84131-04-4

Basic information

• Product Name: Tosylate of Triethylene glycol monobenzyl ether
• Synonyms: Tosylate of Triethylene glycol monobenzyl ether;Ethanol, 2-[2-[2-(phenylmethoxy)ethoxy]ethoxy]-,4-methylbenzenesulfonate;2-(2-(2-(benzyloxy)ethoxy)ethoxy)ethyl 4-methylbenzenesulfonate;2-(2-(2-(benzyloxy)ethoxy)ethoxy)ethyl 4-methylbenzenesulfonate(WXC06919)
• CAS NO: 84131-04-4
• Molecular Formula: C₂₀H₂₆O₆S
• Molecular Weight: 394.48184
• Mol File: 84131-04-4.mol

Chemical Properties

• Appearance: /
• CAS DataBase Reference: Tosylate of Triethylene glycol monobenzyl ether(CAS DataBase Reference)
• NIST Chemistry Reference: Tosylate of Triethylene glycol monobenzyl ether(84131-04-4)
• EPA Substance Registry System: Tosylate of Triethylene glycol monobenzyl ether(84131-04-4)

Safety Data

• Hazardous Substances Data: 84131-04-4(Hazardous Substances Data)

Usage

Uses

Tosylate of Triethylene glycol monobenzyl ether?is a carboxylic acid derivative and can be used as a pharmaceutical intermediate.

Storage

Tosylate of Triethylene glycol monobenzyl ether can be sealed in dry, Room Temperature.

Upstream product

• 100-39-0 benzyl bromide 
• 55489-58-2 triethylene glycol monobenzyl ether 
• 96042-30-7 4-(dicyanomethylene)-2-methyl-6-(p-dimethylaminostyryl)-4H-pyran 
• 98-59-9 p-toluenesulfonyl chloride 
• 112-27-6 2,2'-[1,2-ethanediylbis(oxy)]bisethanol 
• 4124-41-8 p-toluenesulfonylanhydride 
• 100-44-7 benzyl chloride 

Downstream Products

• 24342-68-5 1-phenyl-2,5,8,11,14,17-hexaoxanonadecan-19-ol 
• 868594-48-3 26-(phenylmethyloxy)-3,6,9,12,15,18,21,24-octaoxahexaeicosan-1-ol 
• 393517-91-4 toluene-4-sulfonic acid 2-[2-(2-{2-[2-(2-{2-[2-(2-benzyloxy-ethoxy)-ethoxy]-ethoxy}-ethoxy)-ethoxy]-ethoxy}-ethoxy)-ethoxy]-ethyl ester 
• 125562-28-9 hexaethylene glycol monobenzyl monomethyl ether 
• 211859-58-4 1-Phenyl-2,5,8,11,14,17,20,23,26,29-decaoxatriacontane 
• 1262964-32-8 ((2-(2-(2-fluoroethoxy)ethoxy)ethoxy)methyl)benzene 

Relevant articles and documents

A three component synthetic vaccine containing a β-mannan T-cell peptide epitope and a β-glucan dendritic cell ligand

Glycoconjugates prepared from the capsular polysaccharide of several pathogenic bacteria and carrier proteins, such as CRM 197 or tetanus toxoid, have been one of the most successful public health measures to be implemented in the last quarter century. A crucial element in the success of conjugate vaccines has been the recruitment of T-cell help and systematic induction of a secondary immune response. The seminal discovery, that degraded polysaccharide fragments with attached peptide are presented to the T-cell receptor of carbohydrate specific T-cells by MHC-II molecules that bind to the peptide component of degraded vaccine, suggests potentially novel designs for conjugate vaccines. A fully synthetic conjugate vaccine was constructed from a 1,2-linked β-mannose trisaccharide conjugated to a T-cell peptide, previously shown to afford protection against Candida albicans. This combined B- and T-cell epitope was synthesized with a C-terminal azidolysine residue for subsequent conjugation by click chemistry. Four copies of a β-1,3 linked hexaglucan dendritic cell epitope were conjugated to an asymmetric dendrimer bearing an alkyne terminated tether. Click chemistry of these two components created a conjugate vaccine that induced antibodies to all three epitopes of the fully synthetic construct.

HETEROCYCLIC COMPOUND

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Efficient viral or nonviral delivery of nucleic acids is the key step of genetic nanomedicine. Both viral and synthetic vectors have been successfully employed for genetic delivery with recent examples being DNA, adenoviral, and mRNA-based Covid-19 vaccines. Viral vectors can be target specific and very efficient but can also mediate severe immune response, cell toxicity, and mutations. Four-component lipid nanoparticles (LNPs) containing ionizable lipids, phospholipids, cholesterol for mechanical properties, and PEG-conjugated lipid for stability represent the current leading nonviral vectors for mRNA. However, the segregation of the neutral ionizable lipid as droplets in the core of the LNP, the "PEG dilemma", and the stability at only very low temperatures limit their efficiency. Here, we report the development of a one-component multifunctional ionizable amphiphilic Janus dendrimer (IAJD) delivery system for mRNA that exhibits high activity at a low concentration of ionizable amines organized in a sequence-defined arrangement. Six libraries containing 54 sequence-defined IAJDs were synthesized by an accelerated modular-orthogonal methodology and coassembled with mRNA into dendrimersome nanoparticles (DNPs) by a simple injection method rather than by the complex microfluidic technology often used for LNPs. Forty four (81%) showed activity in vitro and 31 (57%) in vivo. Some, exhibiting organ specificity, are stable at 5 °C and demonstrated higher transfection efficiency than positive control experiments in vitro and in vivo. Aside from practical applications, this proof of concept will help elucidate the mechanisms of packaging and release of mRNA from DNPs as a function of ionizable amine concentration, their sequence, and constitutional isomerism of IAJDs.

INDAZOLE BASED COMPOUNDS AND ASSOCIATED METHODS OF USE

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SMALL-MOLECULE INHIBITORS FOR THE Β-CATENIN/B-CELL LYMPHOMA 9 PROTEIN?PROTEIN INTERACTION

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HETEROCYCLIC COMPOUND

One of the purposes of the present invention is to provide a heterocyclic derivative that has an IAP (particularly XIAP) binding (inhibiting) activity. Another of the purposes of the present invention is to provide a heterocyclic derivative that has an IAP (particularly XIAP) binding (inhibiting) activity and exhibits a protein degradation induction activity. The present invention provides a compound represented by formula (I) (the symbols in the formula are as defined in the present Description) and salts thereof.

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