Allelic variation of glutenin and gliadin genes in Iranian einkorn wheat

Paper Details

Research Paper 01/11/2015
Views (263) Download (10)
current_issue_feature_image
publication_file

Allelic variation of glutenin and gliadin genes in Iranian einkorn wheat

Jafar Ahmadi, Alireza Pour-Aboughadareh
J. Bio. Env. Sci.7( 5), 168-179, November 2015.
Certificate: JBES 2015 [Generate Certificate]

Abstract

The glutenin and gliadin characteristics of wheat germplasm have a potential value and understanding the allelic distribution in glutenin and gliadin loci is very important for any wheat breeding program. In the present study, we reported the allelic status at Glu-A3 and Gli-A2 loci among a set of 40 accessions of T. boeoticum and T. urartu collected from different regions of Iran, based on diagnostic polymerase chain reaction assays. With respect to Gli-A2, 93% of the accessions carried a 210 bp allele. However, 5 and 13% of the accessions carried two new alleles with size of 490 and 700 bp, respectively. For Glu-A3 gene, 11 allelic variants were detected using the locus-specific primers set Glu-A3.1, which among them nine alleles identified as new alleles. Distribution of alleles in different origins and species showed high frequency in some of alleles in accessions of T. boeoticum than T. urartu species. In general, we characterized nine new alleles for Glu-A3 as well as two new alleles for Gli-A2 locus which it indicated that the higher genetic variations exist in the species of Iranian Einkorn wheat. Moreover, the results revealed a remarkable potential in accessions collected from west and central of Zagros Mountains especially, parts of Kurdistan and ‘Kermanshah’ as well as ‘Chaharmahal & Bakhtiari’ and ‘Kohgiluyeh & Buyer-Ahmad’ provinces, which carried different alleles. Therefore, these germplasm could be used as rich gene pool to broaden the genetic base of bread wheat.

VIEWS 12

Ahmadi J, Pour-Aboughadareh AR. 2015. Identification and classification of Gliadin genes in diploid wheat. International Journal of Biological, Biomolecular, Agricultural, Food and Biotechnological Engineering 9(10), 991-994.

Branlard G, Dardevet M, Amiour N, Igrejas G. 2003. Allelic diversity of HMW and LMW glutenin subunits and omega-gliadins in French bread wheat (Triticum aestivum L.). Genetic Resources and Crop Evolution 50, 669-679.

Dorofeev VF, Filatenko AA, Migushova EF, Udaczin RA, Jakubziner MM. 1979. Wheat. vol. 1. In: Dorofeev VF, Korovina ON, Ed. Flora of Cultivated Plants. Leningrad, Russia, 346 p.

Dvorak J. 1977. Transfer of leaf rust resistance from Aegilops speltoides to Triticum aestivum. Canadian Journal of Genetics and Cytology 19, 133-141.

Fakhre-Tabatabaei SM, Ramak-Massoumi T. 2001. Triticum boeoticum ssp. Thaoudar existed in Iran. Cereal Research Communication 29, 121-126.

Gu YQ, Crossman C, Kong X, Luo M, You FM, Coleman-Derr D, Dubcovsky J, Anderson OD. 2004. Genomic organization of the complex alpha-gliadin gene loci in wheat. Theoretical and Applied Genetics 109, 648-657.

Heun M, Schafer-Pregl R, Klawan D, Castagna R, Accerbi M, Borghi B, Salamini F. 1997. Site of Einkorn Wheat Domestication Identified by DNA Fingerprinting. Science 278, 1312-1314.

Jackson EA, Holt LM, Payne IP. 1983. Characterization of high molecular weight gliadin and low-molecular-weight glutenin subunits of wheat endosperm by two-dimensional electrophoresis and the chromosomal localization of their controlling genes. Theoretical and Applied Genetics 66, 29-37.

Johnson BL, Dhaliwal HS. 1976. Reproductive isolation of Triticum boeoticum and Triticum urartu and the origin of the tetraploid wheats. American Journal of Botany 65, 907-918.

Kawaura K, Mochida K, Ogihara Y. 2005. Expression Profile of Two Storage-Protein Gene Families in Hexaploid Wheat Revealed by Large-Scale Analysis of Expressed Sequence Tags. Plant Physiology 139, 1870-1880.

Kilian B, Ozkan H, Deusch O, Effgen S, Brandolini A, Kohl J, Martin W, Salamini F. 2007. Independent wheat B and G genome origins in outcrossing Aegilops progenitor haplotypes. Molecular Biology and Evolution 24, 217-227.

Kimber G, Feldman M. 1987. Wild wheat: An introduction. Special Report No. 353, University of Missouri, Columbia.

