Abstract
Dasypyrum villosum (L.) P. Candargy is discussed as a species commonly used in wheat improvement. Chromosomal localization of the potentially useful traits and chromosomal position of some morphological and isozyme markes are shown. The investigations using molecular RAPD, AFLP, SSR, RFLP markers and in situ (GISH, FISH) hybridization experiments on D. villosum itself and in wide hybrids with Triticum are summarized. The article also presents the information about designation of D. villosum chromosomes and the current knowledge on the phenomenon of two-coloured D. villosum caryopses.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Allan RE (1996a) Registration of alloplasmic and euplasmic Luke wheat germplasms. Crop Sci 36(3):816–817
Allan RE (1996b) Registration of 10 pairs of alloplasmic and euplasmic Nugaines wheat germplasms. Crop Sci 36(2):470–471
Allan RE (1997) Registration of 10 pairs of alloplasmic and euplasmic Stephens wheat germplasms. Crop Sci 37(3):1033–1034
Bai JR, Liu RT, Guo XR, Hou BY, Langridge P (2000) Identification of Haynaldia villosa translocation lines with resistant gene to powdery mildew in wheat by AFLP markers. Acta Agric Boreali Sinica 15(4):29–34
Benedettelli S, Hart GE (1988) Genetic analysis of Triticeae Shikimate dehydrogenase. Biochem Genet 26:287–301
Blanco A, Simeone R, Resta P (1987) The addition of Dasypyrum villosum (L.) Candargy chromosomes to durum wheat (Triticum durum Desf.). Theor Appl Genet 74:328–333
Blanco A, Resta P, Simeone R, Parmar S, Shewry PR, Sabelli P, Lafiandra D (1991) Chromosomal location of seed storage protein genes in the genome of Dasypyrum villosum (L.) Candargy. Theor Appl Genet 82:358–362
Blanco A, Simeone R, Resta P, De Pace C, Delre V, Caccia R, Scarascia GT, Mugnozza, Frediani M, Cremonini R, Cionini PG (1996) Genomic relationships between Dasypyrum villosum (L.) Candargy and D. hordeaceum (Cosson et Durieu) Candargy. Genome 39:83–92
Chen P, Liu D (1986) Identification of Haynaldia villosa chromosomes in wheat alien addition lines. In: Zhensheng L, Swaminathan MS (eds) Proceedings of the 1st International Symposium on Chromosome Engineering in Plants, Xian, China, October 20–25, pp. 31–32
Chen PD, Qi LL, Zhou B, Zhang SZ, Liu DJ (1995a) Development and molecular cytogenetic analysis of wheat-Haynaldia villosa 6VS/6AL translocation lines specifying resistance to powdery mildew. Theor Appl Genet 91:1125–1128
Chen P, Zhou B, Qi L, Liu D (1995b) Identification of wheat-Haynaldia villosa amphidiploid, addition, substitution and translocation lines by in situ hybridization. Chin J Genet 22(4):269–274
Chen Q, Conner RL, Laroche A (1995c) Identification of the parental chromosomes of the wheat—alien amphidiploid Agrotana by genomic in situ hybridization. Genome 38:1163–1169
Chen Q, Conner RL, Laroche A (1996a) Molecular characterization of Haynaldia villosa chromatin in wheat lines carrying resistance to wheat curl mite colonization. Theor Appl Genet 93:679–684
Chen X, Xu HJ, Du LP, Shang LM, Ham B, Shi AN, Xiao SH (1996b) Transfer of gene resistance to powdery mildew from H. villosa to common wheat by tissue culture. Sci Agric Sinica 29(5):1–8
Chen X, Shi AN, Shang LM, Leath S, Murphy JP (1997) The resistance of H. villosa to powdery mildew isolates and its expression in wheat background. Acta Phytopathol Sinica 27(1):17–22
