Resistance to potato virus Y in potato

Julkaisun otsikon käännös: Perunan kestävyys Y-virusta vastaan

Jari Pekka Tapani Valkonen, Christiane Gebhardt, Ewa Zimnoch-Guzowska, Kazuo Watanabe

Tutkimustuotos: Artikkeli kirjassa/raportissa/konferenssijulkaisussaKirjan luku tai artikkeliTieteellinenvertaisarvioitu

Kuvaus

Growing potato cultivars resistant to potato virus Y (PVY) offers the easiest and the most cost-effective solution to prevent the losses caused by PVY. Genes for resistance to PVY can be found in wild and cultivated potato species. Resistance genes functioning on the “gene-for-gene” basis are commonly used in breeding for resistance to PVY, because of their dominant and simple inheritance. Ten genes for resistance to PVY have been mapped to four potato genome segments on chromosomes IV, IX, XI and XII. Genes for hypersensitive resistance (HR) are usually PVY strain-specific, whereas the genes for extreme resistance (ER) are effective against a broad spectrum of PVY strains. The need for broadspectrum
resistance to PVY has been widely realized since the turn of the millennium when new PVY strains able to overcome strain-specific resistance to the common PVY strains became prevalent in potato crops worldwide. Field resistance to PVY is widely present in potato cultivars and based almost exclusively on minor genes contributing small effects. Marker-assisted selection provides an efficient
approach for the selection of traits governed by major genes or quantitative trait loci (QTLs) with large effects. Genetically engineered resistance based on RNA silencing, the basal antiviral defense system of plants, is another option to protect potatoes against PVY.
Alkuperäiskielienglanti
OtsikkoPotato virus Y: biodiversity, pathogenicity, epidemiology and management
ToimittajatChristophe Lacomme, Laurent Glais, Dirk U. Bellstedt, Brice Dupuis, Alexander V. Karasev, Emmanuel Jacquot
Sivumäärä34
JulkaisupaikkaCham
KustantajaSpringer
Julkaisupäivä2017
Sivut207-241
ISBN (painettu)978-3-319-58858-2
ISBN (elektroninen)978-3-319-58860-5
DOI - pysyväislinkit
TilaJulkaistu - 2017
OKM-julkaisutyyppiA3 Kirjan tai muun kokoomateoksen osa

Tieteenalat

  • 1183 Kasvibiologia, mikrobiologia, virologia
  • 414 Maatalouden bioteknologia

Lainaa tätä

Valkonen, J. P. T., Gebhardt, C., Zimnoch-Guzowska, E., & Watanabe, K. (2017). Resistance to potato virus Y in potato. teoksessa C. Lacomme, L. Glais, D. U. Bellstedt, B. Dupuis, A. V. Karasev, & E. Jacquot (Toimittajat), Potato virus Y: biodiversity, pathogenicity, epidemiology and management (Sivut 207-241). Cham: Springer. https://doi.org/10.1007/978-3-319-58860-5_8
Valkonen, Jari Pekka Tapani ; Gebhardt, Christiane ; Zimnoch-Guzowska, Ewa ; Watanabe, Kazuo. / Resistance to potato virus Y in potato. Potato virus Y: biodiversity, pathogenicity, epidemiology and management. Toimittaja / Christophe Lacomme ; Laurent Glais ; Dirk U. Bellstedt ; Brice Dupuis ; Alexander V. Karasev ; Emmanuel Jacquot. Cham : Springer, 2017. Sivut 207-241
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title = "Resistance to potato virus Y in potato",
abstract = "Growing potato cultivars resistant to potato virus Y (PVY) offers the easiest and the most cost-effective solution to prevent the losses caused by PVY. Genes for resistance to PVY can be found in wild and cultivated potato species. Resistance genes functioning on the “gene-for-gene” basis are commonly used in breeding for resistance to PVY, because of their dominant and simple inheritance. Ten genes for resistance to PVY have been mapped to four potato genome segments on chromosomes IV, IX, XI and XII. Genes for hypersensitive resistance (HR) are usually PVY strain-specific, whereas the genes for extreme resistance (ER) are effective against a broad spectrum of PVY strains. The need for broadspectrumresistance to PVY has been widely realized since the turn of the millennium when new PVY strains able to overcome strain-specific resistance to the common PVY strains became prevalent in potato crops worldwide. Field resistance to PVY is widely present in potato cultivars and based almost exclusively on minor genes contributing small effects. Marker-assisted selection provides an efficientapproach for the selection of traits governed by major genes or quantitative trait loci (QTLs) with large effects. Genetically engineered resistance based on RNA silencing, the basal antiviral defense system of plants, is another option to protect potatoes against PVY.",
keywords = "1183 Plant biology, microbiology, virology, 414 Agricultural biotechnology",
author = "Valkonen, {Jari Pekka Tapani} and Christiane Gebhardt and Ewa Zimnoch-Guzowska and Kazuo Watanabe",
year = "2017",
doi = "10.1007/978-3-319-58860-5_8",
language = "English",
isbn = "978-3-319-58858-2",
pages = "207--241",
editor = "Christophe Lacomme and Laurent Glais and Bellstedt, {Dirk U.} and Brice Dupuis and Karasev, {Alexander V. } and Emmanuel Jacquot",
booktitle = "Potato virus Y: biodiversity, pathogenicity, epidemiology and management",
publisher = "Springer",
address = "Switzerland",

