Ovchinnikova, Tatiana V.
Marine Bioactive Peptides: Structure, Function, and Therapeutic Potential
English[eng]
cone snail||tilapia||n/a||animal models||BRICHOS domain||recombinant peptide||calcium absorption||plastein reaction||antioxidant activity||endothelial dysfunction||C3a||lung cancer||invertebrate immunity||identification||zinc bioavailability||NA-inhibitory peptide||nuclear magnetic resonance (NMR)||review||ACE-inhibitory activity||intestinal absorption||hairtail (Trichiurus japonicas)||DU-145 cells||peptide||crustacean||venom duct||Kalloconus||drug design||molecular symmetry||arenicin||?-helix||APETx2||conotoxins||functional diversity||docking||conotoxin||neuraminidase||angiotensin II||polychaeta||influenza virus||phylogeny||gene expression||host defense peptide||Perinereis aibuhitensis||anti-diabetic activity||conopeptides||SHRs||Chlorella pyrenoidosa protein hydrolysate (CPPH)||metastasis||Caco-2 cell monolayer||Nrf2||caco-2 cells||HUVEC||PYP15||sea cucumber||decapeptide||cytotoxic||arenicin-1||marine peptides||cell proliferation||Conus||Conus ateralbus||self-production of hydrogen peroxide||antimicrobial activity||molecular dynamics||machine learning||tachyplesins||ion channels||gut microbiota||Anthopleura anjunae oligopeptide||signaling pathways||half-fin anchovy hydrolysates||NF-?B||Chlorella pyrenoidosa protein hydrolysate-calcium chelate (CPPH-Ca)||antihypertensive effect||QAGLSPVR||antimicrobial peptides||vasculogenic mimicry||antibacterial||?-hairpin||innate immunity||transcriptome sequencing||HIF-1?||Gracilariopsis lemaneiformis||function||ACE-inhibitory peptide||complement||peptide-zinc complex||structure-activity relationship||multi-functional peptides||cod skin||adsorption||Maillard reaction products||molecular docking||antibacterial peptide||PI3K/AKT/mTOR signaling pathway||Arenicola marina||structure–activity relationship||antimicrobial peptide||Rana-box||acid-sensing ion channel||Neptunea arthritica cumingii||apoptosis||membrane damage||proteolytic system||toxin||polyphemusins||computational studies||muscle||oyster zinc-binding peptide||abalone||pain relief||transport routes||cytotoxicity||dexamethasone||cell death||host?microbe relationship||anti-LPS factor||MMPs||protein synthesis||structure||Pyropia yezoensis peptide||cone snails||chemical synthesis||prostate cancer||Ugr 9-1||myotube atrophy