Eitemau Tebyg: Peptides for Health Benefits 2019
- Peptides for Health Benefits 2019
- Trends in Regulatory Peptides
- Membrane–Peptide Interactions
- Computational Approaches in Discovery & Design of Antimicrobial Peptides
- Antimicrobial Peptides Aka Host Defense Peptides – From Basic Research to Therapy
- Marine Proteins and Peptides
- Synthetic Peptides and Peptidomimetics: From Basic Science to Biomedical Applications
- Chapter Nucleated Red Blood Cells Contribute to the Host Immune Response Against Pathogens
- Advances in Peptide and Peptidomimetic Design Inspiring Basic Science and Drug Discovery: A Themed Issue Honoring Professor Victor J. Hruby on the Occasion of His 80th Birthday
- Development, Characterization, and Application of Bioactive Peptides, Diagnostic Biomarkers, and Pharmaceutical Proteins
- Special Issue in Honor of Dr. Marie-Hélène Metz-Boutigue 75th Birthday: “Recent Advances in Multifunctional Antimicrobial Peptides as Preclinical Therapeutic Studies and Clinical Future Applications”
- Marine Bioactive Peptides: Structure, Function, and Therapeutic Potential
- Identification and Characterization of Antimicrobial Peptides with Therapeutic Potential
- Current State of the Field of Cell-Penetrating Peptides as an Honorific Issue for Professor Ülo Langel
- Marine Bioactive Peptides II: Structure, Function, and Therapeutic Potential
- Folded Synthetic Peptides for Biomedical Applications
- Antimicrobial Peptides
- New Advances in the Research of Antioxidant Food Peptides
- Toxins in Drug Discovery and Pharmacology
- Molecular Basis of Cardiovascular Diseases: Implications of Natriuretic Peptides
- Mitochondria-targeted drug delivery
- Advances in Multiple Sclerosis Research-Series I
- Antimicrobial Peptides
- Advanced Research on Animal Venoms in China
Pwnc: antihypertensive peptides
- Pwnc: food-derived
- Pwnc: fermentation
- Pwnc: Chlorella sorokiniana
- Pwnc: in silico
- Pwnc: BIOPEP-UWM database
- Pwnc: proteomics
- Pwnc: bioactive peptides
- Pwnc: nano liquid chromatography tandem mass spectrometry (nanoLC–nanoESI MS/MS)
- Pwnc: apolipoprotein E
- Pwnc: amyloid fibrils
- Pwnc: Alzheimer’s disease
- Pwnc: Αβ oligomer
- Pwnc: amyloid
- Pwnc: Aβ peptide
- Pwnc: glioma
- Pwnc: platelets
- Pwnc: antiproliferative assay
- Pwnc: conjugation
- Pwnc: docetaxel
- Pwnc: doxorubicin
- Pwnc: extra domain B
- Pwnc: fibronectin
- Pwnc: Fmoc/tBu
- Pwnc: peptide–drug conjugate
- Pwnc: prostate cancer
- Pwnc: solid-phase synthesis
- Pwnc: targeting
- Pwnc: acrylamide
- Pwnc: enteric nervous system
- Pwnc: galanin
- Pwnc: pig
- Pwnc: stomach
- Pwnc: formyl peptide receptors
- Pwnc: ligands
- Pwnc: diseases
- Pwnc: polymicrobial biofilms
- Pwnc: intragenic antimicrobial peptide
- Pwnc: Hs02
- Pwnc: Pseudomonas aeruginosa
- Pwnc: Staphylococcus aureus
- Pwnc: osteostatin
- Pwnc: arthritis
- Pwnc: inflammation
- Pwnc: immune response
- Pwnc: cartilage destruction
- Pwnc: bone erosion
- Pwnc: collagen
- Pwnc: hydrolysis
- Pwnc: enzyme
- Pwnc: molecular weight
- Pwnc: sheepskin
- Pwnc: NF-κB
- Pwnc: dry-cured pork ham
- Pwnc: angiotensin I converting enzyme
- Pwnc: endothelial dysfunction
- Pwnc: molecular blind docking
- Pwnc: Lactoferricin B (Lfcin B)
- Pwnc: Histatin-5
- Pwnc: antimicrobial peptides (AMPs)
