Catalog No.
Product Name
Application
Product Information
Citations
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Liposome
HAPC-Chol is a cationic cholesterol derivative that serves as a crucial component in the formation of lipoplexes. Its primary mechanism involves enhancing the stability and delivery efficiency of nucleic acids in gene therapy applications. HAPC-Chol promotes effective cellular uptake and release of therapeutic agents, making it an essential reagent in lipid-based transfection strategies and other biomedical research applications. -
Liposome
DLPS is an anionic phospholipid characterized by lauric acid (12:0) tails and a head group featuring both carboxylic acid (COOH) and amine (NH2) functionalities. It plays a crucial role in the formation of lipid-mixing vesicles and liposomes, serving as a key component in artificial membranes. The medium chain length of the fatty acid facilitates the production of thinner membrane structures, making DLPS an essential reagent for studies in membrane biology and drug delivery applications. -
Liposome
Bis(2-butyloctyl) 10-oxononadecanedioate is an ionizable lipid compound characterized by four hydrophobic tails linked via ester bonds. This compound plays a crucial role in the formation of liposomes, facilitating efficient encapsulation and delivery of mRNA. Its unique structure enhances biocompatibility and enhances payload stability, making it a valuable tool for research in gene therapy and vaccine development. -
Liposome Inhibitor
Cis-AY 9944 is a cholesterol synthesis inhibitor that specifically targets liposomal pathways. It demonstrates anticonvulsant activity by modulating the dynamics of spike-and-wave discharges observed in electroencephalogram (EEG) recordings. This compound is valuable for research into epilepsy mechanisms and metabolic processes involving cholesterol regulation. -
Liposome
16:0 Caproylamine PE is an amide-functionalized lipid featuring a phosphoethanolamine structure attached to two palmitic acid tails. This compound serves as a key component in the formation of liposomes, enabling the encapsulation and delivery of therapeutic agents. Its unique properties make it suitable for various applications in drug delivery systems and membrane studies, facilitating advancements in nanomedicine and biomedical research. -
Liposome
18:1 Ethylene Glycol is a liposome-forming reagent that facilitates the encapsulation and delivery of biological agents. It is particularly useful in drug delivery systems and vaccine development, enhancing the bioavailability and stability of therapeutics. This compound plays a critical role in the formulation of lipid-based nanocarriers for targeted therapy and cellular uptake studies. -
Lipid for Liposome
DMPAC-Chol is a lipid used in the formulation of liposomes. This compound enhances the efficiency of transfection, making it suitable for various research applications, particularly in gene delivery and therapeutic development. Its unique properties facilitate improved cellular uptake and stability of nucleic acid payloads, contributing to advancements in molecular biology and biomedical research. -
Liposome
18:1 Biotinyl Cap PE is a biotinylated phospholipid that incorporates a fluorescent head group, enhancing its utility in liposome research and applications. This reagent is ideal for the preparation of biotinylated liposomes, facilitating studies in targeted drug delivery, membrane dynamics, and cellular uptake. Its unique properties enable researchers to explore interactions at the cellular level and develop innovative strategies for bioconjugation and diagnostics. -
Liposome
18:1 Dodecanyl PE is a phosphoethanolamine lipid that features a carboxylic acid functional group coupled with a twelve-carbon dodecanyl linker and two oleic acid tails. This compound forms stable liposomes, making it valuable for drug delivery and membrane studies. Its amphiphilic properties enhance its applications in the development of lipid-based nanocarriers and membrane model systems in biophysical and biochemical research. -
Liposome
18:1 MPB PE is a maleimide-functionalized lipid designed to facilitate thiol reactions, featuring a phosphoethanolamine head group attached to two oleic acid tails and a phenyl maleimide moiety. This reagent is ideal for the preparation of liposomes and can be used for targeted drug delivery applications and the development of lipid-based nanoparticles. Its ability to covalently conjugate to thiol-containing molecules makes it valuable for studies in bioconjugation and cellular uptake. -
Liposome