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Valkonen, JPT, Gebhardt, C, Zimnoch-Guzowska, E & Watanabe, K 2017, Resistance to potato virus Y in potato. julkaisussa C Lacomme, L Glais, DU Bellstedt, B Dupuis, AV Karasev & E Jacquot (toim), Potato virus Y: biodiversity, pathogenicity, epidemiology and management. Springer, Cham, Sivut 207-241. https://doi.org/10.1007/978-3-319-58860-5_8

Resistance to potato virus Y in potato. / Valkonen, Jari Pekka Tapani; Gebhardt, Christiane; Zimnoch-Guzowska, Ewa; Watanabe, Kazuo.

Potato virus Y: biodiversity, pathogenicity, epidemiology and management. toim. / Christophe Lacomme; Laurent Glais; Dirk U. Bellstedt; Brice Dupuis; Alexander V. Karasev; Emmanuel Jacquot. Cham : Springer, 2017. s. 207-241.

Tutkimustuotos: Artikkeli kirjassa/raportissa/konferenssijulkaisussaKirjan luku tai artikkeliTieteellinenvertaisarvioitu

TY - CHAP

T1 - Resistance to potato virus Y in potato

AU - Valkonen, Jari Pekka Tapani

AU - Gebhardt, Christiane

AU - Zimnoch-Guzowska, Ewa

AU - Watanabe, Kazuo

PY - 2017

Y1 - 2017

N2 - Growing potato cultivars resistant to potato virus Y (PVY) offers the easiest and the most cost-effective solution to prevent the losses caused by PVY. Genes for resistance to PVY can be found in wild and cultivated potato species. Resistance genes functioning on the “gene-for-gene” basis are commonly used in breeding for resistance to PVY, because of their dominant and simple inheritance. Ten genes for resistance to PVY have been mapped to four potato genome segments on chromosomes IV, IX, XI and XII. Genes for hypersensitive resistance (HR) are usually PVY strain-specific, whereas the genes for extreme resistance (ER) are effective against a broad spectrum of PVY strains. The need for broadspectrumresistance to PVY has been widely realized since the turn of the millennium when new PVY strains able to overcome strain-specific resistance to the common PVY strains became prevalent in potato crops worldwide. Field resistance to PVY is widely present in potato cultivars and based almost exclusively on minor genes contributing small effects. Marker-assisted selection provides an efficientapproach for the selection of traits governed by major genes or quantitative trait loci (QTLs) with large effects. Genetically engineered resistance based on RNA silencing, the basal antiviral defense system of plants, is another option to protect potatoes against PVY.

AB - Growing potato cultivars resistant to potato virus Y (PVY) offers the easiest and the most cost-effective solution to prevent the losses caused by PVY. Genes for resistance to PVY can be found in wild and cultivated potato species. Resistance genes functioning on the “gene-for-gene” basis are commonly used in breeding for resistance to PVY, because of their dominant and simple inheritance. Ten genes for resistance to PVY have been mapped to four potato genome segments on chromosomes IV, IX, XI and XII. Genes for hypersensitive resistance (HR) are usually PVY strain-specific, whereas the genes for extreme resistance (ER) are effective against a broad spectrum of PVY strains. The need for broadspectrumresistance to PVY has been widely realized since the turn of the millennium when new PVY strains able to overcome strain-specific resistance to the common PVY strains became prevalent in potato crops worldwide. Field resistance to PVY is widely present in potato cultivars and based almost exclusively on minor genes contributing small effects. Marker-assisted selection provides an efficientapproach for the selection of traits governed by major genes or quantitative trait loci (QTLs) with large effects. Genetically engineered resistance based on RNA silencing, the basal antiviral defense system of plants, is another option to protect potatoes against PVY.

KW - 1183 Plant biology, microbiology, virology

KW - 414 Agricultural biotechnology

U2 - 10.1007/978-3-319-58860-5_8

DO - 10.1007/978-3-319-58860-5_8

M3 - Chapter

SN - 978-3-319-58858-2

SP - 207

EP - 241

BT - Potato virus Y: biodiversity, pathogenicity, epidemiology and management

A2 - Lacomme, Christophe

A2 - Glais, Laurent

A2 - Bellstedt, Dirk U.

A2 - Dupuis, Brice

A2 - Karasev, Alexander V.

A2 - Jacquot, Emmanuel

PB - Springer

CY - Cham

ER -

Valkonen JPT, Gebhardt C, Zimnoch-Guzowska E, Watanabe K. Resistance to potato virus Y in potato. julkaisussa Lacomme C, Glais L, Bellstedt DU, Dupuis B, Karasev AV, Jacquot E, toimittajat, Potato virus Y: biodiversity, pathogenicity, epidemiology and management. Cham: Springer. 2017. s. 207-241 https://doi.org/10.1007/978-3-319-58860-5_8