Antibacterial peptides are a family of host-defense peptides most of which are gene-encoded and produced by living organisms of all types. Antibacterial peptides are small molecular proteins with broad antimicrobial spectrum against bacteria, viruses, fungi and sometimes even as anticancer peptide. SMAP-29, a cathelicidin-like peptide derived from sheep myeloid, line alpha-helical Structure, exerts a powerful broad antimicrobial activity against different pathogens including Gram-positive and Gram-negative bacteria, fungi, viruses, parasites, spirochaetes, chlamydia and antiendotoxin activity, and particular antibacterial mechanism, rapidly to permeabilize membranes of susceptible organisms. This paper summarizes the lately research progress of SMAP-29 and Variants including the characteristics of structure, structure-activity relationships, mode of action, diverse biological functions, gene recombinant and expression. We put emphasis on the necessity of molecular design, and primary and secondary structure-based modification, to provides a strong foundation for further drug development and design of SMAP-29.
Animals ; Antimicrobial Cationic Peptides ; chemistry ; genetics ; physiology ; Blood Proteins ; chemistry ; genetics ; physiology ; Cathelicidins ; chemistry ; genetics ; physiology ; Drug Design ; Recombinant Proteins ; chemistry ; genetics ; Sheep