Utilisation of Aegilops (goatgrass) species to widen the genetic diversity of cultivated wheat
Wild Aegilops species related to cultivated wheat ( Triticum spp.) possess numerous genes of agronomic interest and can be valuable sources of resistance to diseases, pests and extreme environmental factors. These genes can be incorporated into the wheat genome via intergeneric crossing, following,...
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| Vydáno v: | Euphytica Ročník 163; číslo 1; s. 1 - 19 |
|---|---|
| Hlavní autoři: | , , |
| Médium: | Journal Article |
| Jazyk: | angličtina |
| Vydáno: |
Dordrecht
Springer Netherlands
01.09.2008
Springer Springer Nature B.V |
| Témata: | |
| ISSN: | 0014-2336, 1573-5060 |
| On-line přístup: | Získat plný text |
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| Abstract | Wild
Aegilops
species related to cultivated wheat (
Triticum
spp.) possess numerous genes of agronomic interest and can be valuable sources of resistance to diseases, pests and extreme environmental factors. These genes can be incorporated into the wheat genome via intergeneric crossing, following, where necessary, the development of chromosome addition and substitution lines from the resulting hybrids. The transfer of a single segment from an alien chromosome can be achieved by translocations. The
Aegilops
(goatgrass) species, which are the most closely related to wheat, exhibit great genetic diversity, the exploitation of which has been the subject of experimentation for more than a century. The present paper gives a survey of the results achieved to date in the field of wheat–
Aegilops
hybridisation and gene transfer. The
Aegilops
genus consists of 11 diploid, 10 tetraploid and 2 hexaploid species. Of these 23
Aegilops
species, most of the diploids (
Ae. umbellulata
Zhuk.,
Ae. mutica
Boiss.,
Ae. bicornis
(Forssk.) Jaub. & Spach,
Ae. searsii
Feldman & Kislev ex Hammer,
Ae. caudata
L.,
Ae. sharonensis
Eig,
Ae. speltoides
Tausch,
Ae. longissima
Schweinf. & Muschl.) and several polyploids (
Ae. ventricosa
Tausch,
Ae. peregrina
(Hack. In J. Fraser) Marie & Weiller,
Ae. geniculata
Roth,
Ae. kotschyi
Boiss.,
Ae. biuncialis
L.) have been used to develop wheat–
Aegilops
addition lines. Wheat–
Aegilops
substitution lines were developed using several species, including
Ae. umbellulata
,
Ae. caudata
,
Ae. tauschii
,
Ae. speltoides
,
Ae. sharonensis
,
Ae. longissima
and
Ae. geniculata
. Translocations carrying genes responsible for useful agronomic traits were developed with
Ae. umbellulata
,
Ae. comosa
,
Ae. ventricosa
,
Ae. longissima
,
Ae. speltoides
and
Ae. geniculata
. A large number of genes were transferred from
Aegilops
species to cultivated wheat, including those for resistance to leaf rust, stem rust, yellow rust and powdery mildew, and various pests (cereal cyst nematode, root knot nematode, Hessian fly, greenbug). Many molecular markers are linked to these resistance genes. The development of new molecular markers is also underway. There are still many untapped genetic resources in
Aegilops
species that could be used as resistance sources for plant breeding. |
|---|---|
| AbstractList | Wild Aegilops species related to cultivated wheat (Triticum spp.) possess numerous genes of agronomic interest and can be valuable sources of resistance to diseases, pests and extreme environmental factors. These genes can be incorporated into the wheat genome via intergeneric crossing, following, where necessary, the development of chromosome addition and substitution lines from the resulting hybrids. The transfer of a single segment from an alien chromosome can be achieved by translocations. The Aegilops (goatgrass) species, which are the most closely related to wheat, exhibit great genetic diversity, the exploitation of which has been the subject of experimentation for more than a century. The present paper gives a survey of the results achieved to date in the field of wheat-Aegilops hybridisation and gene transfer. The Aegilops genus consists of 11 diploid, 10 tetraploid and 2 hexaploid species. Of these 23 Aegilops species, most of the diploids (Ae. umbellulata Zhuk., Ae. mutica Boiss., Ae. bicornis (Forssk.) Jaub. & Spach, Ae. searsii Feldman & Kislev ex Hammer, Ae. caudata L., Ae. sharonensis Eig, Ae. speltoides Tausch, Ae. longissima Schweinf. & Muschl.) and several polyploids (Ae. ventricosa Tausch, Ae. peregrina (Hack. In J. Fraser) Marie & Weiller, Ae. geniculata Roth, Ae. kotschyi Boiss., Ae. biuncialis L.) have been used to develop wheat-Aegilops addition lines. Wheat-Aegilops substitution lines were developed using several species, including Ae. umbellulata, Ae. caudata, Ae. tauschii, Ae. speltoides, Ae. sharonensis, Ae. longissima and Ae. geniculata. Translocations carrying genes responsible for useful agronomic traits were developed with Ae. umbellulata, Ae. comosa, Ae. ventricosa, Ae. longissima, Ae. speltoides and Ae. geniculata. A large