- Pwnc: antifungal activity
- Pwnc: proteome microarray
- Pwnc: synergy
- Pwnc: temporin
- Pwnc: MRSA
- Pwnc: antimicrobial peptide
- Pwnc: human keratinocytes
- Pwnc: pseudin-2
- Pwnc: antisepsis, peptide antibiotics
- Pwnc: neurotensin
- Pwnc: asthma
- Pwnc: T cells
- Pwnc: In situ tetramer staining
- Pwnc: MHC tetramer
- Pwnc: antigen-specific
- Pwnc: confocal microscopy
- Pwnc: fresh tissue
- Pwnc: velvet antler
- Pwnc: alcalase hydrolysate
- Pwnc: antioxidant peptide
- Pwnc: protection ability
- Pwnc: oxidative stress
- Pwnc: Crassostrea angulata
- Pwnc: pidotimod
- Pwnc: CXCR3
- Pwnc: monocyte
- Pwnc: migration
- Pwnc: PI3K/Akt pathway
- Pwnc: T cell
- Pwnc: immunomodulant
- Pwnc: host defense peptides
- Pwnc: membrane activity
- Pwnc: copper
- Pwnc: piscidins
- Pwnc: Clostridioides difficile
- Pwnc: prolactin-releasing peptide
- Pwnc: GPR10
- Pwnc: RF-amide peptides
- Pwnc: food intake regulation
- Pwnc: energy expenditure
- Pwnc: neuroprotection
- Pwnc: signaling
- Pwnc: gender differences
- Pwnc: dyslipidemia
- Pwnc: obesity
- Pwnc: hyperglycemia
- Pwnc: pulmonary emphysema
- Pwnc: endothelial progenitor cells
- Pwnc: angiogenic precursor cells
- Pwnc: pegylated glucagon-like peptide 1
- Pwnc: and endothelial regeneration
- Pwnc: miiuy croaker (Miichthys miiuy)
- Pwnc: swim bladder
- Pwnc: FPYLRH
- Pwnc: antioxidant activity
- Pwnc: cytoprotective effect
- Pwnc: antimicrobial peptides
- Pwnc: antimicrobial resistance
- Pwnc: AMP identification and design
- Pwnc: biosynthesis
- Pwnc: mode of action
- Pwnc: physico-chemical properties
- Pwnc: therapeutic potential
- Pwnc: insects
- Pwnc: Cecropins
- Pwnc: Cec-analogs
- Pwnc: MDR infectious diseases
- Pwnc: airway inflammation
- Pwnc: non-atopic asthma
- Pwnc: hybrid peptide
- Pwnc: pro-inflammatory cytokines
- Pwnc: sPLA2
- Pwnc: MDA
- Pwnc: database
- Pwnc: proteolysis
- Pwnc: SMILES code
- Pwnc: foods
- Pwnc: nutrition
- Pwnc: chronic diseases
- Pwnc: nutraceuticals
- Pwnc: peptide vaccine
- Pwnc: immune checkpoint inhibitor
- Pwnc: humanized mouse
- Pwnc: cancer antigen
- Pwnc: immune suppression
- Pwnc: vasoactive intestinal peptide
- Pwnc: VPAC1 receptor
- Pwnc: VPAC2 receptor
- Pwnc: rheumatic diseases
- Pwnc: inflammatory bowel disease
- Pwnc: central nervous system diseases
- Pwnc: type 1 diabetes
- Pwnc: Sjögren’s syndrome
- Pwnc: biomarkers
- Pwnc: human antimicrobial peptides
- Pwnc: defensins
- Pwnc: cathelicidins
- Pwnc: anti-inflammatory
- Pwnc: pro-inflammatory
- Pwnc: peptide
- Pwnc: combinatorial library
- Pwnc: library design
- Pwnc: screening
- Pwnc: mutagenesis
- Pwnc: prolyl-hydroxyproline (Pro-Hyp)
- Pwnc: hydroxyprolyl-glycine (Hyp-Gly)
- Pwnc: collagen peptide
- Pwnc: fibroblasts
- Pwnc: fetal bovine serum (FBS)
- Pwnc: AMD
- Pwnc: CNV
- Pwnc: VEGFR1
- Pwnc: multimeric peptides
- Pwnc: oral delivery
- Pwnc: colorectal cancer
- Pwnc: cancer stem cells
- Pwnc: chemoprevention
- Pwnc: bioactive peptide
- Pwnc: lunasin
- Pwnc: ACE-inhibitory activity
- Pwnc: whey peptides
- Pwnc: molecular docking
- Pwnc: hypertension
- Pwnc: antibiotic resistance
- Pwnc: cystic fibrosis
- Pwnc: cryptides
- Pwnc: anti-biofilm peptides
- Pwnc: synergistic effects
- Pwnc: n/a
- Pwnc: thema EDItEUR::G Reference, Information and Interdisciplinary subjects::GP Research and inform...
