Antibacterial peptide chensirin-1
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Antibacterial peptide chensirin-1

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Antibacterial peptide chensirin-1 is an antimicrobial peptide isolated from the skin secretion of the Chinese frog Rana chensinensis. It has antimicrobial activity against gram-negative and gram-positive bacteria.

Category
Functional Peptides
Catalog number
BAT-013173
Molecular Formula
C72H123N17O22
Molecular Weight
1578.87
Synonyms
Val-Leu-Pro-Leu-Val-Gly-Asn-Leu-Leu-Asn-Asp-Leu-Leu-Gly-Glu; chensirin-1
Appearance
Powder
Purity
96%
Sequence
VLPLVGNLLNDLLGE
Storage
Store at -20°C
1. Defensins: The natural peptide antibiotic
Xihui Gao, Junqiang Ding, Chongbing Liao, Jinliang Xu, Xiaoxiao Liu, Wuyuan Lu Adv Drug Deliv Rev. 2021 Dec;179:114008. doi: 10.1016/j.addr.2021.114008. Epub 2021 Oct 18.
Defensins are a family of cationic antimicrobial peptides active against a broad range of infectious microbes including bacteria, viruses and fungi, playing important roles as innate effectors and immune modulators in immunological control of microbial infection. Their antibacterial properties and unique mechanisms of action have garnered considerable interest in developing defensins into a novel class of natural antibiotic peptides to fend off pathogenic infection by bacteria, particularly those resistant to conventional antibiotics. However, serious pharmacological and technical obstacles, some of which are unique to defensins and others are common to peptide drugs in general, have hindered the development and clinical translation of defensins as anti-infective therapeutics. To overcome them, several technologies have been developed, aiming for improved functionality, prolonged circulation time, enhanced proteolytic stability and bioavailability, and efficient and controlled delivery and release of defensins to the site of infection. Additional challenges include the alleviation of potential toxicity of defensins and their cost-effective manufacturing. In this review, we briefly introduce defensin biology, focus on various transforming strategies and practical techniques developed for defensins and their derivatives as antibacterial therapeutics, and conclude with a summation of future challenges and possible solutions.
2. Peptide antimicrobial agents
Håvard Jenssen, Pamela Hamill, Robert E W Hancock Clin Microbiol Rev. 2006 Jul;19(3):491-511. doi: 10.1128/CMR.00056-05.
Antimicrobial host defense peptides are produced by all complex organisms as well as some microbes and have diverse and complex antimicrobial activities. Collectively these peptides demonstrate a broad range of antiviral and antibacterial activities and modes of action, and it is important to distinguish between direct microbicidal and indirect activities against such pathogens. The structural requirements of peptides for antiviral and antibacterial activities are evaluated in light of the diverse set of primary and secondary structures described for host defense peptides. Peptides with antifungal and antiparasitic activities are discussed in less detail, although the broad-spectrum activities of such peptides indicate that they are important host defense molecules. Knowledge regarding the relationship between peptide structure and function as well as their mechanism of action is being applied in the design of antimicrobial peptide variants as potential novel therapeutic agents.
3. Advances of peptides for antibacterial applications
Yuhan Yan, Yuanze Li, Zhiwen Zhang, Xinhao Wang, Yuzhong Niu, Shaohua Zhang, Wenlong Xu, Chunguang Ren Colloids Surf B Biointerfaces. 2021 Jun;202:111682. doi: 10.1016/j.colsurfb.2021.111682. Epub 2021 Mar 8.
In the past few decades, peptide antibacterial products with unique antibacterial mechanisms have attracted widespread interest. They can effectively reduce the probability of drug resistance of bacteria and are biocompatible, so they possess tremendous development prospects. This review provides recent research and analysis on the basic types of antimicrobial peptides (including poly (amino acid)s, short AMPs, and lipopeptides) and factors to optimize antimicrobial effects. It also summarizes the two most important modes of action of antimicrobial peptides and the latest developments in the application of AMPs, including antimicrobial agent, wound healing, preservative, antibacterial coating and others. Finally, we discuss the remaining challenges to improve the antibacterial peptides and propose prospects in the field.
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