Access the full text.
Sign up today, get DeepDyve free for 14 days.
N. Smith-Huerta, A. Huerta, D. Barnhart, J. Waines (1989)
Genetic diversity in wild diploid wheats Triticum monococcum var. boeoticum and T. urartu (Poaceae)Theoretical and Applied Genetics, 78
J. Dvorak, P. McGuire, B. Cassidy (1988)
Apparent sources of the A genomes of wheats inferred from polymorphism in abundance and restriction fragment length of repeated nucleotide sequencesGenome, 30
K. Nishikawa, Y. Furuta, Toshihiko Yamada, S. Kudo (1992)
Genetic studies of α-amylase isozymes in wheat VII. Variation in diploid ancestral species and phylogeny of tetraploid wheatThe Japanese Journal of Genetics, 67
J. Gorham, A. Bristol, E. Young, R. Jones (1991)
The presence of the enhanced K/Na discrimination trait in diploid Triticum speciesTheoretical and Applied Genetics, 82
E. Metakovsky, S. Baboev (1992)
Polymorphism and inheritance of gliadin polypeptides in T. monococcum L.Theoretical and Applied Genetics, 84
K. Kerby, J. Kuspira (1987)
The phylogeny of the polyploid wheats Triticum aestivum (bread wheat) and Triticum turgidum (macaroni wheat)Genome, 29
K. Nishikawa, M. Nobuhara (1971)
GENETIC STUDIES OF α-AMYLASE ISOZYMES IN WHEATThe Japanese Journal of Genetics, 46
Richard Thompson, D. Bartels, N. Harberd, R. Flavell (1983)
Characterization of the multigene family coding for HMW glutenin subunits in wheat using cDNA clonesTheoretical and Applied Genetics, 67
M. Heun, A. Kennedy, J. Anderson, N. Lapitan, M. Sorrells, S. Tanksley (1991)
Construction of a restriction fragment length polymorphism map for barley (Hordeum vulgare)Genome, 34
G. Kimber, M. Feldman (1987)
Wild wheat. An introduction.
M. Rafi, B. Ehdaie, J. Waines (1992)
Quality traits, carbon isotope discrimination and yield components in wild wheatsAnnals of Botany, 69
D. Bartels, I. Altosaar, N. Harberd, R. Barker, R. Thompson (1986)
Molecular analysis of γ-gliadin gene families at the complex Gli-1 locus of bread wheat (T. aestivum L.)Theoretical and Applied Genetics, 72
H. Sharma, J. Waines, K. Foster (1981)
Variability in Primitive and Wild Wheats for Useful Genetic Characters 1Crop Science, 21
J. Waines, P. Payne (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
J. Gower (1966)
Some distance properties of latent root and vector methods used in multivariate analysisBiometrika, 53
C. Gebhardt, Enrique Ritter, Thomas Debener, U. Schachtschabel, B. Walkemeier, H. Uhrig, F. Salamini (1989)
RFLP analysis and linkage mapping in Solanum tuberosumTheoretical and Applied Genetics, 78
E. Metakovsky, S. Baboev (1992)
Polymorphism of gliadin and unusual gliadin alleles in Triticum boeoticumGenome, 35
R. Vierling, H. Nguyen (1992)
Use of RAPD markers to determine the genetic diversity of diploid, wheat genotypesTheoretical and Applied Genetics, 84
B. Forde, M. Kreis, M. Williamson, R. Fry, J. Pywell, P. Shewry, N. Bunce, B. Miflin (1985)
Short tandem repeats shared by B‐ and C‐hordein cDNAs suggest a common evolutionary origin for two groups of cereal storage protein genesThe EMBO Journal, 4
F. Rohlf, F. Rohlf, J. Rohlf, F. Rohlf, E. Rohlf (1992)
NTSYS-pc Numerical Taxonomy and Multivariate Analysis System, version 2.1: Owner manual
122 88 88 6 7 R. Castagna G. Maga M. Perenzin M. Heun F. Salamini Istituto Sperimentale per la Cerealicoltura Sezione di S.Angelo Lodigiano Via Molino 3-I-20079 S.Angelo Lodigiano (MI) Italy Max-Planck-Institut für Züchtungsforschung Carl-von-Linné-Weg 10 D-50829 Köln-Vogelsang Germany Abstract To study the relationships between different species of the Einkorn group, 55 different accessions of Triticum monococcum , T. boeoticum , T. urartu , T. sinskajae , T. thaoudar and T. aegilopoides were analyzed. Fifteen anonymous probes and four clones corresponding to storage protein genes were used for detecting restriction fragment length polymorphisms (RFLPs). The DNA was restricted with the restriction enzymes Alu I, Hae III, Rsa I and Taq I. The 25 probe/enzyme combinations employed yielded a total of 488 polymorphic fragments. Statistical analyses were performed using Jaccard's coefficient of similarity and principal coordinate analysis. Different values of similarity within the three main taxa, monococcum , boeoticum and urartu , were obtained; the grouping at the species level was quite well reflected by the RFLP analysis done here. The coincidence between RFLP data and the subspecies classification of the T. monococcum group was only partial. One T. urartu accession is clearly different from all of the other 54 accessions. The need for an RFLP based revision of the Einkorn taxonomy is evident.
TAG Theoretical and Applied Genetics – Springer Journals
Published: Aug 1, 1994
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.