- Pwnc: thema EDItEUR::P Mathematics and Science::PS Biology, life sciences
Pwnc: functional food
- Pwnc: food-derived
- Pwnc: fermentation
- Pwnc: Chlorella sorokiniana
- Pwnc: in silico
- Pwnc: BIOPEP-UWM database
- Pwnc: proteomics
- Pwnc: bioactive peptides
- Pwnc: nano liquid chromatography tandem mass spectrometry (nanoLC–nanoESI MS/MS)
- Pwnc: apolipoprotein E
- Pwnc: amyloid fibrils
- Pwnc: Alzheimer’s disease
- Pwnc: Αβ oligomer
- Pwnc: amyloid
- Pwnc: Aβ peptide
- Pwnc: glioma
- Pwnc: platelets
- Pwnc: antiproliferative assay
- Pwnc: conjugation
- Pwnc: docetaxel
- Pwnc: doxorubicin
- Pwnc: extra domain B
- Pwnc: fibronectin
- Pwnc: Fmoc/tBu
- Pwnc: peptide–drug conjugate
- Pwnc: prostate cancer
- Pwnc: solid-phase synthesis
- Pwnc: targeting
- Pwnc: acrylamide
- Pwnc: enteric nervous system
- Pwnc: galanin
- Pwnc: pig
- Pwnc: stomach
- Pwnc: formyl peptide receptors
- Pwnc: ligands
- Pwnc: diseases
- Pwnc: polymicrobial biofilms
- Pwnc: intragenic antimicrobial peptide
- Pwnc: Hs02
- Pwnc: Pseudomonas aeruginosa
- Pwnc: Staphylococcus aureus
- Pwnc: osteostatin
- Pwnc: arthritis
- Pwnc: inflammation
- Pwnc: immune response
- Pwnc: cartilage destruction
- Pwnc: bone erosion
- Pwnc: collagen
- Pwnc: hydrolysis
- Pwnc: enzyme
- Pwnc: molecular weight
- Pwnc: sheepskin
- Pwnc: NF-κB
- Pwnc: dry-cured pork ham
- Pwnc: angiotensin I converting enzyme
- Pwnc: endothelial dysfunction
- Pwnc: molecular blind docking
- Pwnc: Lactoferricin B (Lfcin B)
- Pwnc: Histatin-5
- Pwnc: antimicrobial peptides (AMPs)
- Pwnc: antifungal activity
- Pwnc: proteome microarray
- Pwnc: synergy
- Pwnc: temporin
- Pwnc: MRSA
- Pwnc: antimicrobial peptide
- Pwnc: human keratinocytes
- Pwnc: pseudin-2
- Pwnc: antisepsis, peptide antibiotics
- Pwnc: neurotensin
- Pwnc: asthma
- Pwnc: T cells
- Pwnc: In situ tetramer staining
- Pwnc: MHC tetramer
- Pwnc: antigen-specific
- Pwnc: confocal microscopy
- Pwnc: fresh tissue
- Pwnc: velvet antler
- Pwnc: alcalase hydrolysate
- Pwnc: antioxidant peptide
- Pwnc: protection ability
- Pwnc: oxidative stress
- Pwnc: Crassostrea angulata
- Pwnc: pidotimod
- Pwnc: CXCR3
- Pwnc: monocyte
- Pwnc: migration
- Pwnc: PI3K/Akt pathway
- Pwnc: T cell
- Pwnc: immunomodulant
- Pwnc: host defense peptides
- Pwnc: membrane activity
- Pwnc: copper
- Pwnc: piscidins
- Pwnc: Clostridioides difficile
- Pwnc: prolactin-releasing peptide
- Pwnc: GPR10
- Pwnc: RF-amide peptides
- Pwnc: food intake regulation
- Pwnc: energy expenditure
- Pwnc: neuroprotection
- Pwnc: signaling
- Pwnc: gender differences
- Pwnc: dyslipidemia
- Pwnc: obesity
- Pwnc: hyperglycemia
- Pwnc: pulmonary emphysema
- Pwnc: endothelial progenitor cells
- Pwnc: angiogenic precursor cells
- Pwnc: pegylated glucagon-like peptide 1
- Pwnc: and endothelial regeneration
- Pwnc: miiuy croaker (Miichthys miiuy)
- Pwnc: swim bladder
- Pwnc: FPYLRH
- Pwnc: antioxidant activity
- Pwnc: cytoprotective effect
- Pwnc: antimicrobial peptides
- Pwnc: antimicrobial resistance
- Pwnc: AMP identification and design
- Pwnc: biosynthesis
- Pwnc: mode of action
