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Natural Product Research
Formerly Natural Product Letters
Volume 28, 2014 - Issue 19
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Articles

Investigation of diversity in Aegilops biuncialis and Aegilops umbellulata by A-PAGE

Fatemeh AhmadpoorFaculty of Agriculture, University of Mohaghegh Ardabili, Ardabil, IranCorrespondence[email protected]
,
Rasool Asghari-ZakariaFaculty of Agriculture, University of Mohaghegh Ardabili, Ardabil, Iran
,
Behnam FirooziFaculty of Agriculture, University of Mohaghegh Ardabili, Ardabil, Iran
&
Hossein ShahbaziDepartment of Agronomy and Plant Breeding, Islamic Azad University, Ardabil, Iran
Pages 1626-1636 | Received 02 May 2014, Accepted 01 Jun 2014, Published online: 28 Jul 2014

References

  • AhmadpoorF, Asghari-ZakariaR, ShahbaziH. 2012. Investigation of karyological characteristics in several and populations of Aegilops biuncialis. Iranian J Rangelands and Forest Plant Breed Genet Res.20:212–224.
  • AntonyukMZ, TernovskayaTK, SozinovAA. 1994. Identification of the blocks of electrophoretic components of storage proteins encoded by the genes of three Aegilops species. Fiziol Biokhim Kul't Rast.5:474–481.
  • BadaevaED. 2002. Evaluation of phylogenetic relationships between five polyploid Aegilops L. species of the U-genome cluster by means of chromosome analysis. Russ J Genet.38:664–675.
  • BadaevaED, AmosovaAV, SamatadzeTE, ZoshchukSA, ShostakNG, ChikidaNN, ZeleninAV, RauppWJ, FriebeB, GillBS. 2004. Genome differentiation in Aegilops. 4. Evolution of the U-genome cluster. Plant Syst Evol.246:45–76.
  • BranlardG, DardevetM. 1985. Diversity of grain proteins and bread wheat quality. I. Correlation between gliadin bands and flour quality characteristics. J Cereal Sci.3:329–343.
  • BranlardG, DardevetM, SaccornanoR, LagoutteF, GourdonJ.2001. Genetic diversity of seed storage proteins and bread wheat quality. Euphytica. 119:59–67.
  • CiaffiM, LaiandraD, PorcedduE, BenedettelliS. 1993. Storage-protein variation in wild emmer wheat (Triticum turgidum ssp. dicoccoides) from Jordan and Turkey. I. Electrophoretic characterization of genotypes. Theor Appl Genet.86:474–480.
  • ColmerTD, FlowersTJ, MunnsR. 2006. Use of wild relatives to improve salt tolerance in wheat. J Exp Bot.57:1059–1078.
  • CoxTS, RauppWJ, GillBS. 1994. Leaf rust-resistance genes Lr41, Lr42 and Lr43 transferred from Triticum tauschii to common wheat. Crop Sci.34:339–343.
  • DamaniaAB, PecettiL. 1990. Variability in a collection of Aegilops species and evaluation for yellow rust resistance at two locations in Northern Syria. J Genet Breed.44:97–102.
  • DamidouxR, AutranJC, GrignacP, FeilletP. 1978. Mise en evidence de relations applicable en selection entre electro phoregramme des gliadin et les proprieties viscoelastiques du gluten de triticum durum Desf. Compt Renda Acard Sci. 278:7001–7704.
  • DimovA, ZaharievaM, MihovaS. 1993. Rust and powdery mildew resistance in Aegilops accessions from Bulgaria. In: DamaniaAB, editor. Biodiversity and wheat improvement. Evaluation and utilization of biodiversity in wild relatives and primitive forms for wheat improvement, ICARDA, Aleppo, Syria, October 1992.New York, NY: Wiley; p. 165–169.
  • FriebeB, HeunM, TuleenN, ZellerFJ, GillBS. 1994. Cytogenetically monitored transfer of powdery mildew resistance from rye into wheat. Crop Sci.34:621–625.
  • Georges-Louis F. 1996. Herbal blessings. The gluten proteins and deamidated soluble wheat protein (SWP) (Chapter 2) Available from: http://www.friedli.com/research/PhD/chapter2.html.
  • GillBS, HatchettJH, RauppWJ. 1987. Chromosomal mapping of Hessian fly resistance gene H13 in the D genome of wheat. J Hered.78:97–100.
  • HassaniME, ShariflouMR, GianibelliMC, SharpPJ. 2006. Gli-DT1 and anovel γ-gliadin gene in Aegilops tauschii. Plant Breed.125:27–31.
  • Jam BaranduziA, SofallianO, Asghari ZakariaR, AsghariA, ShokrpourM. 2013. Assessment of genetic diversity in Aegilops species in North-West of Iran using ISSR marker. Agric Sci.23:66–75.
