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Genes encoding 4‐Cys antimicrobial peptides in wheat T riticum kiharae Dorof. et Migush.: multimodular structural organization, instraspecific variability, distribution and role in defence
Author(s) -
Utkina Lyubov L.,
Andreev Yaroslav A.,
Rogozhin Eugene A.,
Korostyleva Tatyana V.,
Slavokhotova Anna A.,
Oparin Peter B.,
Vassilevski Alexander A.,
Grishin Eugene V.,
Egorov Tsezi A.,
Odintsova Tatyana I.
Publication year - 2013
Publication title -
the febs journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.981
H-Index - 204
eISSN - 1742-4658
pISSN - 1742-464X
DOI - 10.1111/febs.12349
Subject(s) - gene , biology , gene family , peptide , genome , intron , genetics , signal peptide , amino acid , polyploid , peptide sequence , biochemistry
A novel family of antifungal peptides was discovered in the wheat T riticum kiharae Dorof. et Migusch. Two members of the family, designated Tk‐ AMP ‐ X 1 and T k‐ AMP ‐X2, were completely sequenced and shown to belong to the α‐hairpinin structural family of plant peptides with a characteristic C1XXXC2‐X(n)‐C3XXXC4 motif. The peptides inhibit the spore germination of several fungal pathogens in vitro . c DNA and gene cloning disclosed unique structure of genes encoding Tk‐ AMP ‐X peptides. They code for precursor proteins of unusual multimodular structure, consisting of a signal peptide, several α‐hairpinin (4‐Cys) peptide domains with a characteristic cysteine pattern separated by linkers and a C‐terminal prodomain. Three types of precursor proteins, with five, six or seven 4‐Cys peptide modules, were found in wheat. Among the predicted family members, several peptides previously isolated from T. kiharae seeds were identified. Genes encoding Tk‐ AMP ‐X precursors have no introns in the protein‐coding regions and are upregulated by fungal pathogens and abiotic stress, providing conclusive evidence for their role in stress response. A combined PCR ‐based and bioinformatics approach was used to search for related genes in the plant kingdom. Homologous genes differing in the number of peptide modules were discovered in phylogenetically‐related T riticum and A egilops species, including polyploid wheat genome donors. Association of the Tk‐ AMP ‐ X genes with A , B / G or D genomes of hexaploid wheat was demonstrated. Furthermore, T k‐ AMP ‐ X ‐related sequences were shown to be widespread in the Poaceae family among economically important crops, such as barley, rice and maize. Database Nucleotide sequence data have been deposited in the EMBL database under accession numbers: HF562347 , HF562348 , HF562349 , HF562350 , HF562351 , HF562352 , HF562353 , HF562354 , HF562355 , HF562356 , HF562357 , HF562358 , HF562359 , HF562360 , HF562361 , HF562362 , HF562363 and HF562364 .