
Lipid B3 is a biodegradable ionizable lipid for liver targeted delivery. Lipid B3-LNP shows high delivery efficacy and low toxicity in delivering RNA to liver cells. |
|
| DC60580 |
Endosidin5(ES5)
Featured
|
Endosidine 5 (ES5), is one of the most potent small molecules interferes with recycling endosomes through Annexin A6, thereby promoting the release and expression of mRNA into the cytoplasm. The delivered mRNAs is greatly enhanced via inhibition of endocytic recycling in cells and in live mice. NAV2729 (NAV) and endosidin 5 (ES5), resulted in significant enhancement (1.5–2 folds) of LNP-mediated delivery of Fluc mRNAs. Incubation of NAV and ES5 together caused modest further increases in Fluc expression in comparison to the sole application of either compound. |
|
| DC66093 |
DSPE-CY7
Featured
|
Phospholipids DSPE belong to the lipid family of biopolymers. Phospholipids consist of two fatty acids, a glycerol unit, a phosphate group, and a polar molecule. The phosphate groups and polar head regions of the molecule are hydrophilic (attracted to water), while the fatty acid tail is hydrophobic (repelled by water). When placed in water, the phospholipids Orient themselves into a double layer, where the non-polar tail region faces the inner region of the double layer. The polar head region faces outward and interacts with the water. Applications in drug release, nanotechnology and new materials research, cell culture. As well as ligand research, peptide synthesis support, grafted polymer compounds, new materials and pegylated modified functional coatings and other active compounds. |
|
| DC66094 |
DSPE-CY5.5
Featured
|
Phospholipids DSPE belong to the lipid family of biopolymers. Phospholipids consist of two fatty acids, a glycerol unit, a phosphate group, and a polar molecule. The phosphate groups and polar head regions of the molecule are hydrophilic (attracted to water), while the fatty acid tail is hydrophobic (repelled by water). When placed in water, the phospholipids Orient themselves into a double layer, where the non-polar tail region faces the inner region of the double layer. The polar head region faces outward and interacts with the water. Applications in drug release, nanotechnology and new materials research, cell culture. As well as ligand research, peptide synthesis support, grafted polymer compounds, new materials and pegylated modified functional coatings and other active compounds. |
|
| DC66095 |
DSPE-CY5
Featured
|
Phospholipids DSPE belong to the lipid family of biopolymers. Phospholipids consist of two fatty acids, a glycerol unit, a phosphate group, and a polar molecule. The phosphate groups and polar head regions of the molecule are hydrophilic (attracted to water), while the fatty acid tail is hydrophobic (repelled by water). When placed in water, the phospholipids Orient themselves into a double layer, where the non-polar tail region faces the inner region of the double layer. The polar head region faces outward and interacts with the water. Applications in drug release, nanotechnology and new materials research, cell culture. As well as ligand research, peptide synthesis support, grafted polymer compounds, new materials and pegylated modified functional coatings and other active compounds. |
|
| DC66096 |
DSPE-CY3
Featured
|
Phospholipids DSPE belong to the lipid family of biopolymers. Phospholipids consist of two fatty acids, a glycerol unit, a phosphate group, and a polar molecule. The phosphate groups and polar head regions of the molecule are hydrophilic (attracted to water), while the fatty acid tail is hydrophobic (repelled by water). When placed in water, the phospholipids Orient themselves into a double layer, where the non-polar tail region faces the inner region of the double layer. The polar head region faces outward and interacts with the water. Applications in drug release, nanotechnology and new materials research, cell culture. As well as ligand research, peptide synthesis support, grafted polymer compounds, new materials and pegylated modified functional coatings and other active compounds. |
|
| DC66097 |
DSPE-RB
Featured
|
Phospholipids DSPE belong to the lipid family of biopolymers. Phospholipids consist of two fatty acids, a glycerol unit, a phosphate group, and a polar molecule. The phosphate groups and polar head regions of the molecule are hydrophilic (attracted to water), while the fatty acid tail is hydrophobic (repelled by water). When placed in water, the phospholipids Orient themselves into a double layer, where the non-polar tail region faces the inner region of the double layer. The polar head region faces outward and interacts with the water. Applications in drug release, nanotechnology and new materials research, cell culture. As well as ligand research, peptide synthesis support, grafted polymer compounds, new materials and pegylated modified functional coatings and other active compounds. |
|
