Kappacin, a novel antibacterial peptide from bovine milk.
about
Bioactive Molecules Released in Food by Lactic Acid Bacteria: Encrypted Peptides and Biogenic AminespH Dependent Antimicrobial Peptides and Proteins, Their Mechanisms of Action and Potential as Therapeutic AgentsInhibition of Porphyromonas gingivalis biofilm by oxantel.Novel approaches to improve the intrinsic microbiological safety of powdered infant milk formula.Extensive manipulation of caseicins A and B highlights the tolerance of these antimicrobial peptides to change.Structure-activity relationship of synthetic variants of the milk-derived antimicrobial peptide αs2-casein f(183-207).Health-Related Aspects of Milk Proteins.Milk protein peptides with angiotensin I-converting enzyme inhibitory (ACEI) activity.The potential role of milk-derived peptides in cardiovascular disease.Review: Production and functionality of active peptides from milk.Antibacterial Peptides: Opportunities for the Prevention and Treatment of Dental Caries.Milk-derived bioactive peptides and their health promoting effects: a potential role in atherosclerosis.Antioxidative and antibacterial peptides derived from bovine milk proteins.Lactoferrin inhibits Porphyromonas gingivalis proteinases and has sustained biofilm inhibitory activity.Divalent metal cations increase the activity of the antimicrobial Peptide kappacinAltering the composition of caseicins A and B as a means of determining the contribution of specific residues to antimicrobial activityStructure-activity analysis of the dermcidin-derived peptide DCD-1L, an anionic antimicrobial peptide present in human sweat.Porphyromonas gingivalis cysteine proteinase inhibition by kappa-casein peptides.Milk-derived bioactive peptides inhibit human endothelial-monocyte interactions via PPAR-γ dependent regulation of NF-κB.Antibacterial peptides derived from caprine whey proteins, by digestion with human gastrointestinal juice.Casein glycomacropeptide in the diet may reduce Escherichia coli attachment to the intestinal mucosa and increase the intestinal lactobacilli of early weaned piglets after an enterotoxigenic E. coli K88 challenge.Association of protein expression in isolated milk epithelial cells and cis-9, trans-11 conjugated linoleic acid proportions in milk from dairy cows.Molecular characterization and phylogenetic analysis of a yak (Bos grunniens) κ-casein cDNA from lactating mammary gland.Characterization and production of multifunctional cationic peptides derived from rice proteins.Plasmin digest of κ-casein as a source of antibacterial peptides.Screening the ability of natural feed ingredients to interfere with the adherence of enterotoxigenic Escherichia coli (ETEC) K88 to the porcine intestinal mucus.Identification of novel antibacterial peptides isolated from a commercially available casein hydrolysate by autofocusing technique.Identification of antibacterial peptides from bovine kappa-casein.In vitro and in vivo effects of hydrolysates from conglycinin on intestinal microbial community of mice after Escherichia coli infection.Mass Spectrometry of Biomolecules: Functional Foods, Nutraceuticals, and Natural Health Products
P2860
Q26745047-E95103B4-3E34-4402-88A1-1863C885CFA5Q28070241-B1BC67E4-7A51-4187-9F91-27E5E3C19986Q33676438-66DB2730-C053-4BB3-BB45-8DBBF239B492Q35131400-41A896EE-A775-45D6-9833-77E0DF2E8A31Q35827130-F6135C34-76A0-4442-98B1-E3C73C51CA26Q37122994-1777E516-0ED7-4A65-B0AD-01E8C17AC760Q37491375-692906EF-F79A-455D-856E-5A6147DFD4D4Q37725759-3E1E4C2F-5F18-48BB-9B77-5A26A020E252Q37903711-93D6A158-F49C-407A-9BE4-B6FA09752C99Q37932194-9B8E4929-2B1A-4C55-8330-407946CBAEFBQ38701785-5991A924-CDF0-4F61-AA40-31CA8CAD4F28Q38827062-D065196B-A72C-495D-84AC-94E84A921495Q38936638-DB6B6C0B-525E-4C5C-900C-92D1AC907436Q41774823-66BBC9A3-2190-4B26-99FD-03CF52F8E04CQ41888324-675A61C6-DCF4-4650-863D-7681E567EAE8Q41912811-2559671C-5C77-41C3-ADBD-44B94DAD7CBCQ42558511-B55791B9-A897-4DEE-98D8-DE8A0DF917F2Q42706265-83F70B2D-9E02-4183-A550-1BE2285CEF9BQ43121724-47B97D79-E071-4C9B-AC5F-3ADBAF99FC65Q43825489-876401B9-BA6E-4F9B-9634-56990CBE5F74Q44061711-540F62C3-D32B-4C7C-9F72-1A7B78F2FEC2Q44126478-5F7DD99A-5AC5-49FB-B718-8FA62B56175AQ45020574-1B80D2AB-8147-4A08-BE7A-7939D9D4468BQ51183291-8EAF25AE-92C3-424F-8513-DE6B1C1F6601Q53917587-C83CE7CC-275B-48BB-AA77-C5AAC43DBB3CQ54303714-E0302658-46AB-4B59-B4DC-FC773574A69DQ54337679-E4D6785E-650C-45DA-BB6F-253971ACE5A4Q54449685-41D0CDCB-B6A0-47A1-9F18-D795341C0FE8Q54449779-F98D4954-20B3-44F3-AF7F-8992F8FB1DF2Q58249368-687B002B-BCE0-46C2-B2C6-298DD59A5C19
P2860
Kappacin, a novel antibacterial peptide from bovine milk.
description
2001 nî lūn-bûn
@nan
2001年の論文
@ja
2001年学术文章
@wuu
2001年学术文章
@zh-cn
2001年学术文章
@zh-hans
2001年学术文章
@zh-my
2001年学术文章
@zh-sg
2001年學術文章
@yue
2001年學術文章
@zh
2001年學術文章
@zh-hant
name
Kappacin, a novel antibacterial peptide from bovine milk.
@en
Kappacin, a novel antibacterial peptide from bovine milk.
@nl
type
label
Kappacin, a novel antibacterial peptide from bovine milk.
@en
Kappacin, a novel antibacterial peptide from bovine milk.
@nl
prefLabel
Kappacin, a novel antibacterial peptide from bovine milk.
@en
Kappacin, a novel antibacterial peptide from bovine milk.
@nl
P2093
P2860
P50
P1476
Kappacin, a novel antibacterial peptide from bovine milk
@en
P2093
P2860
P304
P356
10.1128/AAC.45.8.2309-2315.2001
P407
P577
2001-08-01T00:00:00Z