Historical Publications

Sood S, Kuraparthy V, Bai G, Gill BS (2009) The major threshability genes soft glume (sog) and tenacious glume (Tg), of diploid and polyploid wheat, trace their origin to independent mutations at non-orthologous loci. Theor Appl Genet 119: 341-351

Soreng RJ, Davis JI, Doyle JJ (1990) A phylogenetic analysis of chloroplast DNA restriction site variation in Poaceae subfam Pooideae. Pl Syst Evol, 172: 83–97

Soreng RJ, Davis JI (1998) Phylogenetics and character evolution in the grass family (Poaceae): simultaneous analysis of morphological and chloroplast DNA restriction site character sets. The botanical review 64: 1-85

Sorrells ME, Wilson WA (1997) Direct classification and selection of superior alleles for crop improvement. Crop Science 37: 691-697

Sourdille P, Tavaud M, Charmet G et al. (2001) Transferability of wheat microsatellites to diploid Triticeae species carrying the A, B and D genomes. Theor. Appl. Genet. 103: 346-352

Sourdille P, Perretant MR, Charmet G et al. (1996) Linkage between RFLP markers and genes affecting kernel hardness in wheat. Theor. Appl. Genet. 93: 580-586

Spagnoletti-Zeuli PL, Qualset CO (1987) Geographical diversity for quantitative spike characters in a world collection of durum wheat. Crop Science 27: 235-241

Spetsov P, Iliev I (1991) Characterization of a disomic wheat-Ae. variabilis addition line resistant to powdery mildew fungus. Wheat Information Service 73: 1-3

Spetsov P, Mihova S, Iliev I (1992) Differentiation of six disomic – A. variabilis addition lines through their phenotype and reaction to yellow rust. EWAC Newsletter 1992: 24-27

Staat, B., Pohler, W. and Clauss, E. 1985. Unerwartet starke Homöologenpaarung bei Bastarden zwischen Hordeum geniculatum All, und Secale cereale L. im vergleich zum Wildger-stenelter. — Arch. Züchtungsforsch. (Berlin) 15: 19–25.

Stack SM (1974) Differential giemsa staining of kinetochores and nucleolus organizer heterochromatin in mitotic chromosomes of higher plants. Chromosoma (Berl.) 47: 361-378

Staiger CJ, Cande WZ (1993) The dominant meiotic mutation, Mei025, uncouples the microtubule cycle from the chromosome cycle. Maydica 38: 121-126

Stakman EC (1964) Will the fight against wheat rust ever end? . ??: 68-73

Stakman EC, Stewart DM, Loegering WQ (1962) Identification of physiologic races of puccinia graminis var. Tritici. United States department of agriculture, Agricultural Research Service: 1-53

Stam P, Zeven AC (1981) The theoretical proportion of the donor genome in near-isogenic lines of self-fertilizers bred by backcrossing. Euphytica 30: 227-238

Starratt AN, Bond EJ (1988) Methylation of DNA of maize and wheat grains during fumigation with Methyl Bromide. J. Agric. Food Chem. 36: 1035-1039

Stebbins GL (1980) Polyploidy in plants: Unsolved problems and prospects. Polyploidy Biological Relevance ed. Lewis WH: 495-520

Stebbins GL (1969) Developmental genetics and plant evolution. Japan. J. Genetics 44: 344-350

Stebbins GL (1985) Polyploidy, hybridization, and the invasion of new habitats. Ann. Missouri Bot. 72: 824-832

Stebbins GL (1986) Grass systematics and evolution: past, present and future. Int. Grass Symp. 1986: 359-367

Stebbins GL (1984) Polyploidy and the distribution of the arctic-alpine flora: new evidence and a new approach. Botanica Helvetica 94: 1-13

Stebbins GL (1984) Chromosome pairing, hybrid sterility, and polyploidy: A reply to RC Jackson. Systematic Botany 9: 119-123

Stebbins GL, Crampton B (1961) A suggested revision of the grass genera of temperate North America. Recent Advances in Botany :133-145

