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HIGH MOLECULAR WEIGHT GLUTENIN SUBUNITS IN WINTER BREAD WHEAT AND THEIR ASSOCIATIONS WITH SOME QUALITY PARAMETERS: RAINFED CONDITIONS

Yıl 2001, Cilt: 10 Sayı: 1-2, - , 01.06.2001

Öz

Grain protein content, whole meal sedimentation and High Molecular Weight Glutenin (HMWG) subunits of 218 genotypes in winter bread wheat crossing block were determined, and also the relationships among characters were studied.

Grain protein content ranged 10.7-17.0 % and sedimentation values were 9.0-24.5 ml. As protein content increased, sedimentation increased, but association was not significant. There were 17 HMWG subunits in the material. The most frequent subunits were 2* , 7+9, 7+8, 5+10 and 2+12 . The 13+19, 2+11 and 2+12.5 subunits were found in the material, which were not cited in literature.

Without taking into consideration of other alleles' composition, sedimentation value of 2* in GlııA1, 7+9 in GluB1 and 2+12 in GluD1 were highest (single allele effect). In double combinations of alleles; vvhile the mean sedimentation value of genotypes carrying AlbDld was the highest, AlcBlb was the lowest. In triple combinations; the mean sedimentation value of genotypes carrying aca@bcd@bbd were the highest, cbd was the lowest.

Although sedimentation value tended to increase as quality score increased, there was no signifıcant relationship between two. There was also no signifıcant relationship between quality score and protein content.

It was demonstrated that HMGW subunits can be used for cultivar identification in some bread wheat cııltivars grown in Turkey

Kaynakça

  • Bekes F., P.W. Grass, R.S. Anderssen, ve R Appels. 2001. Quality Traits of Wheat Determined by Small-Scale Dough Testing Methods. Aust.J.Agric.Res. 52:1325-1338.
  • Carrillo J.M., M. Rousset, C.O. Qualset ve D.D. Kasarda. 1990. Use of Recombinant Inbred Lines of Wheaı for Study of Associations of High-Molecular-Weight Glutenin Subunit Alleles to Quantitative Traits. 1. Grain Yield and Quality Prediction Tests. TAG. 79: 321-330.
  • Cornish G.B., F. Bekes, H.M. Ailen, ve D.J. Martin. 2001a. Flour Proteins Linked to Quality Traits in an Australian Doubled Haploid Wheat Population. Aust.J.Agric.Res. 52:1339-1348.
  • Cornish G.B., D.J. Skaylas, S. Siriamornpun, F. Bekes, O.R. Larroque, C.W. Wrigley ve M. Wootton. 2001b. Grain Protein As Markers of Genetic Traits in Wheat. Aust.J.Agric.Res. 52:1161-1171.
  • Dencic S. ve L. Vapa. 1996. Effect of Intra and Inter-Allelic Variation in GluAl and GluDİ Loci on Bread-Making Quality in Wheat. Cereal Res. Com. 24: 317-322.
  • Eagles H.A., G.J. Hollamby, N.N. Gororo and R.F. Eastvvood. 2002. Estimation and Utilisation of Glutenin Effects From the Analysis of Unbalanced Data From Wheat Breeding Program. AusU.Agric.Res. 53:367-377.
  • Finney K.F., ve M.A. Baremore. 1948. Loaf Volume and Protein Content of Hard Winter and Spring Wheats. Cereal Chemistry. 25:291-312.
  • Gras P.W., R.S. Anderssen, M. Keentok, F. Bekes ve R. Appels. 2001. Gluten Protein Functionality in Wheat Flour Processing: A Review. Aust.J.Agric.Res. 52:1311-1323.
  • Gupta R.B. ve K.W. Shepherd. 1990. Two-step One-dimensional SDS-PAGE Analysis of LMW Subunits of Glutenins 1. Variation and Genetic Control of the Subunits in Hexaploid Wheats. TAG. 80:65-74.
  • Gupta R.B., F.Bekes ve CW. Wrigley. 1991. Prediction of Physical Dough Properties from Glutenin Subunit Composition in Bread Wheat: Correlation Studies. Cereal Chemistry. 68:328-333.
  • Jackson E.A, L.M. Holt ve P.I. Payne. 1983. Characterisation 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 in Triticum. TAG. 66: 29-37.
  • Lookhart G.L. Ve C.W. Wrigley. 1995. Variety Identification By Electrophoretic Analysis in: Identification of Food-Grain Varieties. Ed. C.W. Wrigley Pp: 55-71. American Association of Cereal Chemists Inc. St. Paul. MN.
  • Macritchie F., D.L. Du-Cros Ve C.W. 1990. Wrigley. Flour Polypeptides Related To Wheat Quality. Adv.Cereal Sci. Technol 10: 79-145.
  • O'Brien L. Ve J.A. Ronalds. 1984. Yield And Quality Interrelationships Amongst Random F3 Lines and Their Implications for Wheat Breeding [Includes Flour Protein Content]. Aust.J.Agric.Res. 35:443-451.
  • Payne P.I., L.M. Holt Ve C.N. Law. 1981. Structural and Genetical Studies on the High-Molecular-Weight Subunits of Wheat Glutenin. Part 1: Allelic Variation in Subunits Amongst Varieties of Wheat (Triticum Aesüvum). TAG. 60:229-236.
  • Payne P.I., M.A. Nightingale, A.F. Krattiger Ve L.M. Holt. 1987. The Relation Between the HMW Glutenin Subunit Composition and The Bread-Making Quality of British Grown Wheat Varieties. Journal of Sci. Food and Agric. 40:51-65.
  • Pena R.J., A. Amaya, S. Rajaram Ve A. Mujeeb-Kazi. 1990. Variation in Quality Characteristics Associated with Some Spring 1B/1R Translocation Wheats. J. Cereal Sci.
  • Preston K.R., P.R. March Ve K.H. Tipples. 1982. An Assesment of SDS Sedimentantion Test for The Prediction of Canadian Bread Wheat Quality. Can. J. Plant Sci. 62:545-553.
  • Rousset M., J.M. Carrillo, C.O. Qualset Ve D.D. Kasarda. 1992. Use of Recombinant Inbred Lines of Wheat for Study of Associations of High-Molecular-Weight Glutenin Subunit Alleles To Quantitative Traits. 2. Milling And Bread-Baking Quality. TAG 83:403-412.
  • Trethowan R.M., R.J. Pena ve M.Van Ginkel. 2001. The Effect of Indirect Tests for Grain Quality on the Grain Yield and Industrial Quality of Bread Wheat. Plant Breeding. 120: 509-512.
  • Weegels P.L., R.J. Hamer Ve J.D. Schofield. 1996. Functional Properties of Wheat Glütenin. J. Cereal Sci. 23:1-18.

