- Sequence-Defined Dithiocarbamate Oligomers via a Scalable, Support-free, Iterative Strategy
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Precise control over the monomeric sequence on natural sequence-defined polymers (SDPs) leads to their structural diversity and functions. However, absolute control over the monomeric sequence on a synthetic polymer remains a challenging process. Herein, we describe a support-free, protection-deprotection-free, cost-effective, and fast iterative strategy for multigram production of a new class of SDP with a unique functional group, dithiocarbamate, a potential group for material and biomedical applications. The strategy is based on a unique monomer, named as amine-hydroxyl monomer, and a three-component reaction between the monomer, CS2, and terminal chloro group of the growing chain. The fast strategy allows us to synthesize a 5-mer sequence-defined oligomer in 6 h. For a proof of concept, a range of aliphatic and aromatic groups have been incorporated at different sequences in the sequence-defined oligomer. This SDP platform has further been advanced by two ways: (i) multiple approaches for postsynthetic modification of SDP and (ii) increasing the chain length in a single step.
- Nanjan, Pandurangan,Jose, Anna,Thurakkal, Liya,Porel, Mintu
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p. 11019 - 11026
(2020/12/22)
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- Substituted 1,2,3-triazolo[1,5-a]quinazolines for enhancing cognition
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The present invention provides a compound of formula (I) in which R1 is generally hydrogen or CF3, R2 is generally hydrogen, W is a cyclic amine, a heterocycle or a group L-Y-X where L-Y is a linking portion and X is generally an aromatic or non-aromatic heterocycle, alkyl or alkylcarbonyl and Z is generally a heterocycle such as 5-methylisoxazol-3-yl, and pharmaceutically acceptable salts thereof for enhancing cognition in conditions such as Alzheimer's Disease, pharmaceutical compositions comprising them, their use for manufacturing medicaments and methods of treatment using them.
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