Stebbins GL, Price HJ (1971) The developmental genetics of the Calcaroides gene in barley. I. divergent expression at the morphological and histological level. Genetics 68: 527-538

Stebbins GL (1956) Cytogenetics and evolution of the grass family. Amer. J. Bot. 43: 890-905

Stebbins GL (1959) The role of hybridization in evolution. Proc. of the American Philosophical Society 103: 231-251         

Stebbins GL (1950) Variation and Evolution in Plants. Columbia University Press, New York

Stebbins GL (1956) Taxonomy and evolution of genera, with special reference to the family Gramineae. Evolution 10: 235-245

Stebbins GL (1957) Self fertilization and population variability in the higher plants. Amer Nat 91: 337-354

Stebbins GL (1958) The inviability, weakness and sterility of interspecific hybrids. Adv Genet 9: 147-215

Stebbins GL (1971) Chromosomal Evolution in Higher Plants. Edward Arnold Ltd, London 

Stebbins GL, Fung Ting Pun FT (1953) Artificial and natural hybrids in the Gramineae, tribe Hordeae. V. Diploid hybrids of Agropyron. Amer J Bot 40; 444-449

Stebbins GL, Pun FT (1953) Artificial and natural hybrids in the Gramineae tribe Hordeae. VI. Chromosome pairing in Secale cercale - Agropyron intermedium and the problem of genome homologies in the Triticineae. Genetics 38: 600–608

Stebbins GL, Valencia JI Jr., Valencia RM (1946) Artificial and natural hybrids in the Gramineae, tribe Hordeae. II. Agropyron, Elymus and Hordeum. Amer. J. Bot. 33: 579-586

Stebbins GL Jr., Pun FT (1953) Artificial and natural hybrids in the Gramineae, Tribe Hordeae. VI. Chromosome pairing in Secale cereale X Agropyron intermedium and the problem of genome homologies in the Triticinae. Genetics 38: 600-608

Stebbins GL, Snyder LA  (1956) Artificial and natural hybrids in the Gramineae, tribe Hordeae. IX. Hybrids between western and eastern North American species. Amer J Bot 43: 305-312

Stebbins GL (1966) Chromosomal variation and evolution. Science 152: 1463-1469

Stefani A, Meletti P, Onnis A (1998) Dormancy and ageing in caryopses of the experimental amphidiploid “Triticum durum x Dasypyrum villossum” in comparison with parental forms. Agric Med 128: 250-254

Stefanowska G (1977) Cytogenetic studies on Triticale and its hybrids with rye and wheat. I. Identification of chromosomes in hexaploid Triticale. Genetica Polonica 18: 209-215

Stefanowska G (1977) Cytogenetic studies on Triticale and its hybrids with rye and wheat. II. The Course of meiotic divisions and analysis of the degree of fertility and of the size of pollen grains in Triticale hybrids with rye and wheat. Genetica Polonica 18: 309-315

Steiger DK, Elias EM, Cantrell RG (1996) Evaluation of lines derived from wild emmer chromosome substitutions: I. Quality traits. Crop Science 36: 223-227

Stein N (2009) Physical mapping in the Triticeae. In: Feuillet C, Muehlbayer GJ (eds) Genetics and Genomics of the Triticeae, Springer, pp. 317-357

Steinitz-Sears LM (1966) Somatic instability of telocentric chromosomes in wheat and the nature of the centromere. Genetics 54: 241–248

Steinitz-Sears LM (1973) Misdivision of five different 3B monosomes in Chinese Spring wheat. In: Sears ER, Steinitz-Sears LM (eds) Proceedings of the 4th International Wheat Genetics Symposium, Agricultural Experiment Station, Columbia, MO., USA, pp. 739–743

Stepanenko IL, Goncharov NP (1995) Associative nitrogen fixation in the rhizosphere of different wheat species. Russian Journal of Plant Physiology 42: 741-745