KIŞLIK EKMEKLİK BUĞDAYDA YÜKSEK MOLEKÜL AĞIRLIKLI GLUTENİN ALT ÜNİTELERİ VE BAZI KALİTE PARAMETRELERİ İLE İLİŞKİLERİ: KURU KOŞULLAR

Yıl 2001, Cilt: 10 Sayı: 1-2, - , 01.06.2001

Öz

Çeşit geliştirmede varyasyon kaynağı olarak kullanılan Kışlık Ekmeklik Buğday Melezleme Bahçesindeki (KMB) 218 adet materyalde danede protein, kırmada SDS sedimentasyon ve Yüksek Molekül Ağırlıklı Glutenin (YMAG) alt üniteleri belirlenmiş; bunlar arasındaki ilişkiler incelenmiştir.

Danede protein % 10.7-17.0, sedimentasyon 9.0-24.5 mi arasında değişmiştir. Danede protein arttıkça sedimentasyon değeri yükselmiş, ancak ilişki istatistiki anlamlı olmamıştır. Materyalde toplam 17 adet YMAG alt ünitesi belirlenmiştir. En fazla 2*, 7+9, 7+8, 5+10 ve 2+12 bulunmuştur. Literatürde rastlanmayan 13+19, 2+11 ve 2+12.5 alt üniteleri de materyalde mevcuttur.

Diğer alt ünitelere bakılmaksızın alt üniteler tek tek incelendiğinde; GluAl'de 2*, GluBl'de 7+9, GluDl'de ise 2+12 taşıyan genotiplerin sedimentasyon hacmi ortalaması en yüksek olmuştur. İkili kombinasyonlarda; AlbDld en yüksek sedimentasyon hacmini verirken AlcBlb en düşük olmuştur. Üçlü kombinasyonlarda ise; aca@bcd@bbd en yüksek sedimentasyon hacmini verirken cbd en düşük vermiştir.

                Kalite skoru yükseldikçe sedimentasyon değeri artma eğilimi göstermekte, ancak ikisi arasında istatistiki anlamlı ilişki bulunmamaktadır. Kalite skoru ile danede protein miktarı arasında ilişki saptanmamıştır.

Türkiye'de yetiştirilen bazı ekmeklik buğday çeşitlerinin YMAG kompozisyonları bulunmuş ve bunların çeşit tanımlanmasında kullanılabileceği belirlenmiştir.

