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929352

Sigma-Aldrich

(S,R,S)-AHPC-di-trimethylamide-dioxodisulfide-carbonate ester

Synonym(s):

S-(1-(((((3R,5S)-1-((S)-2-((tert-butoxycarbonyl)amino)-3,3-dimethylbutanoyl)-5-((4-(4-methylthiazol-5-yl)benzyl)carbamoyl)pyrrolidin-3-yl)oxy)carbonyl)oxy)-2-methylpropan-2-yl) methanesulfonothioate

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About This Item

Empirical Formula (Hill Notation):
C33H48N4O9S3
CAS Number:
Molecular Weight:
740.95
UNSPSC Code:
12352108
NACRES:
NA.21

ligand

VH032

Assay

≥95%

form

powder

functional group

disulfide

storage temp.

2-8°C

SMILES string

CC(C)(C)OC(N[C@@H](C(C)(C)C)C(N1[C@@H](C[C@H](C1)OC(OCC(C)(C)SS(C)(=O)=O)=O)C(NCC2=CC=C(C3=C(C)N=CS3)C=C2)=O)=O)=O

Application

Protein degrader building block (S,R,S)-AHPC-di-trimethylamide-dioxodisulfide-carbonate ester enables the synthesis of molecules for degradation of proteins and PROTAC® (proteolysis-targeting chimeras) research. This conjugate contains a von Hippel-Lindau (VHL)-recruiting ligand and a pendant disulfide, linked via a carbonate group. The pendant disulfide allows for targeted degradation of antibodies. Because even slight alterations in ligands and crosslinkers can affect ternary complex formation between the target, E3 ligase, and degrader, many analogs are prepared to screen for optimal target degradation. When used with other protein degrader building blocks, parallel synthesis can be used to more quickly generate degrader libraries that feature variation in crosslinker length, composition, and E3 ligase ligand.

Technology Spotlight: Degrader Building Blocks for Targeted Protein Degradation

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Legal Information

PROTAC is a registered trademark of Arvinas Operations, Inc., and is used under license

Storage Class Code

11 - Combustible Solids

WGK

WGK 3


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Thomas H Pillow et al.
ChemMedChem, 15(1), 17-25 (2019-11-02)
The ability to selectively degrade proteins with bifunctional small molecules has the potential to fundamentally alter therapy in a variety of diseases. However, the relatively large size of these chimeric molecules often results in challenging physico-chemical properties (e. g., low aqueous
Daniel P Bondeson et al.
Annual review of pharmacology and toxicology, 57, 107-123 (2016-10-13)
Protein homeostasis networks are highly regulated systems responsible for maintaining the health and productivity of cells. Whereas therapeutics have been developed to disrupt protein homeostasis, more recently identified techniques have been used to repurpose homeostatic networks to effect degradation of
Momar Toure et al.
Angewandte Chemie (International ed. in English), 55(6), 1966-1973 (2016-01-13)
The current inhibitor-based approach to therapeutics has inherent limitations owing to its occupancy-based model: 1) there is a need to maintain high systemic exposure to ensure sufficient in vivo inhibition, 2) high in vivo concentrations bring potential for off-target side effects, and 3) there is
Kedra Cyrus et al.
Molecular bioSystems, 7(2), 359-364 (2010-10-06)
Conventional genetic approaches have provided a powerful tool in the study of proteins. However, these techniques often preclude selective manipulation of temporal and spatial protein functions, which is crucial for the investigation of dynamic cellular processes. To overcome these limitations
Philipp M Cromm et al.
Cell chemical biology, 24(9), 1181-1190 (2017-06-27)
Traditional pharmaceutical drug discovery is almost exclusively focused on directly controlling protein activity to cure diseases. Modulators of protein activity, especially inhibitors, are developed and applied at high concentration to achieve maximal effects. Thereby, reduced bioavailability and off-target effects can

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