Steuernagel B, Marcussen T, Moscou MJ, Champouret N, Hernández-Pinzón I, Wright J, IWGSC, Ward E, Sandve SR, Wulff BBH (2014b) Multiple hybridization events shaped the genome of a wild diploid wheat. Genome Biology (submitted) 

Steuernagel B, Moscou MJ, Hernández-Pinzón I, Champouret N, Wright J, Marcussen T, Wulff BBH (2014a) Whole genome sequence of Aegilops sharonensis reveals inconsistency in the Sitopsis section taxonomy. Plant and Animal Genome XXII Conference, January 10 - 15, 2014, San Diego, California, USA

Stinissen HM, Peumans WJ, Law CN et al. (1983) Control of lectins in Triticum aestivum and Aegilops umbellulata by homoeologous group 1 chromosomes. Theor. Appl. Genet. 67: 53-58

Stinissen HM, Peumans WJ, Carlier AR (1983) Occurrence and immunological relationships of lectins in gramineous species. Planta 159: 105-111

Stock WS, Brule-Babel AL, Penner GA (1996) A gene for resistance to a necrosis-inducing isolate of Pyrenophora tritici-repentis located on 5BL of Triticum aestivum cv. Chinese spring. Genome 39: 598-604

Stokstad E (2007) Deadly wheat fungus threatens world’s breadbaskets. Science 315: 1786-1787

Strampelli N (1932) Origini, sviluppi, lavori e risultati Instituto Nazionale di Genetica per la Cerealicultura in Rome. Rome, Italy

Stratmann R, Lehner CF (1996) Separation of sister chromatids in mitosis requires the drosophila pimples product, a protein degraded after the metaphase/anaphase transition. Cell 84: 25-35

Strobaek S, Gibbons GC (1976) Ribulose-1,5-diphosphate carboxylase from barley (Hordeum vulgare). Isolation, characterization, and peptide mapping studies of the subunits. Carlsberg Res. Commun. 41: 57-72

Stroike JE, Johnson VA (1973) Factors affecting varietal performance in the international winter wheat performance nursery. Proc. 4^th Int. wheat genetics Symp., Columbia, Mo.: 601-604

Stutz HC (1957) A cytogenetic analysis of the hybrid Secalecereale L. x Secale montanum Guss. and its progeny. Genetics 42: 199-22l

Stutz HC (1972) The origin of cultivated rye. Amer J Bot 59: 59-70

Stutz Hc (1976) Genetically controlled chromosome breakage as an isolation barrier in the origin and maintenance of Secale Ancestrale. Can J Genet Cytol 18: 105-109

Su Y, Zhang D, Li Y, Li S (2015) Nonhomologous chromosome pairing in Aegilops - Secale Hybrids. Cytogenet Genome Res 147: 268–273

Suarez EY, Lopez AG, Naranjo CA (1988) Polyspermy versus unreduced male gametes as the origin of nonaploids common wheat plants. ??: ??

Suarez EY, Gorgoschidse L, Sacco F et al. (1988) Homozygous and heterozygous homologous chromosomes: effects on preferential pairing and recombination frequency in wheat. Genome 30: 336-340

Subramaniam K, Abbo S, Ueng PP (1996) Isolation of two differentially expressed wheat ACC synthase cDNAs and the characterization of one of their genes with root-predominant expression. Plant Molecular Biology 31: 1009-1020

Subrahmanyam NC, Kasha KJ (1973) Gene expression in haploid and hybrid progeny from crosses between Hordeum vulgare and H. bulbosum. Crop Science 13: 749-750

Subrahmanyam NC, Kasha KJ (1973) Selective chromosomal elimination during haploid formation in barley following interspecific hybridization. Chromosoma (Berl.) 42:111-125

Subrahmanyam NC, Kasha KJ (1973) Chromosome doubling in haploid barley by N₂O and colchicine treatments. Can. J. Genet. Cytol. 15: 665