Chen J, Deng GB, Yu MQ, Ren ZL (2001) Study on the resistance genetic and cytogenetic behaviour of 6VS in a wheat-Dasypyrum villosum telosomic addition line. J Sichuan Agric Univ 19(1):1–5
Chen Q, Conner RL, Li H, Laroche A, Graf RJ, Kuzyk AD (2002) Expression of resistance to stripe rust, powdery mildew and the wheat curl mite in Triticum aestivum × Haynaldia villosa lines. Can J Plant Sci 82(2):451–456
Cremonini R, Colonna N, Stefani A, Galasso I, Pignone D (1994) Nuclear DNA content, chromatin organization and chromosome banding in brown and yellow seeds of Dasypyrum villosum (L.) Candargy. Heredity 72:365–373
De Gara L, Paciolla C, Liso R, Stefani A, Arrigoni O (1991) Correlation between ascorbate peroxidase activity and some anomalies of seedlings from aged caryopses of Dasypyrum villosum (L.) Borb. J Plant Physiol 137:697–700
De Pace C (1987) Genetic variability in natural populations of Dasypyrum villosum (L.) Candargy. PhD Thesis, University of California, Davis, USA
De Pace C, Qualset CO (1995) Mating system and genetic differentiation in Dasypyrum villosum (Poaceae) in Italy. Plant Syst Evol 197:123–147
De Pace C, Benedettelli S, Qualset CO, Hart GE, Scarascia Mugnozza GT, Delre V, Vittori D (1988a) Biochemical markers in Triticum × Dasypyrum amphiploids and derived disomic addition lines. In: Miller TE, Koebner RMD (eds) Proceedings of the 7th International Wheat Genetic Symposium, Cambridge, England, July 13–19, vol. 1, pp. 503–509
De Pace C, Montebove L, Delre V, Jan CC, Qualset CO, Scarascia Mugnozza GT (1988b) Biochemical versality of amphiploids derived from crossing Dasypyrum villosum Candargy and wheat: genetic control and phenotypical aspects. Theor Appl Genet 76:513–529
De Pace C, Paolini R, Scarascia-Mugnozza GT, Qualset CO, Delre V (1990) Evaluation and utilization of Dasypyrum villosum as a genetic resource for wheat improvement. In: Srivastava JP, Damania AB (eds) Wheat genetic resources: meeting diverse needs pp. 279–289, 378–379
De Pace C, Delre V, Scarascia Mugnozza GT, Qualset CO, Cremonini R, Frediani M, Cionini PG (1992) Molecular and chromosomal characterization of repeated and single-copy DNA sequences in the genome of Dasypyrum villosum. Hereditas 116:55–65
De Pace C, Snidaro D, Ciaffi M, Vittori D, Ciofo A, Cenci A, Tanzarella OA, Qualset CO, Scarascia Mugnozza GT (2001) Introgression of Dasypyrum villosum chromatin into common wheat improves grain protein quality. Euphytica 117:67–75
Della Gatta C, Tanzarella OA, Resta P, Blanco A (1984) Protein content in a population of Haynaldia villosa and electrophoretic pattern of the amphidiploid T.␣durum × H. villosa. In: Proceddu E (eds) Breeding methodologies in Durum wheat and triticale. Univ of Tuscia, Viterbo, Italy, pp. 39–43
Forlani R (1954) Il Frumento. Aspetti genetici e agronomici del miglioramento delle coltura granaria. Monografia di Genetica Agraria
Frederiksen S (1991) Taxonomic studies in Dasypyrum (Poaceae). Nord J Bot 11(2):135–142
Frediani M, Colonna N, Cremonini R, De Pace C, Delre V, Caccia R, Cionini PG (1994) Redundancy modulation of nuclear DNA sequences in Dasypyrum villosum. Theor Appl Genet 88:167–174