number of genes were transferred from Aegilops species to cultivated wheat, including those for resistance to leaf rust, stem rust, yellow rust and powdery mildew, and various pests (cereal cyst nematode, root knot nematode, Hessian fly, greenbug). Many molecular markers are linked to these resistance genes. The development of new molecular markers is also underway. There are still many untapped genetic resources in Aegilops species that could be used as resistance sources for plant breeding. Wild Aegilops species related to cultivated wheat (Triticum spp.) possess numerous genes of agronomic interest and can be valuable sources of resistance to diseases, pests and extreme environmental factors. These genes can be incorporated into the wheat genome via intergeneric crossing, following, where necessary, the development of chromosome addition and substitution lines from the resulting hybrids. The transfer of a single segment from an alien chromosome can be achieved by translocations. The Aegilops (goatgrass) species, which are the most closely related to wheat, exhibit great genetic diversity, the exploitation of which has been the subject of experimentation for more than a century. The present paper gives a survey of the results achieved to date in the field of wheat-Aegilops hybridisation and gene transfer. The Aegilops genus consists of 11 diploid, 10 tetraploid and 2 hexaploid species. Of these 23 Aegilops species, most of the diploids (Ae. umbellulata Zhuk., Ae. mutica Boiss., Ae. bicornis (Forssk.) Jaub. & Spach, Ae. searsii Feldman & Kislev ex Hammer, Ae. caudata L., Ae. sharonensis Eig, Ae. speltoides Tausch, Ae. longissima Schweinf. & Muschl.) and several polyploids (Ae. ventricosa Tausch, Ae. peregrina (Hack. In J. Fraser) Marie & Weiller, Ae. geniculata Roth, Ae. kotschyi Boiss., Ae. biuncialis L.) have been used to develop wheat-Aegilops addition lines. Wheat-Aegilops substitution lines were developed using several species, including Ae. umbellulata, Ae. caudata, Ae. tauschii, Ae. speltoides, Ae. sharonensis, Ae. longissima and Ae. geniculata. Translocations carrying genes responsible for useful agronomic traits were developed with Ae. umbellulata, Ae. comosa, Ae. ventricosa, Ae. longissima, Ae. speltoides and Ae. geniculata. A large number of genes were transferred from Aegilops species to cultivated wheat, including those for resistance to leaf rust, stem rust, yellow rust and powdery mildew, and various pests (cereal cyst nematode, root knot nematode, Hessian fly, greenbug). Many molecular markers are linked to these resistance genes. The development of new molecular markers is also underway. There are still many untapped genetic resources in Aegilops species that could be used as resistance sources for plant breeding. (PUBLICATION ABSTRACT) Wild Aegilops species related to cultivated wheat ( Triticum spp.) possess numerous genes of agronomic interest and can be valuable sources of resistance to diseases, pests and extreme environmental factors. These genes can be incorporated into the wheat genome via intergeneric crossing, following, where necessary, the development of chromosome addition and substitution lines from the resulting hybrids. The transfer of a single segment from an alien chromosome can be achieved by translocations. The Aegilops (goatgrass) species, which are the most closely related to wheat, exhibit great genetic diversity, the exploitation of which has been the subject of experimentation for more than a century. The present paper gives a survey of the results achieved to date in the field of wheat– Aegilops hybridisation and gene transfer. The Aegilops genus consists of 11 diploid, 10 tetraploid and 2 hexaploid species. Of these 23 Aegilops species, most of the diploids ( Ae. umbellulata Zhuk., Ae. mutica Boiss., Ae. bicornis (Forssk.) Jaub. & Spach, Ae. searsii Feldman & Kislev ex Hammer, Ae. caudata L., Ae. sharonensis Eig, Ae. speltoides Tausch, Ae. longissima Schweinf. & Muschl.) and several polyploids ( Ae. ventricosa Tausch, Ae. peregrina (Hack. In J. Fraser) Marie & Weiller, Ae. geniculata Roth, Ae. kotschyi Boiss., Ae. biuncialis L.) have been used to develop wheat– Aegilops addition lines. Wheat– Aegilops substitution lines were developed using several species, including Ae. umbellulata , Ae. caudata , Ae. tauschii , Ae. speltoides , Ae. sharonensis , Ae. longissima and Ae. geniculata . Translocations carrying genes responsible for useful agronomic traits were developed with Ae. umbellulata , Ae. comosa , Ae. ventricosa , Ae. longissima , Ae. speltoides and Ae. geniculata . A large number of genes were transferred from Aegilops species to cultivated wheat, including those for resistance to leaf rust, stem rust, yellow rust and powdery mildew, and various pests (cereal cyst nematode, root knot nematode, Hessian fly, greenbug). Many molecular markers are linked to these resistance genes. The development of new molecular markers is also underway. There are still many untapped genetic resources in Aegilops species that could be used as resistance sources for plant breeding. |
