Molecular Cloning and Identification of Novel ω-gliadin Genes from Triticum Species

Gliadin is a main component of gluten proteins that affect functional properties of bread making and contributes to the viscous nature of doughs. In this study, thirteen novel ω-gliadin genes were identified in several Triticum species, which encode the ARH-, ATDand ATN-type proteins. Two novel type...

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Published inCereal research communications Vol. 44; no. 2; pp. 309 - 319
Main Authors Li, Z.L., Wu, D.D., Li, H.Y., Chen, G., Cao, W.G., Ning, S.Z., Liu, D.C., Zhang, L.Q.
Format Journal Article
LanguageEnglish
Published Cham AKADÉMIAI KIADÓ 01.06.2016
Springer International Publishing
Springer
Subjects
Agriculture
Cloning
Genetic aspects
Genetic screening
Life Sciences
Methods
Plant Breeding/Biotechnology
Plant Genetics and Genomics
Plant Physiology
Plant proteins
Quality and Utilization
Wheat
cloning
pseudogene
ω-gliadin
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Summary:Gliadin is a main component of gluten proteins that affect functional properties of bread making and contributes to the viscous nature of doughs. In this study, thirteen novel ω-gliadin genes were identified in several Triticum species, which encode the ARH-, ATDand ATN-type proteins. Two novel types of ω-gliadins: ATD- and ATN- have not yet been reported. The lengths of 13 sequences were ranged from 927 to 1269 bp and the deduced mature proteins were varied from 309 to 414 residues. All 13 genes were pseudogenes because of the presence of internal stop codons. The primary structure of these ω-gliadin genes included a signal peptide, a conserved N-terminal domain, a repetitive domain and a conserved C-terminus. In this paper, we first characterize ω-gliadin genes from T. timopheevi ssp. timopheevi and T. timopheevi ssp. araraticum. The ω-gliadin gene variation and the evolutionary relationship of ω-gliadin family genes were also discussed.
ISSN:0133-3720
1788-9170
DOI:10.1556/0806.44.2016.020