Undecyl 6-bromohexanoate is a lipid-based compound that serves as a key component in the formation of liposomes. This reagent is particularly valuable in the preparation of lipid nanoparticles, which are essential for drug delivery and gene therapy applications. Its ability to enhance encapsulation efficiency makes it suitable for various research studies focusing on nanomedicine and targeted therapeutics. -
Liposome
DLPG is a phospholipid characterized by the inclusion of lauric acid at the sn-1 and sn-2 positions, with a phosphate group linked to glycerol. This compound is primarily utilized in the formation of micelles and liposomes, serving as an essential component in the development of artificial membranes. Its ability to facilitate membrane formation makes DLPG valuable in various research applications, including drug delivery and membrane biophysics studies. -
Liposome
(2S)-3-Keto sphinganine (d6:0) hydrochloride is a structural lipid compound designed for liposome formulation. It facilitates the incorporation of hydrophilic agents within the internal aqueous compartment while allowing lipophilic compounds to integrate into the lipid bilayer. This dual capability enhances the efficacy of drug delivery systems, particularly in the realms of cancer therapy and infectious disease treatment. Its application is especially beneficial for the delivery of antisense oligonucleotides, addressing challenges associated with cellular uptake and systemic stability. -
Liposome
DOPE-PEG-Amine (MW 2000) is a phospholipid conjugated to a polydisperse polyethylene glycol (PEG) that serves as a versatile amphiphilic molecule. Its unique structure facilitates the formation of lipid bilayers or micelles in aqueous environments, making it ideal for the preparation of liposomes or nanoparticles. This reagent is particularly useful in targeted drug delivery applications and contains reactive alkyne sites, enabling the formation of triazole rings for bio-conjugation purposes. -
Liposome
SIL lipid is a synthetic ionizable lipid designed for the formation of lipid nanoparticles (LNPs), facilitating efficient siRNA delivery. Its primary mechanism involves enabling the encapsulation and protection of nucleic acids, enhancing cellular uptake and gene silencing potential. This reagent is valuable for researchers focused on RNA-based therapeutics and nanomedicine applications. -
Liposome
LP-371-p is a specialized lipid designed for the efficient delivery of oligonucleotide compounds to adipose tissues, notably fat cells. This reagent plays a significant role in research targeting diseases associated with adiposity, including obesity and type 2 diabetes. Its ability to facilitate targeted delivery of nucleic acids makes it a valuable tool in metabolic disease studies. -
Liposome
Lipid R6 is a lipid compound designed for the synthesis of liposomes and serves as a key component in lipid nanoparticle (LNP) formulations. It plays a critical role in the delivery of nucleic acids and therapeutics, enhancing cellular uptake and bioavailability. Lipid R6 is widely utilized in research applications focused on drug delivery systems and vaccine development. -
Liposome
Bis(bis(2-carboxyethyl)aminopropyl)methylamine is a branched linker characterized by three tertiary amines and four carboxylic acid groups, allowing for the potential formation of esters or amides. This compound is particularly useful in the development of liposomes and lipid nanoparticles, facilitating enhanced delivery systems in pharmaceutical applications. Its unique structural properties make it a valuable reagent for research focused on drug delivery and biochemical studies involving lipid-based formulations. -
Liposome
NH2-GG-DSPE is a lipid compound primarily utilized for the preparation of liposomes. These vesicular structures, consisting of concentric phospholipid bilayer membranes, serve as effective drug delivery systems in anti-cancer and anti-infection research. NH2-GG-DSPE facilitates the encapsulation of highly polar water-soluble compounds in the internal aqueous space while enabling lipophilic agents to integrate into the lipid bilayer. This functionality is particularly advantageous for delivering antisense oligonucleotides, addressing challenges related to cellular uptake efficiency and instability in biological environments. -
Liposome
DC-6-14 is a cationic lipid known for its role in gene transfection through the formation of liposomes. This compound facilitates the encapsulation and delivery of nucleic acids into cells, enhancing transfection efficiency. It serves as a crucial tool in molecular biology for the development of gene delivery systems and therapeutic applications. -
Cationic Liposome