Kaynakça

  • Bekes F., P.W. Grass, R.S. Anderssen, ve R Appels. 2001. Quality Traits of Wheat Determined by Small-Scale Dough Testing Methods. Aust.J.Agric.Res. 52:1325-1338.
  • Carrillo J.M., M. Rousset, C.O. Qualset ve D.D. Kasarda. 1990. Use of Recombinant Inbred Lines of Wheaı for Study of Associations of High-Molecular-Weight Glutenin Subunit Alleles to Quantitative Traits. 1. Grain Yield and Quality Prediction Tests. TAG. 79: 321-330.
  • Cornish G.B., F. Bekes, H.M. Ailen, ve D.J. Martin. 2001a. Flour Proteins Linked to Quality Traits in an Australian Doubled Haploid Wheat Population. Aust.J.Agric.Res. 52:1339-1348.
  • Cornish G.B., D.J. Skaylas, S. Siriamornpun, F. Bekes, O.R. Larroque, C.W. Wrigley ve M. Wootton. 2001b. Grain Protein As Markers of Genetic Traits in Wheat. Aust.J.Agric.Res. 52:1161-1171.
  • Dencic S. ve L. Vapa. 1996. Effect of Intra and Inter-Allelic Variation in GluAl and GluDİ Loci on Bread-Making Quality in Wheat. Cereal Res. Com. 24: 317-322.
  • Eagles H.A., G.J. Hollamby, N.N. Gororo and R.F. Eastvvood. 2002. Estimation and Utilisation of Glutenin Effects From the Analysis of Unbalanced Data From Wheat Breeding Program. AusU.Agric.Res. 53:367-377.
  • Finney K.F., ve M.A. Baremore. 1948. Loaf Volume and Protein Content of Hard Winter and Spring Wheats. Cereal Chemistry. 25:291-312.
  • Gras P.W., R.S. Anderssen, M. Keentok, F. Bekes ve R. Appels. 2001. Gluten Protein Functionality in Wheat Flour Processing: A Review. Aust.J.Agric.Res. 52:1311-1323.
  • Gupta R.B. ve K.W. Shepherd. 1990. Two-step One-dimensional SDS-PAGE Analysis of LMW Subunits of Glutenins 1. Variation and Genetic Control of the Subunits in Hexaploid Wheats. TAG. 80:65-74.
  • Gupta R.B., F.Bekes ve CW. Wrigley. 1991. Prediction of Physical Dough Properties from Glutenin Subunit Composition in Bread Wheat: Correlation Studies. Cereal Chemistry. 68:328-333.
  • Jackson E.A, L.M. Holt ve P.I. Payne. 1983. Characterisation 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 in Triticum. TAG. 66: 29-37.
  • Lookhart G.L. Ve C.W. Wrigley. 1995. Variety Identification By Electrophoretic Analysis in: Identification of Food-Grain Varieties. Ed. C.W. Wrigley Pp: 55-71. American Association of Cereal Chemists Inc. St. Paul. MN.
  • Macritchie F., D.L. Du-Cros Ve C.W. 1990. Wrigley. Flour Polypeptides Related To Wheat Quality. Adv.Cereal Sci. Technol 10: 79-145.
  • O'Brien L. Ve J.A. Ronalds. 1984. Yield And Quality Interrelationships Amongst Random F3 Lines and Their Implications for Wheat Breeding [Includes Flour Protein Content]. Aust.J.Agric.Res. 35:443-451.
  • Payne P.I., L.M. Holt Ve C.N. Law. 1981. Structural and Genetical Studies on the High-Molecular-Weight Subunits of Wheat Glutenin. Part 1: Allelic Variation in Subunits Amongst Varieties of Wheat (Triticum Aesüvum). TAG. 60:229-236.
  • Payne P.I., M.A. Nightingale, A.F. Krattiger Ve L.M. Holt. 1987. The Relation Between the HMW Glutenin Subunit Composition and The Bread-Making Quality of British Grown Wheat Varieties. Journal of Sci. Food and Agric. 40:51-65.
  • Pena R.J., A. Amaya, S. Rajaram Ve A. Mujeeb-Kazi. 1990. Variation in Quality Characteristics Associated with Some Spring 1B/1R Translocation Wheats. J. Cereal Sci.
  • Preston K.R., P.R. March Ve K.H. Tipples. 1982. An Assesment of SDS Sedimentantion Test for The Prediction of Canadian Bread Wheat Quality. Can. J. Plant Sci. 62:545-553.
  • Rousset M., J.M. Carrillo, C.O. Qualset Ve D.D. Kasarda. 1992. Use of Recombinant Inbred Lines of Wheat for Study of Associations of High-Molecular-Weight Glutenin Subunit Alleles To Quantitative Traits. 2. Milling And Bread-Baking Quality. TAG 83:403-412.
  • Trethowan R.M., R.J. Pena ve M.Van Ginkel. 2001. The Effect of Indirect Tests for Grain Quality on the Grain Yield and Industrial Quality of Bread Wheat. Plant Breeding. 120: 509-512.
  • Weegels P.L., R.J. Hamer Ve J.D. Schofield. 1996. Functional Properties of Wheat Glütenin. J. Cereal Sci. 23:1-18.
Toplam 21 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Bölüm Makaleler
Yazarlar

