Abstract
In continuation of phytochemical investigations of the methanolic extract of Dictyopteris hoytii, we have obtained twelve compounds (1–12) through column chromatography. Herein, three compounds, namely, dimethyl 2-bromoterepthalate (3), dimethyl 2,6-dibromoterepthalate (4), and (E)-3-(4-(dimethoxymethyl)phenyl) acrylic acid (5) are isolated for the first time as a natural product, while the rest of the compounds (1, 2, 6–12) are known and isolated for the first time from this source. The structures of the isolated compounds were elucidated by advanced spectroscopic 1D and 2D NMR techniques including 1H, 13C, DEPT, HSQC, HMBC, COSY, NEOSY, and HR-MS and comparison with the reported literature. Furthermore, eight compounds (13–20) previously isolated by our group from the same source along with the currently isolated compounds (1–12) were screened against the CA-II enzyme. All compounds, except 6, 8, 14, and 17, were evaluated for in vitro bovine carbonic anhydrase-II (CA-II) inhibitory activity. Eventually, eleven compounds (1, 4, 5, 7, 9, 10, 12, 13, 15, 18, and 19) exhibited significant inhibitory activity against CA-II with IC50 values ranging from 13.4 to 71.6 μM. Additionally, the active molecules were subjected to molecular docking studies to predict the binding behavior of those compounds. It was observed that the compounds exhibit the inhibitory potential by specifically interacting with the ZN ion present in the active site of CA-II. In addition to ZN ion, two residues (His94 and Thr199) play an important role in binding with the compounds that possess a carboxylate group in their structure.
Highlights
In recent years, more than 200,000 eukaryotic marine species have been validated, among which, algae contributed nearly 44,000 well described species [1]
Molecules 2021, 26, 7074 positions and one ortho substituted bromine, which was further supported by 1H–1H correlation spectroscopy (COSY) and heteronuclear multiple bond correlation (HMBC) expspereicmtreonstc.opByas(CedOSoYn) atnhdesheetefaroctnsu, clceoamr pmouulntidple3bownadscoarsrseilgantieodneethxypleri2m-bernot-. mBaosteedreopnthtahleastee.facts, compound 3 was assigned as dimethyl 2-bromoterepthalate
CThceoHrreMlaBtCioncosrorfelHat-i3ontos oCf-2H, -C3 -t4o, column chromatography (CC)--21, Can-4d, CC--81,aannddHC-5-8toanCd-6H, C-5-4t,oCC-8-6,anCd-4C, C-1-8fu, ratnhderCin-1dficuarttehderthinedpirceasteednctehaenpdrepsoesnictieonanodf pesotseirtigornouopf seastteCr-1garonudpCs-4atinCt-h1e amnodleCcu-4le.inBetchaeusme oofletchuelsee. aBdevcaanucsee sopfectthroessecoapdicvtaenccheniques and above observations, the structure of compound 4 was designated as dimethyl 2,6-dibromoterepthalate
Summary
More than 200,000 eukaryotic marine species have been validated, among which, algae contributed nearly 44,000 well described species [1]. The chemical composition varies considerably due to both environmental condition and genetic differences among species [3] These are valuable due to their high content in compounds with different biological activities, including both complex organic compounds and primary and secondary metabolites [3,4]. These seaweeds can be used as a source of biofuels due to their high growth rate, high photosynthetic efficiency, no competition with food crops, high carbohydrate content, and no requirement of land area for cultivation [5]. Molecules 2021, 26, 7074 positions and one ortho substituted bromine, which was further supported by 1H–1H correlation spectroscopy (COSY) and heteronuclear multiple bond correlation (HMBC) expspereicmtreonstc.opByas(CedOSoYn) atnhdesheetefaroctnsu, clceoamr pmouulntidple3bownadscoarsrseilgantieodn (aHsMdBiCm)eethxypleri2m-bernot-. mBaosteedreopnthtahleastee.facts, compound 3 was assigned as dimethyl 2-bromoterepthalate
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