Antimicrobial Peptides from Plants
Plant antimicrobial peptides (AMPs) have evolved differently from AMPs from other life forms. They are generally rich in cysteine residues which form multiple disulfides. In turn, the disulfides cross-braced plant AMPs as cystine-rich peptides to confer them with extraordinary high chemical, thermal...
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sg-ntu-dr.10356-812232023-02-28T16:58:09Z Antimicrobial Peptides from Plants Tam, James Pingkwan Wang, Shujing Wong, Ka Ho Tan, Wei Liang School of Biological Sciences Cysteine-rich peptides Cystine knot Thionin Knottin Plant antimicrobial peptides Defensin Hevein Plant antimicrobial peptides (AMPs) have evolved differently from AMPs from other life forms. They are generally rich in cysteine residues which form multiple disulfides. In turn, the disulfides cross-braced plant AMPs as cystine-rich peptides to confer them with extraordinary high chemical, thermal and proteolytic stability. The cystine-rich or commonly known as cysteine-rich peptides (CRPs) of plant AMPs are classified into families based on their sequence similarity, cysteine motifs that determine their distinctive disulfide bond patterns and tertiary structure fold. Cystine-rich plant AMP families include thionins, defensins, hevein-like peptides, knottin-type peptides (linear and cyclic), lipid transfer proteins, α-hairpinin and snakins family. In addition, there are AMPs which are rich in other amino acids. The ability of plant AMPs to organize into specific families with conserved structural folds that enable sequence variation of non-Cys residues encased in the same scaffold within a particular family to play multiple functions. Furthermore, the ability of plant AMPs to tolerate hypervariable sequences using a conserved scaffold provides diversity to recognize different targets by varying the sequence of the non-cysteine residues. These properties bode well for developing plant AMPs as potential therapeutics and for protection of crops through transgenic methods. This review provides an overview of the major families of plant AMPs, including their structures, functions, and putative mechanisms. NRF (Natl Research Foundation, S’pore) Published version 2015-12-21T06:35:04Z 2019-12-06T14:25:54Z 2015-12-21T06:35:04Z 2019-12-06T14:25:54Z 2015 Journal Article Tam, J. P., Wang, S., Wong, K. H., & Tan, W. L. (2015). Antimicrobial Peptides from Plants. Pharmaceuticals, 8(4), 711-757. 1424-8247 https://hdl.handle.net/10356/81223 http://hdl.handle.net/10220/39187 10.3390/ph8040711 26580629 en Pharmaceuticals © 2015 by the authors; licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution license (http://creativecommons.org/licenses/by/4.0/). 47 p. application/pdf |
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Cysteine-rich peptides Cystine knot Thionin Knottin Plant antimicrobial peptides Defensin Hevein |
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Cysteine-rich peptides Cystine knot Thionin Knottin Plant antimicrobial peptides Defensin Hevein Tam, James Pingkwan Wang, Shujing Wong, Ka Ho Tan, Wei Liang Antimicrobial Peptides from Plants |
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Plant antimicrobial peptides (AMPs) have evolved differently from AMPs from other life forms. They are generally rich in cysteine residues which form multiple disulfides. In turn, the disulfides cross-braced plant AMPs as cystine-rich peptides to confer them with extraordinary high chemical, thermal and proteolytic stability. The cystine-rich or commonly known as cysteine-rich peptides (CRPs) of plant AMPs are classified into families based on their sequence similarity, cysteine motifs that determine their distinctive disulfide bond patterns and tertiary structure fold. Cystine-rich plant AMP families include thionins, defensins, hevein-like peptides, knottin-type peptides (linear and cyclic), lipid transfer proteins, α-hairpinin and snakins family. In addition, there are AMPs which are rich in other amino acids. The ability of plant AMPs to organize into specific families with conserved structural folds that enable sequence variation of non-Cys residues encased in the same scaffold within a particular family to play multiple functions. Furthermore, the ability of plant AMPs to tolerate hypervariable sequences using a conserved scaffold provides diversity to recognize different targets by varying the sequence of the non-cysteine residues. These properties bode well for developing plant AMPs as potential therapeutics and for protection of crops through transgenic methods. This review provides an overview of the major families of plant AMPs, including their structures, functions, and putative mechanisms. |
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School of Biological Sciences |
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School of Biological Sciences Tam, James Pingkwan Wang, Shujing Wong, Ka Ho Tan, Wei Liang |
| format |
Article |
| author |
Tam, James Pingkwan Wang, Shujing Wong, Ka Ho Tan, Wei Liang |
| author_sort |
Tam, James Pingkwan |
| title |
Antimicrobial Peptides from Plants |
| title_short |
Antimicrobial Peptides from Plants |
| title_full |
Antimicrobial Peptides from Plants |
| title_fullStr |
Antimicrobial Peptides from Plants |
| title_full_unstemmed |
Antimicrobial Peptides from Plants |
| title_sort |
antimicrobial peptides from plants |
| publishDate |
2015 |
| url |
https://hdl.handle.net/10356/81223 http://hdl.handle.net/10220/39187 |
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1759853241912262656 |