5396-64-5Relevant articles and documents
Salvianolic acid I: A new depside from Salvia cavaleriei
Zhang,Li
, p. 70 - 72 (1994)
A new depside named salvianolic acid I was isolated from the aqueous extract of Salvia cavaleriei, along with salvianolic acids A, B, C, H, isosalvianolic acid C, lithospermic acid, and rosmarinic acid. The chemical structures were determined by spectral
Characterization by LC-MSn of four new classes of chlorogenic acids in green coffee beans: Dimethoxycinnamoylquinic acids, diferuloylquinic acids, caffeoyl-dimethoxycinnamoylquinic acids, and feruloyl- dimethoxycinnamoylquinic acids
Clifford, Michael N.,Knight, Susan,Surucu, Birgul,Kuhnert, Nikolai
, p. 1957 - 1969 (2006)
LC-MS4 has been used to detect and characterize in green coffee beans 12 chlorogenic acids not previously reported in nature. These comprise three isomeric dimethoxycinnamoylquinic acids (7-9) (Mr 382), three caffeoyl-dimethoxycinnam
Covalent Inhibition of Bacterial Urease by Bifunctional Catechol-Based Phosphonates and Phosphinates
Pagoni, Aikaterini,Grabowiecka, Agnieszka,Tabor, Wojciech,Mucha, Artur,Vassiliou, Stamatia,Berlicki, ?ukasz
supporting information, p. 404 - 416 (2021/01/13)
In this study, a new class of bifunctional inhibitors of bacterial ureases, important molecular targets for antimicrobial therapies, was developed. The structures of the inhibitors consist of a combination of a phosphonate or (2-carboxyethyl)phosphinate functionality with a catechol-based fragment, which are designed for complexation of the catalytic nickel ions and covalent bonding with the thiol group of Cys322, respectively. Compounds with three types of frameworks, including β-3,4-dihydroxyphenyl-, α-3,4-dihydroxybenzyl-, and α-3,4-dihydroxybenzylidene-substituted derivatives, exhibited complex and varying structure-dependent kinetics of inhibition. Among irreversible binders, methyl β-(3,4-dihydroxyphenyl)-β-(2-carboxyethyl)phosphorylpropionate was observed to be a remarkably reactive inhibitor of Sporosarcina pasteurii urease (kinact/KI = 10 420 s-1 M-1). The high potential of this group of compounds was also confirmed in Proteus mirabilis whole-cell-based inhibition assays. Some compounds followed slow-binding and reversible kinetics, e.g., methyl β-(3,4-dihydroxyphenyl)-β-phosphonopropionate, with Ki? = 0.13 μM, and an atypical low dissociation rate (residence time τ = 205 min).
Natural product derivatization with β-lactones, β-lactams and epoxides toward ‘infinite’ binders
Jouanneau, Morgan,Vellalath, Sreekumar,Kang, Guowei,Romo, Daniel
supporting information, p. 3348 - 3354 (2019/05/17)
β-Lactones, β-lactams and epoxides are privileged structural motifs found in both therapeutics and natural products. Herein we report several strategies for annulation of these motifs onto natural products that are not known to covalently modify their cellular targets. These strategies can facilitate identification of previously unidentified cellular targets or identify novel cellular targets of these natural products. The reported strategies include telescoped synthesis of β-lactones from allylic alcohols, nucleophile-catalyzed Michael aldol-β-lactonizations, and [2 + 2] β-lactam annulations with complex, commercially available alkene-containing natural products as substrates. A novel method for the tagging of phenolic natural products with epoxides is also reported.