  • KozubeNA, SozinovIA, SozinovAA. 2012. Identification of alleles at the gliadin loci Gli-U1 and Gli-Mb1 in Aegilops biuncialis Vis. Genetics. 48(4):473–479.
  • MakkoukKM, ComeauA, GhulamW. 1994. Resistance to barley yellow dwarf luteovirus in Aegilops species. Can J Plant Sci.74:631–634.
  • MantelM. 1967. The detection of disease clustering and a generalized regression approach. Cancer Res.27:209–220.
  • McFaddenES, SearsER. 1946. The origin of Triticum spelta and its free-threshing hexaploid relatives. J Hered.37:81–89, 107-116.
  • MetakovskyEV, Novoselskaya SobkoTA, SozinovAA.1984. Blocks of gliadin components in winter wheat detected by one-dimensional polyacrylamide gel electrophoresis. Theor Appl Genet. 67:559–568.
  • MetakovskyEV, BranlardG, DhernakovVM, UpelniekVP, RedaelliR, PognaNE. 1997. Recombination mapping of some chromosome 1A, 1B, 1D and 6B controlled gliadins and low-molecular-weight glutenin subunits in common wheat. Theor Appl Genet.94:788–795.
  • MetakovskyEV, NovoselskayaAYu. 1991. Gliadin allele identification in common wheat. I. Methodoological aspects of the analysis of gliadin patterns by one-dimensional polyacrylamide gel electrophoresis. J Genet Breed.45:317–324.
  • MohammadiSA, PrasannaBM. 2003. Analysis of genetic diversity in crop plants salient statistical tools and considerations. Crop Sci.43:1235–1248.
  • Nei, M.1978. Estimation of the average heterozygosity and genetics distance from a small number of individuals. Genetics. 89:583–590.
  • NevoE, PaynePI. 1987. Wheat storage proteins: diversity of HMW glutenin subunits in wild emmer from Israel. Theor Appl Genet.74:827–836.
  • PaynePI. 1987. Genetics of wheat storage protein and the effect of allelic variation on beread-making quality. Plant Physiol.38:141–153.
  • PenaRJ, Zarco-HernandezJ, Mujeeb-KaziA. 1995. Glutenin subunit compositions and bread-making quality characteristics of synthetic hexaploid wheats derived from Triticum turgidum × Triticum tauschii (Coss). Schmal. crosses. J Cereal Sci.21:15–23.
  • PeskirciogluM, OzgenM. 1999. Identification of tetraploid Aegilops species from different altitudes of Turkey by gliadin electrophoresis. Wheat Inf Serv.88:15–20.
  • PognaNE, MetakowskyEV, RedaelliR, RaineriF, DachkevitchT. 1993. Recombination mapping of Gli-5, a new gliadin-coding locus on choromosomes 1A and 1B in common wheat. Theor Appl Genet.87:113–121.
  • RashedMA, Abou-DeifMH, SallamMAA, Aida RizkallaA, Walaa RamadanA. 2007. Identification and prediction of the flour quality of bread wheat by gliadin electrophoresis. J Appl Sci Res.3:1393–1399.
  • RauppWJ, AmriA, HatchettJH, GillBS, WilsonDL, CoxTS. 1993. Chromosomal location of Hessian fly-resistance genes H22, H23 and H24 derived from Triticum tauschii in the D genome of wheat. J Hered.84:142–145.
  • RohlfFJ. 1998. NTSYS-pc, Numerical taxonomy and multivariate analysis system, version 2.01. Setauket, NY: Exeter Software.
  • SchneiderA, LincG, MolnarI, Molnar-LangM. 2005. Molecular cytogenetic characterization of Aegilops biuncialis and its use for the identification of five derived wheat/Aegilops biuncialis disomic addition lines. Genome. 48:1070–1082.
  • SearsER. 1956. The transfer of leaf rust resistance from Aegilops umbellulata to wheat. Brookhaven Symp Biol.9:1–22.
  • Shahbazi H. 2000. Evaluting the bread making quality of wheat landraces of Iran using SDS-PAGE and A-PAGE [MSc Thesis]. Faculity of Agriculture. Tabriz: University of Tabriz.
  • SofalianO, ValizadehM. 2009. Investigation of seed storage proteins in some wild wheat progenitors using SDS-PAGE and ACID-PAGE. Not Bot Hort Agrobot Cluj-Napoca. 37:179–182.
  • SozinovAA. 2001. Conservation of gene associations in commercial varieties of wheat. In: BedoZ, LangL, editors. Wheat in global environment. The Netherlands: Kluwer Academic Publishers; p. 97–105.
  • Van SlagerenMW. 1994. Wild wheats: a monograph of Aegilops L. and Amblyopyrum (Jaub. and Spach) Eig (Poaceae). Agricultural University Papers 94-7, Wageningen. International Center for Agricultural Research in Dry Areas, Aleppo, Syria. The Netherlands: ICARDA/Agricultural Univ; p. 1–513.

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