Friebe B, Cermeño MC, Zeller FJ (1987) C-banding polymorphism and the analysis of nucleolar activity in Dasypyrum villosum (L.) Candargy, its added chromosomes to hexaploid wheat and the amphiploid Triticum dicoccum–D. villosum. Theor Appl Genet 73:337–342
Fu TH, Ren ZL, Zhang HQ (1997) Cytogenetic analysis of trigeneric hybrid of Triticum, Dasypyrum and Secale by C-banding technique. J Genet Breed 51(4):335– 340
Gao SG, Jin QS, Song RJ (1998) Identification of multiple resistance to wheat powdery mildew in 92R serial. Crop Genet Resour 2:34
Greilhuber J (2005) Intraspecific variation in genome size in angiosperms: identifying its existence. Ann Bot 95:91–98
Grilli I, Stefani A, Onnis A (1988) Endosperm proteins␣and cytogenetics of Dasypyrum villosum (L.) P.␣Candargy. Genet Agraria 42(1):77
Hyde BB (1953) Addition of individual Haynaldia villosa chromosomes to hexaploid wheat. Am J Bot 40:174–182
Innocenti AM, Bitonti MB (1980) Differente invecchiamento nelle cariossidi ‘chiare’ e ‘scure’ di Haynaldia villosa Schur. Uno studio citifotometrico nei meristemi radicali quiescenti. Giron Bot Ital 114:29– 35
Innocenti AM, Bitonti MB (1983) Different duration of the mitotic cycle in seedlings from brown and black caryopses of Haynaldia villosa Schur. Caryologia 36:27–32
Jan CC, De Pace C, Mc Guire PE, Qualset CO (1986) Hybrids and amphiploids of Triticum aestivum L. and T. turgidum L. with Dasypyrum villosum (L.) Candargy. Z Pflanzenzücht 96:97–106
Koebner RMD (1987) Genetic control of dipeptidase in the Triticeae. Theor Appl Genet 74:387–390
Koebner RMD, Martin PK (1989) Chromosomal control of the aminopeptidases of wheat and its close relatives. Theor Appl Genet 78:657–664
Koebner RMD, Miller TE, Snape JW, Law CN (1988) Wheat endopeptidase: genetic control, polymorphism, intrachromosomal gene location, and alien variation. Genome 30:186–192
Li JM, Yang ZM, Tian HQ, Huang F, Gang PT (1991) Somatic cell clone establishment and amphiploid synthesis in a Triticum aestivum × Haynaldia villosa␣intergeneric hybrid. Hereditas-Beijing 13(1): 1–3
Li W, Liu D, Chen P, Qi L (1993) Cloning of repeated sequences of Haynaldia villosa DNA for detection of its chromatin in wheat. In: Proceedings of the 8th International Wheat Genetic Symposium, Beijing, China, pp. 817–822
Li WL, Chen PD, Qi LL, Liu DJ (1995) Isolation, characterization and application of a species-specific repeated sequences from Haynaldia villosa. Theor Appl Genet 90:526–533
Li H, Chen X, Xin ZH, Ma YZ, Xu HJ (1999) Development and identification of wheat-Haynaldia villosa 6 DL/6VS translocation lines with powdery mildew resistance. Sci Agric Sinica 32(5):9–15
Li HJ, Guo BH, Li YW, Du LQ, Jia X, Chu CC (2000) Molecular cytogenetic analysis of intergeneric chromosomal translocations between wheat (Triticum aestivum L.) and Dasypyrum villosum arising from tissue culture. Genome 43:756–762
Li HJ, Conner RL, Chen Q, Jia X, Li H, Graf RJ, Laroche A, Kuzyk AD (2002) Different reactions to the wheat curl mite and wheat streak mosaic virus in various wheat-Haynaldia villosa 6V and 6VS lines. Plant Dis 86(4):423–428
Li H, Chen X, Xin ZY, Ma YZ, Xu HJ, Chen XY, Jia X (2005) Development and identification of wheat-Haynaldia villosa T6DL.6VS chromosome translocation lines conferring resistance to powdery mildew. Plant Breed 124:203–205