Subrahmanyam NC (1977) Haploidy from Hordeum interspecific crosses. I. Polyhaploids of H. parodii and H. procerum. Theor. Appl. Genet. 49: 209-217

Subrahmanyam NC (1978) Meiosis in polyhaploid Hordeum: Hemizygous ineffective control of diploid-like behavior in a hexaploid?. Chromosoma (Berl.) 66: 185-192

Subrahmanyam NC, Azad AA (1978) Trisomic analysis of ribosomal RNA cistron multiplicity in barley (Hordeum vulgare L.). Chromosoma (Berl.) 69: 255-264

Subrahmanyam NC, Azad AA (1978) Nucleoli and ribosomal RNA cistron numbers in Hordeum species and interspecific hybrids exhibiting suppression of secondary constriction. Chromosoma (Berl.) 69: 265-273

Suemoto H (1979) The cytoplasm of tetraploid wheats. Rep. Plant Germ-plasm Inst. Kyoto Univ. No. 4: 23-29

Suemoto H (1973) The origin of the cytoplasm of tetraploid wheats. Proc. 4^th Int. Wheat Genetics Symp., Missouri Agr. Exp. Sta., Columbia, Mo.: 109-114

Suemoto H (????) The origin of the cytoplasm of tetraploid wheats. ??: 293-304

Sugino M, Yamashita K (1960) Temperature effect on the accumulation of plastid pigments in mutants of einkorn wheat. Memoirs of the Faculty of Agriculture Kinki University, No.1 :71-80

Sun GL, Yen C (1994) The ineffectiveness of the ph1b gene on chromosome association in the F₁ hybrid, Triticum aestivum X Psathyrostachys huashanica. Wheat Information Service, Dec. 79: 28-32

Sun GL, Yen C, Yang JL (1994) Morphology and cytology of intergeneric hybrids of Kengyilia gobicola and K. zhaosuensis crossed with Roegneria tsukushiensis. Wheat Information Service Number 78: 28-33

Sun GL, Yen C, Yang J (1993) Intermeiocyte connections and cytomixis in intergeneric hybrids. II. Triticum aestivum X Psathyrostachys huashanica Keng. Wheat Information Service 77:: 13-18

Sun GL, Yen C, Yang J (1994) The genome constitution of Leymus aemulis (Poaceae). Hereditas 121: 191-195

Sun GL, Yen C, Yang J (1994) Intermeiocyte connections and cytomixis in intergeneric hybrids III: Roegneria tsukushiensis X Psathyrostachys huashanica. Wheat Information Service Dec. 79: 24-27

Sun GL, Yan J, Yang JL (1992) Cytogenetic studies of intergeneric hybrids between Leymus secalinus (Georgi.) Tzvel. And two Psathyrostachts species (Triticeae: Poaceae). Plant Chromosome Research: 467-471 

Sun GL, Komatsuda T (2010) Origin of the Y genome in Elymus and its relationship to other genomes in Triticeae based on evidence from elongation factor G (EF-G) gene sequences. Molecular Phylogenetics and Evolution 56: 727–733

Sun GL, Ni Y, Daley T (2008) Molecular phylogeny of RPB2 gene reveals multiple origin, geographic differentiation of H genome, and the relationship of the Y genome to other genomes in Elymus species. Molecular Phylogenetics and Evolution 46: 897–907

Sun GL, Pourkheirandish M, Komatsuda T (2009) Molecular evolution and phylogeny of the RPB2 gene in the genus Hordeum. Annals of Botany 103: 975-983

Sun GL, Fahima T, Korol AB et al. (1997) Identification of molecular markers linked to the Yr15 stripe rust resistance gene of wheat originated in wild emmer wheat, Triticum dicoccoides. Theor. Appl. Genet. 95: 622-628

Sun QX, Ni ZF, Liu ZY, Gao JW, Huang TC. 1998. Genetic relationships and diversity among Tibetan wheat, common wheat and European spelt wheat revealed by RAPD markers. Euphytica 99: 205-11