- Pwnc: physico-chemical properties
- Pwnc: therapeutic potential
- Pwnc: insects
- Pwnc: Cecropins
- Pwnc: Cec-analogs
- Pwnc: MDR infectious diseases
- Pwnc: airway inflammation
- Pwnc: non-atopic asthma
- Pwnc: hybrid peptide
- Pwnc: pro-inflammatory cytokines
- Pwnc: sPLA2
- Pwnc: MDA
- Pwnc: database
- Pwnc: proteolysis
- Pwnc: SMILES code
- Pwnc: foods
- Pwnc: nutrition
- Pwnc: chronic diseases
- Pwnc: nutraceuticals
- Pwnc: peptide vaccine
- Pwnc: immune checkpoint inhibitor
- Pwnc: humanized mouse
- Pwnc: cancer antigen
- Pwnc: immune suppression
- Pwnc: vasoactive intestinal peptide
- Pwnc: VPAC1 receptor
- Pwnc: VPAC2 receptor
- Pwnc: rheumatic diseases
- Pwnc: inflammatory bowel disease
- Pwnc: central nervous system diseases
- Pwnc: type 1 diabetes
- Pwnc: Sjögren’s syndrome
- Pwnc: biomarkers
- Pwnc: human antimicrobial peptides
- Pwnc: defensins
- Pwnc: cathelicidins
- Pwnc: anti-inflammatory
- Pwnc: pro-inflammatory
- Pwnc: peptide
- Pwnc: combinatorial library
- Pwnc: library design
- Pwnc: screening
- Pwnc: mutagenesis
- Pwnc: prolyl-hydroxyproline (Pro-Hyp)
- Pwnc: hydroxyprolyl-glycine (Hyp-Gly)
- Pwnc: collagen peptide
- Pwnc: fibroblasts
- Pwnc: fetal bovine serum (FBS)
- Pwnc: AMD
- Pwnc: CNV
- Pwnc: VEGFR1
- Pwnc: multimeric peptides
- Pwnc: oral delivery
- Pwnc: colorectal cancer
- Pwnc: cancer stem cells
- Pwnc: chemoprevention
- Pwnc: bioactive peptide
- Pwnc: lunasin
- Pwnc: ACE-inhibitory activity
- Pwnc: whey peptides
- Pwnc: molecular docking
- Pwnc: hypertension
- Pwnc: antibiotic resistance
- Pwnc: cystic fibrosis
- Pwnc: cryptides
- Pwnc: anti-biofilm peptides
- Pwnc: synergistic effects
- Pwnc: n/a
- Pwnc: thema EDItEUR::G Reference, Information and Interdisciplinary subjects::GP Research and inform...
- Pwnc: thema EDItEUR::P Mathematics and Science::PS Biology, life sciences
- Functional Foods and Food Supplements
- Neglected and Underutilized Plant Species in Horticultural and Ornamental Systems
- Functional Foods as a New Therapeutic Strategy
- Structural and Functional Analysis of Extracts in Plants
- Durum Wheat Products - Recent Advances
- Feature Papers in Horticulturae Ⅱ
- Phenolic Compounds in Food
- Food Processing and Its Impact on Phenolic and other Bioactive Constituents in Food
- Biotechnology for Sustainability and Social Well Being
- Polymer Materials in Biomedical Application
- Natural Polyphenols in Human Health
- Advanced Polymer Composite Materials
- Unconventional Raw Materials for Food Products
- The Antioxidant Potential of Fermented Foods
- Sustainability of Olive Oil System
- Natural Bioactive Compounds Exerting Health Promoting Effects through Ameliorating Oxidative Stress
- Cocoa, Chocolate and Human Health
- Screening, Identification, and Quantification of Nutritional Components and Phytochemicals in Foodstuffs
- Processing and Preservation of Aquatic Products
- Peptides for Health Benefits 2019
- By-Products: Characterisation and Use as Food
- Nutrition, Choice and Health-Related Claims
- Recent Advances in Nutritional Psychiatry
- Peptides for Health Benefits 2019