| Author | Schneider, Annamária Molnár-Láng, Márta Molnár, István |
| Author_xml | – sequence: 1 givenname: Annamária surname: Schneider fullname: Schneider, Annamária organization: Agricultural Research Institute of the Hungarian Academy of Sciences – sequence: 2 givenname: István surname: Molnár fullname: Molnár, István organization: Agricultural Research Institute of the Hungarian Academy of Sciences – sequence: 3 givenname: Márta surname: Molnár-Láng fullname: Molnár-Láng, Márta email: molnarm@mail.mgki.hu organization: Agricultural Research Institute of the Hungarian Academy of Sciences |
| BackLink | http://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=20535043$$DView record in Pascal Francis |
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| CODEN | EUPHAA |
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| ContentType | Journal Article |
| Copyright | Springer Science+Business Media B.V. 2007 2008 INIST-CNRS Springer Science+Business Media B.V. 2008 |
| Copyright_xml | – notice: Springer Science+Business Media B.V. 2007 – notice: 2008 INIST-CNRS – notice: Springer Science+Business Media B.V. 2008 |
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| DOI | 10.1007/s10681-007-9624-y |
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| Keywords | Translocation lines Molecular markers Intergeneric hybrids Substitution lines Addition lines Wheat Monocotyledones Addition line Intergeneric hybrids- Addition lines, Substitution lines, Translocation lines Intergeneric hybridization Translocation line Genetic diversity Molecular marker Substitution line Triticum Aegilops Gramineae Angiospermae Genetic improvement Herbaceous plant Spermatophyta |
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| PublicationSubtitle | International Journal of Plant Breeding |
| PublicationTitle | Euphytica |
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| PublicationYear | 2008 |
| Publisher | Springer Netherlands Springer Springer Nature B.V |
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48 G Doussinault (9624_CR44) 1983; 303 RA McIntosh (9624_CR130) 1988 R Riley (9624_CR162) 1968; 12 RMD Koebner (9624_CR111) 1987; 59 J Dvorak (9624_CR52) 1990; 33 CJ Driscoll (9624_CR47) 1975; 21 S Seah (9624_CR174) 2001; 102 H Kihara (9624_CR107) 1954; 19 V Schubert (9624_CR173) 1995 D Barloy (9624_CR9) 2000; 118 ES McFadden (9624_CR127) 1930; 22 L Zhu (9624_CR204) 2004; 109 L Huang (9624_CR91) 2001; 103 G Leighty (9624_CR115) 1927; 3 P Donini (9624_CR42) 1995; 91 A Delibes (9624_CR35) 1993; 87 Y Vikal (9624_CR194) 2004; 13 S Chao (9624_CR23) 1989; 78 9624_CR10 KW Shepherd (9624_CR182) 1988 BS Gill (9624_CR76) 1974; 71 RA McIntosh (9624_CR132) 2003 ME Pietro (9624_CR152) 1988 PL Dyck (9624_CR53) 1970; 12 T Lelley (9624_CR117) 2000; 43 SLK Hsam (9624_CR90) 2003; 133 CM Smith (9624_CR185) 2003; 96 TE Miller (9624_CR135) 1982; 61 A Delibes (9624_CR34) 1981; 60 L Stepien (9624_CR187) 2001; 42 TR Endo (9624_CR56) 1996; 71 H Ozkan (9624_CR149) 2001; 44 A Bonhomme (9624_CR14) 1995; 90 R Riley (9624_CR161) 1966; 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| Snippet | Wild
Aegilops
species related to cultivated wheat (
Triticum
spp.) possess numerous genes of agronomic interest and can be valuable sources of resistance to... Wild Aegilops species related to cultivated wheat (Triticum spp.) possess numerous genes of agronomic interest and can be valuable sources of resistance to... |
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| SubjectTerms | Aegilops agronomic traits Agronomy. Soil science and plant productions Airborne microorganisms Biodiversity Biological and medical sciences Biomedical and Life Sciences Biotechnology Caudata Cereals Chromosome translocations Cultivation Cysts Diploids disease resistance Environmental factors Fundamental and applied biological sciences. Psychology Generalities. Genetics. Plant material Genes Genetic diversity Genetic engineering genetic improvement genetic markers Genetic resources Genetic resources, diversity Genetics Genetics and breeding of economic plants Genomes Grain cultivation Hybrids intergeneric hybridization Interspecific and intergeneric hybridization, introgressions Leaf rust Life Sciences Nematoda pest resistance Pests Plant breeding Plant breeding: fundamental aspects and methodology Plant Genetics and Genomics Plant material Plant Pathology Plant Physiology Plant Sciences Polyploidy Powdery mildew Review root knot Stem rust Stripe rust Studies substitution lines translocation lines Triticum Triticum aestivum Wheat |
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| Title | Utilisation of Aegilops (goatgrass) species to widen the genetic diversity of cultivated wheat |
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