Sun QX, Ni ZF, Liu ZY (1999) Differential gene expression between wheat hybrids and their parental inbreds in seedling leaves. Euphytica 106: 117-123

Sun QX, Quick JS (1991) Chromosomal locations of genes for heat tolerance in tetraploid wheat. Cereal Research Communications 19: 431-437

Sun S, Rees H (1964) Genotypic control of chromosome behavior in rye. Heredity 19: 357-367

Sunderman DW, Wise M, Sneed EM (1965) Interrelationships of wheat protein content, flour sedimentation Value, farinograph peak time, and dough mixing and baking, characteristics in the F₂ and F₃ generations of winter wheat, Triticum aestivum. Crop Science 5: 537-540

Sunderman DW, Wise M (1964) Influence of stripe rust of wheat upon plant development and grain quality of closely related Lemhi derivatives. Crop Science 4: 347-348

Suneson CA, El Sharkawy A, Hall WE (1963) Progress in 25 years of perennial wheat development. Crop Sci. 3: 437-439

Suneson CA, Rachie KO, Khush GS (1969) A dynamic population of weedy rye. Crop Science 9: 121-124

Suprunova T, Baca I, Krugman T et al. (2002) Induction and differential expression of dehydrine (dhn) genes in wild barley (hordeum spontaneum) in response to drought stress. Plant Animal & Microbe Genomes X (PAG-X) Congerence, 12-16.1.2002, San Diego, California, USA: ??

Surma M, Adamski T, Kurhanska G (1974) Inheritance of the rachis brittleness in barley (Hordeum sp.). Genetica Polonica 15: 429-433

Sutka J, Rajki E (1980) The effect of temperature on growth habit in homoeologous group 5 of  Triticum aestivum.  Acta Agronomica Academiae Scientiarum Hungaricae 29: 76-77

Sutka J (1979) Some aspects of use of aneuploidy in wheat breeding. Acta Agronomica Academiae Scientiarum Hungaricae 28: 401-422

Sutton A, Freiman R (1997) The Cak1p protein kinase is required at G₁/S and G₂/M in the budding yeast Cell cycle. Genetics 147: 57-71

Suzuki T, Nakamura C, Mori N et al. (1995) Overexpression of mitochondrial genes in alloplasmic common wheat with a cytoplasm of wheatgrass (Agropyron trichophorum) showing depressed vigor and male sterility. Plant Molecular Biology 27: 553-565

Svitashev S, Salomon B, Bryngelsson T et al. (1996) A study of 28 Elymus species using repetitive DNA sequences. Genome 39: 1093-1101

Svitashev S, Byrngelsson T, Li X, Wang RRC (1998) Genome specific repetitive DNA and RAPD markers for genome identification in Elymus and Hordelymus. Genome 41: 120–128

Swaminathan MS, Rao MVP (1961) Macro-mutations and subspecific differentiation in Triticum. Wheat Inf Serv 13: 9–11

Swietlinska Z, Zuk J (1973) Effect of caffeine on chromosome damage induced by chemical mutagens and ionizing radiation in Vicia faba and Secale cereale. Mutat. Res. 21: 203

Sybenga J (1966) The zygomere as hypothetical unit of chromosome pairing initiation. Genetica 37: 186-198

Sybenga J (1983) Rye chromosome nomenclature and homoeology relationships. Workshop Report. Z. Pflanzenzüchtg 90: 297-304

Sybenga J, Verhaar HM (1980) Chiasma patterns in a translocation derived duplication heterozygote of rye. Chromosoma (Berl.) 80: 147-162

Sybenga J, Mastenbroek I (1980) Combined genetic and cytological analysis of positive and negative interference in an interchange heterozygote of rye (Secale cereale L.). Heredity 44: 83-92

Sybenga J, Verhaar HM (1975) Meiotic behavior of single-arm tetrasomic combinations of isochromosomes, telocentrics and normal chromosomes in rye (Secale cereale L.). Chromosoma (Berl.) 53: 295-320