3β-[N-(N′,N′-Dimethylaminoethyl)carbamoyl]cholesterol serves as a cationic lipid, primarily utilized for its role in enhancing the delivery of nucleic acids and polar compounds through cationic liposome formulations. This compound has been extensively studied in the context of cancer gene therapy and vaccine development, demonstrating significant potential in facilitating cellular uptake and therapeutic efficacy. Its unique chemical structure allows for improved interaction with negatively charged cellular membranes, contributing to effective gene delivery systems. -
Liposome
DOPE-C8 (1,2-Dioleoyl-sn-glycero-3-phosphoethanolamine-C8) is a zwitterionic phospholipid that serves as a key component in the formation of lipid nanoparticles (LNPs). Its primary application lies in the effective in vivo delivery of mRNA, facilitating enhanced cellular uptake and gene expression. This reagent is widely utilized in research focused on mRNA therapeutics and vaccine development, providing a versatile platform for advancing molecular delivery systems. -
Liposome Compound
DSPC (1,2-Distearoyl-sn-glycero-3-phosphorylcholine) is a cylindrical-shaped phospholipid that serves as a critical component in liposome synthesis. This lipid is widely utilized in the formulation of lipid nanoparticles (LNPs) for drug delivery applications. DSPC enhances membrane stability and facilitates the encapsulation of therapeutic agents, making it essential for effective lipid-based drug delivery systems in pharmaceutical research. -
Liposome
DMG-PEG 2000 is a key reagent for the formulation of liposomes, primarily utilized in the delivery of siRNA to enhance transfection efficiency in vitro. Additionally, it serves as a critical component in lipid nanoparticles designed for oral plasmid DNA delivery in vivo, facilitating surface modification that improves mucus permeability and overall delivery efficiency of the nanoparticles. -
Liposome
PEG(2000)-C-DMG is a PEGylated derivative of 1,2-Dimyristoyl-sn-glycerol designed to facilitate the formation of lipid nanoparticles (LNPs). This compound enhances the stability and delivery efficiency of therapeutic agents, particularly siRNA. Its unique properties make it a valuable tool for researchers focused on gene therapy and nucleic acid delivery applications. -
Liposome
Distearoylphosphatidylserine sodium is an anionic phospholipid characterized by its stearic acid tails (18:0) and functional head groups containing both carboxylic acid and amine functionalities. This compound is essential in the preparation of liposomes and lipid-mixing vesicles, serving as a key component in artificial membrane formation. Its medium-length fatty acid chains facilitate the development of thinner lipid membranes, making it valuable for various biochemical applications, including drug delivery and biophysical studies. -
Liposomes Component for Drug Delivery
1,2-Distearoyl-sn-Glycero-3-Phosphatidylglycerol sodium primarily functions as a key component in liposome formulations. This phospholipid enhances the stability and encapsulation efficiency of liposomes, facilitating targeted drug delivery. Its use is significant in various biomedical applications, including drug formulation and gene delivery systems. -
Liposome
DOPE-Mal is a synthetic phospholipid analog of phosphatidylethanolamine (PE) featuring 18:1 fatty acids at the sn-1 and sn-2 positions, along with a terminal maleimide group. The reactive maleimide moiety enables covalent bonding with thiol groups, facilitating functionalization in various applications. The inclusion of a hydrophilic PEG spacer enhances its solubility in aqueous environments, making it suitable for liposome formulation and bioconjugation in biochemical research. -
Liposome
1,2-Dimyristoyl-sn-glycero-3-phospho-L-serine sodium is an anionic phospholipid featuring two myristic acid (C14:0) tails and a head group that includes both a carboxylic acid and an amine functional group. This compound is primarily utilized in the formulation of liposomes, serving as a crucial component for drug delivery and membrane model studies. Its unique structural properties enable enhanced interaction with cellular membranes, making it valuable for various biomedical and pharmaceutical research applications. -
Drug Delivery Liposome
(Rac)-1,2-Distearoyl-sn-Glycero-3-Phosphatidylglycerol sodium is an anionic phospholipid that plays a crucial role in drug delivery systems, particularly in liposome formulation. This compound facilitates the development of liposomes that can selectively induce regulatory T cells (Tregs) responsive to the encapsulated cargo. Additionally, uptake by antigen-presenting cells is mediated through the complement component 1q (C1q), enhancing its potential for targeted therapeutic applications. -