Long H, Wei Y, Yan ZH, Baum B, Nevo E, Zheng YL. 2005. Classification of wheat low-molecular-weight glutenin subunit genes and its chromosome assignment by developing LMW-GS group-specific primers. Theoretical and Applied Genetics 111, 1251-1259.

Maxted N, Kell S. 2009. CWR in crop improvement: To what extent are they used? Crop Wild Relative Newsletter 7, 7-8.

Metakovsky EV, Knezevich D, Javornik B. 1991. Gliadin alleles composition of Yugoslav winter wheat cultivars. Euphytica 54, 285-295.

Miller TE, Reader SM, Ainsworth CC, Summers RW. 1988. The introduction of a major gene for resistance to powdery mildew of wheat, Erysiphe graminisf. sp. tritici, from Ae. speltoides into wheat to integrated cereal production. In: Proc. EUCARPIA Cereal Section Meeting. Pudoc, Wageningen, Netherlands. 179-183 p.

Moghaddam M, Ehdaie B, Waines JG. 2000. Genetic diversity in population of wild diploid wheat Triticum urartu Tum.ex. Gandil. revealed by isozyme markers. Genetics Resource and Crop Evolution 47, 323-334.

Moradkhani H, Pour Aboughadareh AR, Mehrabi AA, Etminan AA. 2012. Evaluation of genetic relationships of Triticum-Aegilops species possessing D genome in different ploidy levels using microsatellites. International Journal of Agricultural and Crop Sciences 23, 1746-1751.

Naghavi MR, Alizadeh H, Gharechaei J. 2008. Proteome analysis of Triticum urartu L. under cold stress. Journal of Biotechnology 1365, 217-231.

Naghavi MR, Maleki M, Alizadeh H, Pirseiedi M, Mardi M. 2009. An assessment of genetic diversity in wild diploid wheat Triticum boeoticum from west of Iran using RAPD, AFLP and SSR markers. Journal of Agricultural Science and Technology 11, 585-598.

Payne IP. 1987. Genetics of wheat storage proteins and the effect of allelic variation on bread-making quality. Annual Review of Plant Biology 38, 141-153.

Payne IP, Jackson EA, Holt LM, Law CN. 1984. Genetic linkage between endosperm storage protein genes on each of the short arms of chromosomes 1A and 1B in wheat. Theoretical and Applied Genetics 67, 235-243.

Piccolo S, Alfonzo A, Conigliaro G, Moschetti G, Burruano S, Barone A. 2012. A simple and rapid DNA extraction method from leaves of grapevine suitable for polymerase chain reaction analysis. African Journal of Biotechnology 11, 10305-10309.

Sharma S, Ram S, Gupta R, Sharma I. 2013. Development of functional marker for distinguishing Glu-B3b allele of LMW-GS found in Indian common wheat cultivars. Journal of Cereal Science 57, 245-248.

Shewry PR, Gilbert SM, Savage AWJ, Tatham AS, Wan YF, Belton PS, Wellner N, D’Ovidio R, Bekes F, Halford NG. 2003. Sequence and properties of HMW subunit 1Bx20 from pasta wheat (Triticum durum) which is associated with poor end use properties. Theoretical and Applied Genetics 106, 744-750.

Sofalian O, Valizadeh M. 2009. Investigation of seed storage proteins in some wild wheat progenitors using SDS-PAGE and Acid-PAGE. Notulae Botanicae Horti Agrobotanici Cluj-Napoca 37, 179-182.

Van Slageren MW. 1994. Wild wheats. A monograph of Aegilops L. and Amblyopyrum (Jaub. & Spach) Eig (Poaceae). Wageningen Agricultural University, pp. 512.

Waines JC, Payne PI. 1987. Electrophoretic analysis of the high-molecular-weight glutenin subunits of Triticum monococcum, T. urartu and the A genome of bread wheat (T. aestivum). Theoretical and Applied Genetics 74, 71-76.

Wang L, Li G, Penea RJ, Xia X, He Z. 2010. Development of STS markers and establishment of multiplex PCR for Glu-A3 alleles in common wheat (Triticum aestivum L.). Journal of Cereal Science 51, 305-312.

Zhang W, Gianibelli MC, Rampling L, Gale KR. 2004. Characterization and marker development for low molecular weight glutenin genes from Glu-A3 alleles of bread wheat (Triticum aestivum L.). Theoretical and Applied Genetics 108, 1409-1419.

Zhao-cai M, Chen Q, Zheng Y. 2006. Allelic identification and genetic diversity at Gli-A1 and Gli-A2 loci in Einkorn wheat. International Journal of Agricultural Research 1, 100-107.

Zohary D, Hopf M. 2000. Domestication of plants in the old world. Oxford University.