Sybenga J, Wolters AHG (1972) The classification of the chromosomes of rye (Secale cereale L.): A translocation tester set. Genetica 43: 453-464

Sybenga J (1972) Chromosome-associated control of meiotic pairing differentiation. Variation within Secale cereale. Chromosoma (Berl.) 39: 351-360

Sybenga J (1968) Orientation of interchange multiples in Secale cereale. Heredity 23: 73-79

Sybenga J (1967) Interchromosome effects on chiasma frequencies in rye. Genetica 38: 171-183

Sybenga J (1960) Non-random distribution of chiasmata in rye, crotalaria and coffee. Chromosoma (Berl.) 11: 441-455

Sybenga J (1958) Inbreeding effects in rye. Zietschrift fur Vererbungslehre, Bd. 89: 338-354

Symko S (1969) Haploid barley from crosses of Hordeum bulbosum (2x) X Hordeum vulgare (2x). Can. J. Genet. Cytol. 11: 602-608

Symko S (1966) Striated kernels in the genus Hordeum. Can. J. Plant Sci. 46: 206

Szakacs E, Barnabas B (1995) The effect of colchicine treatment on microspore division and microspore-derived embryo differentiation in wheat (Triticum aestivum L.) anther culture. Euphytica 83: 209-213

Szalay D (1977) Triticum timopheevi zhuk. With short, close-packed spikes. Acta Agronomica Academiae Scientiarum Hungaricae 26: 181-187

Tahir M, Pavoni A, Tucci GF et al. (1996) Detection and characterization of a glutenin subunit with unusual high Mr at the Glu-A1 locus in hexaploid wheat. Theor. Appl. Genet. 92: 654-659

Tahir CM, Tsunewaki K (1971) Monosomic analysis of fertility-restoring genes in Triticum aestivum strain P168. Can. J. Genet. Cytol. 13: 14-19

Tahir CM (1970) Production of male-sterile and restoration lines of Pakistani wheat varieties with Ae. Ovata and T. timopheevi cytoplasms. Wheat Information Service 30: 23-26

Tahir CM (1970) Distribution of fertility-restoring genes in hexaploid wheat for Ae. Ovata and T. timopheevi cytoplasms. Japan. J. Breeding 20: 1-6

Tahir ChM, Tsunewaki K (1971) Distribution of fertility-restoring genes in hexaploid wheats for Ae. Ovata and T. timopheevi cytoplasms. Japan. J. Breed. 21: 49-51

Tahir CM, Tsunewaki K (1969) Monosomic analysis of Triticum spelta var. duhamelianum, a fertility-restorer for T. timopheevi cytoplasm. Japan. J. of Genetics 44: 1-9

Tahir CM (1971) Genetic influence of male sterile cytoplasms and fertility-restoring genes on performance of common wheat varieties. Japan. J. Breed. 21: 189-194

Tai W (1970) Multipolar meiosis in diploid crested wheatgrass, Agropyron cristatum. Amer. J. Bot. 57: 1160-1169

Tai W (1966) Morphology, cytology and fertility of diploid and colchicine-induced tetraploid crested wheatgrass. Crop Science 6: 223-226

Taillefer L, Nkongolo K (1996) Effects of chemical and physical treatments on germination of wheat (Triticum aestivum) seed. Cereal research communications 24: 361-368

Taira T, Larter EN (1978) Factors influencing development of wheat-rye hybrid embryos in vetro. Crop Science 18: 348-350

Taira T, Larter EN (1977) The effects on variation in ambient temperature alone and in combination with Ɛ-amino-n-caproic acid on development on embryos from wheat-rye crosses (T. turgidum var. durum cv. Jori X S. cereale). Can. J. Bot. 55: 2335-2337

Taira T, Larter EN (1977) Effects of Ɛ-amino-n-caproic acid and L-lysine on the development of hybrid embryos of triticale (X Triticosecale). Can. J. Bot. 55: 2330-2334