Linde-Laursen I, Jensen HP, Jørgensen JH (1973) Resistance of Triticeae, Aegilops and Haynaldia species to the Take–all fungus, Gaeumannomyces graminis. Z␣Pflanzenzücht 70:20–213
Liu CJ, Chao S, Gale MD (1989) Wsp-1, a set of genes controlling water-soluble proteins in wheat and related species. Genet Res 54(3):173–181
Liu CJ, Gale MD (1990) Est-7, a set of genes controlling green tissue esterases in wheat and related species. Theor Appl Genet 79(6):781–784
Liu CJ, Gale MD (1991) The chromosomal location of genes encoding NADH dehydrogenase isosymes in hexaploid wheat and related species. Genome 34(1):44–51
Liu DJ, Chen PD, Pei GZ, Wang YN, Qiu BX, Wang SL (1988) Transfer of Haynaldia villosa chromosomes into Triticum aestivum. In: Miller TE, Koebner RMD (eds) Proceedings of the 7th International Wheat Genetic Symposium, Cambridge, England, July 13–19, vol. 1, pp. 355–361
Liu DJ, Chen PD, Raupp WJ (1995) Determination of homoeologous groups of Haynaldia villosa chromosomes. In: Proceedings of the 8th International Wheat Genetic Symposium. Chinese Agricultural Scientech Press, Bejing, China, pp. 181–185
Liu Z, Sun Q, Ni Z, Yang T (1999) Development of SCAR markers linked to the Pm21 gene conferring resistance to powdery mildew in common wheat. Plant Breed 118:215–219
Liu SB, Tang ZH, You MS, Li BY, Song JM, Liu GT (2003) Development and application of a genome specific PCR marker for Haynaldia villosa. Acta Genet Sin 30(4):350–356
Ma JX, Zhou RH, Dong YS, Wang LF, Wang XM, Jia JZ (2001) Molecular mapping and detection of the yellow rust resistance gene Yr26 in wheat transferred from Triticum turgidum L. using microsatellite markers. Euphytica 120(2):219–226
Meletti P, Onnis A (1961) Variazioni caratteristiche delle cariossioli di alcune graminaceae compreso il fenomeno della bianconatura in Triticum durum Desf. Nuovo. Giorn Bot Ital 68:79–88
Minelli S, Ceccarelli M, Mariani M, De Pace C, Cionini PG (2005) Cytogenetics of Triticum × Dasypyrum hybrids and derived lines. Cytogenet Genome Res 109:385–392
Mohammad P, Hossain MA, Khodarker NA, Shiraishi M (1997) Study for morphological characteristics of species alien to wheat in Bangladesh. Sarhad J Agric 13(6):541–550
Mohammad P, Hossain MA, Khan F, Aguja SE (1999) Leaf blight disease tolerance/resistance in diploid relatives of wheat. Sarhad J Agric 15(4):311–316
Montebove L, De Pace C, Jan CC, Scarascia-Mugnozza GT, Qualset CO (1987) Chromosomal location of isozyme and seed storage protein genes in Dasypyrum villosum (L.) Candargy. Theor Appl Genet 73:836–845
Murray TD, De la Pena RC, Yildirim A, Jones SS (1994) A new source of resistance to Pseudocercosporella herpotrichoides cause of eyespot disease of wheat located on chromosome 4V of Dasypyrum villosum. Plant Breed 113(4):281–286
Nielsen J (1978) Host range of the smut species Ustilago nuda and Ustilago tritici in the tribe Triticeae. Can J Bot 56:901–915
Okocha PI (1999) Peculiarities of nucleo-cytoplasmic interactions in allocytoplasmic forms of wheat. Global J Pure Appl Sci 5(4):431–435
Paciolla C, Stefani A, De Gara L (1991) Ascorbate system in Dasypyrum villosum from different environments. Boll Soc It Biol Sper, Idelson, Napoli LXVII(7):699–706
Qi L, Cao M, Chen P, Li W, Liu D (1996) Identification, mapping, and application of polymorphic DNA associated with resistance gene Pm21 of wheat. Genome 39:191–197
