6232-88-8Relevant articles and documents
Extended peptoids: a new class of oligomers based on aromatic building blocks
Combs, David J.,Lokey, R. Scott
, p. 2679 - 2682 (2007)
Peptoids (N-substituted polyglycines) represent a class of bioinspired oligomers that have unique physical and structural properties. Here, we report the construction of 'extended peptoids' based on aromatic building blocks, in which the N-alkylaminoacetyl group of the peptoid backbone has been replaced by an N-alkylaminomethylbenzoyl spacer. Both meta- and para-bromomethylbenzoic acids were synthesized, providing access to a new class of peptoids. Further, inclusion of hydrophilic side chains confers water solubility to these compounds, showing that, like simple peptoids, extended peptoids add an extra dimension to synthetic poly-amide oligomers with potential application in a variety of biological contexts.
P-aminomethyl benzoic acid and preparation method thereof
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Paragraph 0020; 0033-0034; 0038-0040; 0044-0046; 0049, (2020/09/09)
The invention discloses p-aminomethyl benzoic acid and a preparation method thereof. The method comprises the following steps: hydrolyzing phthalic anhydride as a raw material under an alkaline condition to enable the anhydride structure of phthalic anhydride to be subjected to ring opening to obtain an intermediate 1; performing decarboxylation reaction on the intermediate 1 under the condition that high-temperature liquid water is used as a reaction medium to obtain an intermediate 2; converting original binary acid of the intermediate 1 into monobasic acid, and enabling the intermediate 2 to react with a saturated monochloromethane diethyl ether solution by taking diethyl ether as a solvent under the catalytic action of aluminum chloride to obtain an intermediates 3; and carrying out bromine substitution reaction on the intermediate 3 and N-bromosuccinimide, and carrying out ammoniation reaction under the action of triethylamine and potassium carbonate. The yield of p-aminomethyl benzoic acid prepared by the preparation method of p-aminomethyl benzoic acid is high, and compared with an existing preparation method, most of the used raw materials are low-price raw materials, cyanogroups with high toxicity are not introduced, and the production cost of tranexamic acid is greatly reduced.
INHIBITORS OF PSEUDOMONAS AERUGINOSA VIRULENCE
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Paragraph 0125, (2019/04/16)
Disclosed are piperazine derivative compounds, particularly piperazine derivative compounds having a structure of Formula (I) and methods for preparing these compounds. Also disclosed are use of a therapeutically effective amount of the compound of Formula (I) or a pharmaceutically acceptable salt thereof, or a pharmaceutical composition therefore for inhibiting quorum sensing of a bacteria.
Split-and-Combine Approach Towards Branched Precision Glycomacromolecules and Their Lectin Binding Behavior
Baier, Mischa,Giesler, Markus,Hartmann, Laura
, p. 1619 - 1630 (2018/01/11)
Previously, monodisperse and sequence-controlled oligo(amidoamine) scaffolds were synthesized based on the step-wise assembly of tailor-made building blocks on a solid support that allow for the multivalent presentation of sugar ligands. Here, we extend on this concept using a split-and-combine approach to gain access to a small library of linear and branched glycomacromolecules. Azide side chains were introduced in the scaffold by the use of a novel building block allowing for copper-mediated azide-alkyne cycloaddition (CuAAC) of readily available propargyl-functionalized glycans. In the first stage, after assembly of the linear scaffold on solid support, the batch was divided into two. One part of the resin-bound oligomers was end-capped and further used as backbone and the other part was functionalized with propargylated α-d-mannopyranoside in the sidechain, end capped with an alkyne functionality and finally cleaved from solid support to give the branching arm. In the second stage, the linear, glycosylated and alkynylated arms were then coupled to the end capped backbone via CuAAC. In this way, branched glycomacromolecules with two and three branches, respectively, have been synthesized carrying from two to six sugar residues per molecule. Both, linear arms and branched glycomacromolecules were then subjected to a lectin binding assay using surface plasmon resonance (SPR) and model lectin Concanavalin A (Con A) showing the effect of branching as well as valency on the binding kinetics.