Mesut Keser Bu kişi benim

Javier R. Pena Bu kişi benim

Yayımlanma Tarihi 1 Haziran 2001
Yayımlandığı Sayı Yıl 2001 Cilt: 10 Sayı: 1-2

Kaynak Göster

APA Keser, M., & Pena, J. R. (2001). HIGH MOLECULAR WEIGHT GLUTENIN SUBUNITS IN WINTER BREAD WHEAT AND THEIR ASSOCIATIONS WITH SOME QUALITY PARAMETERS: RAINFED CONDITIONS. Tarla Bitkileri Merkez Araştırma Enstitüsü Dergisi, 10(1-2).
AMA Keser M, Pena JR. HIGH MOLECULAR WEIGHT GLUTENIN SUBUNITS IN WINTER BREAD WHEAT AND THEIR ASSOCIATIONS WITH SOME QUALITY PARAMETERS: RAINFED CONDITIONS. Tarla Bitkileri Merkez Araştırma Enstitüsü Dergisi. Haziran 2001;10(1-2).
Chicago Keser, Mesut, ve Javier R. Pena. “HIGH MOLECULAR WEIGHT GLUTENIN SUBUNITS IN WINTER BREAD WHEAT AND THEIR ASSOCIATIONS WITH SOME QUALITY PARAMETERS: RAINFED CONDITIONS”. Tarla Bitkileri Merkez Araştırma Enstitüsü Dergisi 10, sy. 1-2 (Haziran 2001).
EndNote Keser M, Pena JR (01 Haziran 2001) HIGH MOLECULAR WEIGHT GLUTENIN SUBUNITS IN WINTER BREAD WHEAT AND THEIR ASSOCIATIONS WITH SOME QUALITY PARAMETERS: RAINFED CONDITIONS. Tarla Bitkileri Merkez Araştırma Enstitüsü Dergisi 10 1-2
IEEE M. Keser ve J. R. Pena, “HIGH MOLECULAR WEIGHT GLUTENIN SUBUNITS IN WINTER BREAD WHEAT AND THEIR ASSOCIATIONS WITH SOME QUALITY PARAMETERS: RAINFED CONDITIONS”, Tarla Bitkileri Merkez Araştırma Enstitüsü Dergisi, c. 10, sy. 1-2, 2001.
ISNAD Keser, Mesut - Pena, Javier R. “HIGH MOLECULAR WEIGHT GLUTENIN SUBUNITS IN WINTER BREAD WHEAT AND THEIR ASSOCIATIONS WITH SOME QUALITY PARAMETERS: RAINFED CONDITIONS”. Tarla Bitkileri Merkez Araştırma Enstitüsü Dergisi 10/1-2 (Haziran 2001).
JAMA Keser M, Pena JR. HIGH MOLECULAR WEIGHT GLUTENIN SUBUNITS IN WINTER BREAD WHEAT AND THEIR ASSOCIATIONS WITH SOME QUALITY PARAMETERS: RAINFED CONDITIONS. Tarla Bitkileri Merkez Araştırma Enstitüsü Dergisi. 2001;10.
MLA Keser, Mesut ve Javier R. Pena. “HIGH MOLECULAR WEIGHT GLUTENIN SUBUNITS IN WINTER BREAD WHEAT AND THEIR ASSOCIATIONS WITH SOME QUALITY PARAMETERS: RAINFED CONDITIONS”. Tarla Bitkileri Merkez Araştırma Enstitüsü Dergisi, c. 10, sy. 1-2, 2001.
Vancouver Keser M, Pena JR. HIGH MOLECULAR WEIGHT GLUTENIN SUBUNITS IN WINTER BREAD WHEAT AND THEIR ASSOCIATIONS WITH SOME QUALITY PARAMETERS: RAINFED CONDITIONS. Tarla Bitkileri Merkez Araştırma Enstitüsü Dergisi. 2001;10(1-2).