Qi LL, Wang SL, Chen PD, Liu DJ, Gill BS (1998) Identification and physical mapping of three Haynaldia villosa chromosome—6V deletion lines. Theor Appl Genet 97:1042–1046
Qi LL, Chen PD, Liu DJ, Gill BS (1999) Homoeologous relationships of Haynaldia villosa chromosomes with those of Triticum aestivum as revealed by RFLP analysis. Genes Genet Syst 74:77–82
Qualset CO, De Pace C, Jan CC, Scarascia Mugnozza GT, Tanzarella OA, Greco B (1981) Haynaldia villosa (L.) Schur: a species with potential use in wheat breeding. Am Soc Agron Abstr, p. 70
Qualset CO, Zhong GY, De Pace C, Mc Guire PE (1993) Population biology and evaluation of genetic resources of Dasypyrum villosum. In: Damania AB (ed), Biodiversity and wheat improvement, pp. 227–233
Sando WJ (1935) Intergeneric hybrids of Triticum and Secale with Haynaldia villosa. J Agric Res 51:579–800
Schlegel R, Cakmak I, Torun B, Eker S, Tolay I, Ekiz H, Kalayci M, Braun HJ, Altay F, Kronstad WE, Beniwal SPS, NcNab A (1997) Screening for zinc efficiency among wheat relatives and their utilization for alien gene transfer. In: Braun HJ, Altay F, Kronstad WE, Beniwal SPS (eds) Wheat: prospects for global improvement. Proceedings of the 5th International Wheat Conference, Ankara, Turkey, June 10–14, 1996, pp. 347–352
Schlegel R, Cakmak I, Torun B, Eker S, Tolay I, Ekiz H, Kalayci M, Braun HJ (1998) Screening for zinc efficiency among wheat relatives and their utilization for alien gene transfer. Euphytica 100:281–286
Shang LM, Chen X, Xiao SH, Xu HJ, Shi AN (1997) Genetic and biochemical identification of common wheat-Haynaldia villosa germplasms. Acta Agron Sinica 23(2):159–164
Shewry PR, Parmar S, Pappin DJC (1987) Characterization and genetic control of the prolamins of Haynaldia villosa: relationship to cultivated species of the Triticeae (rye, wheat and barley). Biochem Genet 25:309–325
Shewry PR, Sabelli PA, Parmar S, Lafiandra D (1991) λ-Type prolamins are encoded by genes on chromosomes 4Ha and 6Ha of Haynaldia villosa Schur (syn. Dasypyrum villosum L.). Biochem Genet 29:207–211
Singh RP, Chen WQ, He ZH (1999) Leaf rust resistance of spring, facultative, and winter wheat cultivars from China. Plant Dis 83(7):644–651
Smith JG, Kidwell KK, Evans MA, Cook RJ, Smiley RW (2003) Evaluation of spring sereal grains and wild triticum germplasm for resistance to Rhizoctonia solani AG-8. Crop Sci 43:701–709
Stefani A, Onnis A (1983) Contributo alla conoscenza delle caratteristiche fenologiche di popolazioni naturali di Dasypyrum villosum (L.) Candargy. Inf Bot Ital 15:213–224
Stefani A, Onnis A (1984) Significato ecologico della dormienza nelle cariossidi ‘normali’ e ‘scure’ di Dasypyrum villosum (L.) P. Candargy. Inf Bot Ital 16:103–112
Stefani A, Meletti P, Onnis A (1998) Dormancy and ageing in caryopses of the experimental amphidiploid “Triticum durum × Dasypyrum villosum” in comparison with parental forms. Agr Med 128:250–254
Strampelli N (1932) Origini, sviluppi, lavori, e risultati. Insituto Nazionale di Genetica per la Cerelicoltura, Roma
Urbano M, Resta P, Benedetelli S, Blanco A (1988) A Dasypyrum villosum (L.) Candargy chromosome related to homoeologous group 3 pf wheat. In: Miller TE, Koebner RMD (eds) Proceedings of the 7th International Wheat Genetic Symposium, Cambridge, England, July 13–19, vol. 1, pp. 355–361
