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Marine Bioactive Peptides: Structure, Function, and Therapeutic Potential

Marine Bioactive Peptides: Structure, Function, and Therapeutic Potential

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This Special Issue Book, “Marine Bioactive Peptides: Structure, Function, andTherapeutic Potential"" includes up-to-date information regarding bioactivepeptides isolated from marine organisms. Marine peptides have been found invarious phyla, and their numbers have grown in recent years. These peptidesare diverse in structure and possess broad-spectrum activities that have greatpotential for medical applications. Various marine peptides are evolutionaryancient molecular factors of innate immunity that play a key role in host defense.A plethora of biological activities, including antibacterial, antifungal, antiviral,anticancer, anticoagulant, endotoxin-binding, immune-modulating, etc., makemarine peptides an attractive molecular basis for drug design. This Special IssueBook presents new results in the isolation, structural elucidation, functionalcharacterization, and therapeutic potential evaluation of peptides found inmarine organisms. Chemical synthesis and biotechnological production of marinepeptides and their mimetics is also a focus of this Special Issue Book.

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Keywords

  • ?-hairpin
  • ?-helix
  • abalone
  • ACE-inhibitory activity
  • ACE-inhibitory peptide
  • acid-sensing ion channel
  • adsorption
  • Angiotensin II
  • Animal Models
  • Anthopleura anjunae oligopeptide
  • anti-diabetic activity
  • anti-LPS factor
  • antibacterial
  • antibacterial peptide
  • antihypertensive effect
  • antimicrobial activity
  • antimicrobial peptide
  • antimicrobial peptides
  • antioxidant activity
  • APETx2
  • Apoptosis
  • arenicin
  • arenicin-1
  • Arenicola marina
  • BRICHOS domain
  • C3a
  • Caco-2 cell monolayer
  • caco-2 cells
  • calcium absorption
  • Cell Death
  • cell proliferation
  • chemical synthesis
  • Chlorella pyrenoidosa protein hydrolysate (CPPH)
  • Chlorella pyrenoidosa protein hydrolysate-calcium chelate (CPPH-Ca)
  • cod skin
  • complement
  • computational studies
  • cone snail
  • cone snails
  • conopeptides
  • conotoxin
  • conotoxins
  • Conus
  • Conus ateralbus
  • crustacean
  • Cytotoxic
  • Cytotoxicity
  • decapeptide
  • dexamethasone
  • docking
  • Drug Design
  • DU-145 cells
  • endothelial dysfunction
  • function
  • functional diversity
  • Gene expression
  • Gracilariopsis lemaneiformis
  • Gut Microbiota
  • hairtail (Trichiurus japonicas)
  • half-fin anchovy hydrolysates
  • HIF-1?
  • host defense peptide
  • host?microbe relationship
  • HUVEC
  • Identification
  • Influenza Virus
  • innate immunity
  • intestinal absorption
  • invertebrate immunity
  • Ion Channels
  • Kalloconus
  • lung cancer
  • Machine learning
  • Maillard reaction products
  • marine peptides
  • membrane damage
  • metastasis
  • MMPs
  • molecular docking
  • Molecular Dynamics
  • molecular symmetry
  • multi-functional peptides
  • muscle
  • myotube atrophy
  • n/a
  • NA-inhibitory peptide
  • Neptunea arthritica cumingii
  • neuraminidase
  • NF-?B
  • Nrf2
  • nuclear magnetic resonance (NMR)
  • oyster zinc-binding peptide
  • pain relief
  • peptide
  • peptide-zinc complex
  • Perinereis aibuhitensis
  • phylogeny
  • PI3K/AKT/mTOR signaling pathway
  • plastein reaction
  • polychaeta
  • polyphemusins
  • prostate cancer
  • protein synthesis
  • proteolytic system
  • PYP15
  • Pyropia yezoensis peptide
  • QAGLSPVR
  • Rana-box
  • recombinant peptide
  • review
  • sea cucumber
  • self-production of hydrogen peroxide
  • SHRs
  • signaling pathways
  • Structure
  • structure-activity relationship
  • structure–activity relationship
  • tachyplesins
  • tilapia
  • toxin
  • transcriptome sequencing
  • transport routes
  • Ugr 9-1
  • vasculogenic mimicry
  • venom duct
  • zinc bioavailability

Links

DOI: 10.3390/books978-3-03921-533-1

Editions

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