Takahashi C, Marshall JA, Bennett MD et al. (1999) Genomic relationships between maize and its wild relatives. Genome 42: 1201-1207

Takahashi R, Tsuchiya T, Moriya I (1964) Heritable mixoploidy in barley, III. On a dwarf mutant from a cultivar, Taisho-mugi. Nogaku Kenkyu 50: 123-129

Takahashi R (1955) The origin and evolution of cultivated barley. Adv Genet 7: 227–266

Takahashi R (1972) Non brittle rachis1 and non brittle rachis 2. Barley Genet Newsletter 2: 181-182

Takahashi R, Hayashi J (1964) Linkage study of two complementary genes for brittle rachis in barley. Ber Ohara Inst Landw Biol, Okayama Univ 12: 99–105

Takahata N, Slatkin M (1983) Evolutionary dynamics of extranuclear genes. Genet. Res. Camb. 42: 257-265

Taketa S, Chang CL, Ishii M et al. (2002) Chromosome arm location of the gene controlling leaf pubescence of a Chinese local wheat cultivar ‘hong-mang-mai’. Euphytica 125: 141-147

Takumi S, Nasuda S, Liu YG et al. (1993) Wheat phylogeny determined by RFLP analysis of nuclear DNA. 1. Einkorn wheat. Jpn. J. Genet. 68: 73-79

Takumi S, Murai K, Mori N et al. (1999) Variations in the maize Ac transposase transcript level and the Ds excision frequency in transgenic wheat callus lines. Genome 42: 1234-1241

Talbert H, Kanazin V, Nevo E et al. (2001) Genetic diversity among accessions of wild barley (Hordeum spontaneum) and modern cultivated barley varieties. Plant & Animal Genome IX: 224

Talbert LE, Blake NK, Storlie EW et al. (1995) Variability in wheat based on low copy DNA sequence comparisons. Genome 38: 951-957

Talbert LE, Kimber G, Magyar GM et al. (1993) Repetitive DNA variation and pivotal-differential evolution of wild wheats. Genome 36: 14-20

Talbert LE, Magyar GM, Lavin M et al. (1991) Molecular evidence for the origin of the S-derived genomes of polyploidy Triticum species. American Journal of Botany 78: 340-349

Talbert LE (1993) Molecular biology and wheat improvement. Plant Breeding Reviews 11: 235-250

Talbert LE, Magyar GM, Lavin M et al. (1991) Molecular ecidence for the origin of the S-derived genomes of polyploidy Triticum species. American Journal of Botany 78: 340-349

Talbert LE, Kimber G, Magyar GM et al. (1993) Repetitive DNA variation and pivotal-differential evolution of wild wheats. Genome 36: 14-20

Talbert LE, Blake NK, Storile EW et al. (1995) Variability in wheat based on low- copy DNA sequence comparisons. Genome 38: 951-957

Talbert LE, Smith LY, Blake NK (1997) More than one origin of wheat indicated by sequence comparison of low copy DNA. Genome 41: 402-407

Talbert LE, Clack TH (1991) Identification of D-genome chromosomes of Chinese spring on southern blots using genome-specific. Journal of Heredity 82: 509-512

Tan BH, Halloran GM (1980) Some cytological aspects of diploid wheat anther culture. Wheat Information Service 51: 15-18

Tan K (1985) 16. Secale L. - In: Davis PH (e,), Flora of Turkey vol. 9: 255-260, Edinburgh

Tanaka MM, Liang XM, Gray YHM et al. (1997) The accumulation of P-element-induced recombinants in the germline of male Drosophila melanogaster. Genetics 147: 1769-1782

Tanaka M, Sakamoto S (1979) Morphological and physiological variations in wild tetraploid wheats collected from the Zagros mountains. Rep. Plant Germ-plasm Inst. Kyoto Unic. 4: 12-17

Tanaka M, Kawahara T, Sano J (1979) The origin and the differentiation of the B and G genomes of the tetraploid wheats. Rep. Plant Germ-plasm Inst. Kyoto Univ. 4: 1-11