Uslu E, Miller TE, Rezanoor NH, Nicholson P (1998) Resistance of Dasypyrum villosum to the cereal eyespot pathogens, Tapesia yallundae and Tapesia acuformis. Euphytica 103:203–209
Uslu E, Reader SM, Miller TE (1999) Characterization of Dasypyrum villosum (L.) Candargy chromosomes by fluorescent in situ hybridization. Hereditas 131:129–134
Xia G, Li Z, Wang S, Xiang F, Liu J, Chen P, Liu D (1998) Asymmetric somatic hybridization between haploid common wheat and UV-irradiated Haynaldia villosa. Plant Sci 137:217–223
Yildirim A, Jones SS, Murray TD (1998) Mapping a gene conferring resistance to Pseudocercosporella herpotrichoides on chromosome 4V of Dasypyrum villosum in a wheat background. Genome 41:1–6
Yu MQ, Chen J, Deng GB, Cerbah M, Ma XR, Panaud O, Yakovlev S (2001a) Identification for H. villosa chromatin in wheat lines using genomic in situ hybridization, C-banding and gliadin electrophoresis techniques. Euphytica 121:157–162
Yu MQ, Deng GB, Zhang XP, Ma XR, Chen J (2001b) Effect of the ph1b mutant on chromosome pairing in hybrids between Dasypyrum villosum and Triticum aestivum. Plant Breed 120:285–289
Yuan WY, Tomita M, Sun SC, Yasumuro Y (1998) Introduction of multi—alien chromatin carrying different powdery mildew—resistant genes from rye and Haynaldia villosa into wheat genome. Genes Genet Syst 73:377–384
Yuan WY, Tomita M, Sun SC, Yasumuro Y (2000) Multicolor fluorescence in situ hybridzation of the rRNA genes in wheat relatives, Dasypyrum villosum and Thinopyrum intermedium. Bulletin of the Faculty of Agriculture, Tottori University 53:7–12
Zhang QQ, Zhang LY, Zhu WH, Xie SX (1998) Utilization of Haynaldia villosa (L.) Schur in resistance breeding in wheat. Acta Phytophyalacica Sinica 25(1):41–45
Zhang Q, Li Q, Wang X, Wang H, Lang S, Wang Y, Wang S, Chen P, Liu D (2005) Development and characterization of a Triticum aestivum–Haynaldia villosa translocation line T4VS·4DL conferring resistance to wheat spindle streak mosaic virus. Euphytica 145:317–320
Zhong GY, Dvorák J (1995) Evidence for common genetic mechanisms controlling the tolerance of sudden salt stress in the tribe Triticeae. Plant Breed 114(4):297–302
Zhong GY, Qualset CO (1993) Allelic diversity of high-molecular-weight glutenin protein subunits in natural populations of Dasypyrum villosum (L.) Candargy. Theor Appl Genet 86:851–858
Zhong SB, Zhang DY, Li HB, Yao JX (1996) Identification of Haynaldia villosa chromosomes added to wheat using a sequential C-banding and genomic in situ hybridization technique. Theor Appl Genet 92:116–120
Zhou A, Xia G (2005) Introgression of the Haynaldia villosa genome into γ-ray-induced asymmetric somatic hybrids of wheat. Plant Cell Rep 24:289–296
Zhou A, Xia G, Zhang X, Chen H, Hu H (2001) Analysis of chromosomal and organellar DNA of somatic hybrids between Triticum aestivum and Haynaldia villosa Schur. Mol Genet Genom 265:387–393
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Grądzielewska, A. The genus Dasypyrum—part 2. Dasypyrum villosum—a wild species used in wheat improvement. Euphytica 152, 441–454 (2006). https://doi.org/10.1007/s10681-006-9245-x
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10681-006-9245-x