Liposome
244cis is a piperazine-containing ionizable cationic lipid designed for the generation of lipid nanoparticles (LNPs). These LNPs, when complexed with mRNA reporter genes, exhibit a targeted accumulation in mouse lungs, enhancing gene delivery efficiency. Additionally, 244cis is associated with a reduction in serum levels of chemokine (C-C motif) ligand 2 (CCL2), suggesting potential applications in inflammatory response studies and therapeutic interventions. -
Liposome Membrane Composition
1,2-Dierucoyl-sn-glycero-3-phosphocholine (DEPC) is a phospholipid that is integral to liposome membrane composition. It is utilized for the preparation of liposomes and provides valuable insights into the properties of lipid bilayers. DEPC-liposomes exhibit enhanced activity, particularly in studies involving glucose oxidase, making it a vital tool for research in cellular delivery systems and membrane dynamics. -
Liposome
C10-200 is an ionizable cationic lipid that primarily targets the generation of lipid nanoparticles (LNPs). It facilitates mRNA delivery, making it a valuable tool for research in gene therapy and RNA-based therapeutics. The compound’s properties enable efficient encapsulation and protection of nucleotides, enhancing cellular uptake and therapeutic efficacy in biological studies. -
Liposome
SPPC is a phospholipid featuring a unique combination of fatty acids, with stearic acid (18:0) at the sn-1 position and palmitic acid (16:0) at the sn-2 position. This structural design enhances its ability to form liposomes, making it valuable for drug delivery systems and membrane studies. SPPC is utilized in research focused on lipid bilayer interactions, vesicle stability, and the formulation of nanocarriers for therapeutic applications. -
Positively Charged Liposome
16:0 DAP is a cationic lipid primarily utilized for the formulation of positively charged liposomes. This compound is effective in facilitating drug delivery, enhancing gene transfection, and providing a platform for vaccine development. Its unique properties allow for improved cellular uptake and payload delivery, making it a valuable reagent in various biomedical research applications. -
Liposome
Boc-Pro-OMe (Boc-L-proline methyl ester) serves as a lipid compound primarily used for liposome formulation. These liposomes consist of concentric phospholipid bilayer membranes and are integral to developing targeted drug delivery systems, particularly in oncology and infectious disease research. Boc-Pro-OMe effectively encapsulates highly polar, water-soluble compounds in the internal aqueous space, while lipophilic agents integrate into the lipid bilayer. This compound is particularly valuable for delivering antisense oligonucleotides, addressing challenges of cellular uptake and stability in biological environments. -
Liposome
1-Stearoyl-2-docosahexaenoyl-sn-glycero-3-phosphoethanolamine is a phospholipid primarily utilized in liposome formulations. This compound facilitates the encapsulation of both hydrophilic and hydrophobic therapeutic agents, making it an essential component in drug delivery systems, particularly in oncology and infectious disease research. Its distinctive properties enable efficient cellular uptake of bioactive molecules, including antisense oligonucleotides, while mitigating degradation in biological environments. -
Liposome
1,2-Dipalmitoyl-sn-glycero-3-phospho-N,N-dimethylethanolamine is a phospholipid that serves as a key component in the formation of liposomes. It is widely utilized in studies related to membrane permeability and the characterization of monolayer viscosity. This compound is essential for researchers investigating lipid bilayer dynamics and the biophysical properties of membranes. -
Liposome
1-Myristoyl-2-hydroxy-sn-glycero-3-PG sodium is a lysophospholipid with myristic acid (14:0) at the sn-1 position, serving as a crucial component in the formation of liposomes and micelles. Its ability to facilitate the assembly of artificial membranes underlines its utility in research involving lipid-based drug delivery systems. This compound supports investigations into membrane biophysics and the development of novel therapeutic carriers. -
Liposome
16:0 Succinyl PE is a carboxylic acid-functionalized lipid that features a two-carbon linker connecting phosphoethanolamine to two palmitic acid tails. This compound is primarily utilized in liposome formulation, providing essential structural integrity and stability. Its unique properties make it suitable for various research applications, including drug delivery systems and membrane biophysics studies. -
Liposome