Tanaka M (1956) Chromosome pairing and fertility in the hybrid between the new amphiploid-SⁱSⁱAA and emmer-wheat. WIS 3: 21-22

Tanaka M  (1955) Chromosome pairing in hybrids between Aegilops sharonensis and some species if Aegilops and Triticum. WIS 2: 7-8

Tanaka M, Kawahara T (1976) Wild tetraploid wheats from northern Iraq cytogenetically closely related to each other. WIS 43: 3-4

TanakaM, Ishii H (1975) Hybrid sterility and chromosomal interchanges found in the timopheevi group of tetraploid wheat. The Japanese Journal of Genetics 50: 141-149 

Tanaka M, Ishii H (1973) Cytogenetical evidence on the speciation of wild tetraploid wheats collected in Iraq, Turkey, and Iran. Proc. 4^th internat. Wheat genetics symp., Missouri Agr. Exp. Sta., Columbia, Mo.: 115-121

Tanaka M, Ichikawa S (1972) Cytogenetical relationships of two types of Triticum araraticum jakubz. To other tetraploid wheat species. Japan J. Genetics 47: 103-114

Tanaka M, Ichikawa S (1968) Cytogenetical examinations of Triticum araraticum Jakubz., a wild-type tetraploid wheat species. Genetics 60: 229

Tanaka M (1965) Phylogenetic relationship and species differentiation in genus Triticum with special reference to the genotypes for dwarfness. Memoirs of the college of agriculture,Kyoto Univ.87: 1-30

Tanaka M, Yamashita K (1957) Growing habit of Aegilops squarrosa strains collected in Pakistan, Afghanistan and Iran. Wheat Information Service 6: 8

Tanaka S, Tsunewaki K (1984) Genetic diversity of the cytoplasm in Triticum and Aegilops. XI. The SDS gel electrophoretic patterns of chloroplast proteins prepared from the alloplasmic common wheat lines. Seiken Ziho 32: 20-30

Tang H, Bowers JE, Wang X, Paterson AH (2010) Angiosperm genome comparisons reveal early polyploidy in the monocot lineage. Proc Natl Acad Sci, U S A. 107: 472–477

Tang S, Li Z, Jia X, Larkin PJ (2000) Genomic in situ hybridization (GISH) analyses of Thinopyrum intermedium, its partial amphiploid Zhong 5, and disease-resistant derivatives in wheat. Theor Appl Genet 100: 344–352

Tanno K, Willcox G (2006) How fast was wild wheat domesticated? Science 311: 1886

Tanno K, Taketa S, Takeda K et al. (2002) A DNA marker closely linked to the vrs1 locus (row-type gene) indicates multiple origins of six-rowed cultivated barley (Hordeum vulgare L.). Theor. Appl. Genet. 104: 54-60

Tarczy HM, Gyulai G, Janovszky J et al. (1996) Cytogenetic instability among the vegetative progenies of A. repens cv. Purdue somaclones. Cereal Research Communications 24: 267-273

Tarkowski CZ, Apolinarska B (1992) The use of chromosome substitutions and translocations in the breeding of triticale, wheat and rye. Hereditas 116: 281-283

Tarkowski CZ, Stefanowska G, Gruszecka D (1974) Disturbances at meiosis, frequency of aneuploids and fertility of hybrids in Triticale 8xX6x. Genetica polonica 15: 215-222

Tarkowski CZ, Stefanowska G (1972) Chromosome morphology in the genome of rye Secale cereale L. and in Triticale 6x and 8x. Genetica Polonica 13: 84-89

Tateoka T (1962) Starch grains of endosperm in grass systematics. Bot Mag. Tokyo 75: 377-383

Taylor RJ, McCoy GA (1973). Proposed origin of tetraploid species of crested wheatgrass based on chromatographic and karyotype analyses, Am. J. Bot 60: 576-583

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