17:1 Lyso PC is a specialized liposome designed to mimic biological phospholipid membranes. This reagent provides a versatile platform for constructing drug delivery systems, particularly in the fields of oncology and infectious diseases. Its unique structure enables the encapsulation of highly polar, water-soluble molecules within the internal aqueous space, while lipophilic compounds can integrate into the lipid bilayer. Notably, 17:1 Lyso PC is effective for delivering antisense oligonucleotides, addressing challenges related to cellular uptake and metabolic stability. -
Liposome
16:0 Biotinyl PE is a biotinylated phosphoethanolamine lipid that incorporates two palmitic acid moieties, facilitating its use in the formulation of liposomes. This compound serves as a versatile component for biotin-labeling applications, promoting targeting and cellular uptake in various biological studies. Its unique structure allows for the creation of liposomal systems that can deliver therapeutic agents or facilitate cellular imaging and tracking in research contexts. -
Liposome
1-Palmitoyl-2-stearoyl-sn-glycero-3-phosphocholine is an asymmetrical phospholipid characterized by saturated fatty acids, palmitic acid at the sn-1 position and stearic acid at the sn-2 position, with a phosphate group linked to choline. This compound is essential in the formation of liposomes, serving as a critical component in membrane studies and drug delivery systems. Its unique structural properties make it invaluable for researching lipid bilayer dynamics and cellular interactions. -
Liposome
2H-Cho-Arg TFA is a cationic lipid featuring a 2H-cholesterol backbone conjugated to an L-arginine head group. This compound is designed to enhance gene transfection efficiency by interacting with lipid bilayers and facilitating nucleic acid delivery. Its liposomal formulation is particularly valuable in gene therapy and other molecular biology applications, where effective transfection is critical for research and therapeutic purposes. -
Liposome
Heptadecan-9-yl 8-bromooctanoate is a lipid compound primarily used in the construction and modification of liposomes. This reagent plays a crucial role in enhancing the stability and performance of lipid nanoparticles in drug delivery systems. Its unique structure allows for improved interactions with biological membranes, facilitating the effective encapsulation and release of therapeutic agents in various research applications. -
Liposome
1,3-Dipalmitoyl-glycero-2-phosphoethanolamine is a phospholipid featuring saturated long-chain palmitic acid at the sn-1 and sn-3 positions, with phosphoethanolamine at the sn-2 position. This compound is essential for the formation of liposomes and micelles, making it a valuable reagent for studies in membrane biophysics and drug delivery applications. Its structural properties enable the creation of artificial membranes, facilitating the exploration of lipid interactions and membrane dynamics in biological research. -
Liposome
1-Palmitoyl-2-oleoyl-sn-glycero-3-phosphate is a phospholipid characterized by the presence of saturated palmitic acid at the sn-1 position and monounsaturated oleic acid at the sn-2 position. This compound is pivotal in the formation of liposomes, micelles, and various artificial membrane systems. Its biological activity supports applications in drug delivery, membrane biophysics, and the study of membrane interactions in cellular processes. -
Liposome
9-Amino-NeuAc is an amino derivative of neuraminic acid that serves as a substrate for neuraminic acid synthase. This compound can be converted to CMP-9-amino-NeuAc, which acts as an activated CMP-glycoside for transfer to asialoglycoproteins. 9-Amino-NeuAc is valuable in liposome synthesis applications and has the potential to enhance tumor surface immunogenicity, making it useful for research in cancer immunotherapy and targeted drug delivery systems. -
Liposome
RCB-02-4-8 is an ionizable cationic lipid designed for the formation of lipid nanoparticles (LNPs) for mRNA delivery. It enhances the efficiency of lung transfection in murine models, making it a valuable tool for studies in gene therapy and vaccine development. Its application in LNP formulations facilitates targeted delivery of nucleotides, contributing to advancements in molecular biology and therapeutic research. -
Liposome
2-Arachidonoyl-sn-glycero-3-phosphocholine is a phospholipid that primarily functions as a key component of cell membranes. It plays a critical role in regulating membrane fluidity and facilitating signal transduction as well as cell-cell communication. This compound is particularly relevant in research related to inflammatory responses and the study of liposomes for drug delivery and membrane biophysics.

