Characterization and Evaluation of Transgenic Rice Pyramided with the Pi Genes Pib, Pi25 and Pi54
Background Emergence of new pathogen strains of Magnaporthe oryzae is a major reason for recurrent failure of the resistance mediated by a single resistance gene ( Pi ) in rice. Stacking various Pi genes in the genome through marker-assisted selection is thus an effective strategy in rice breeding f...
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| Published in: | Rice (New York, N.Y.) Vol. 14; no. 1; p. 78 |
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| Main Authors: | , , , , , |
| Format: | Journal Article |
| Language: | English |
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| Abstract | Background
Emergence of new pathogen strains of
Magnaporthe oryzae
is a major reason for recurrent failure of the resistance mediated by a single resistance gene (
Pi
) in rice. Stacking various
Pi
genes in the genome through marker-assisted selection is thus an effective strategy in rice breeding for achieving durable resistance against the pathogen. However, the effect of pyramiding of multiple
Pi
genes using transgenesis still remains largely unknown.
Results
Three
Pi
genes
Pib
,
Pi25
and
Pi54
were transferred together into two rice varieties, the
indica
variety Kasalath and the
japonica
variety Zhenghan 10. Transgenic plants of both Kasalath and Zhenghan 10 expressing the
Pi
transgenes showed imparted pathogen resistance. All the transgenic lines of both cultivars also exhibited shorter growth periods with flowering 2–4 days early, and shorter plant heights with smaller panicle. Thus, pyramiding of the
Pi
genes resulted in reduced grain yields in both rice cultivars. However, tiller numbers and grain weight were generally similar between the pyramided lines and corresponding parents. A global analysis of gene expression by RNA-Seq suggested that both enhancement and, to a lesser extent, inhibition of gene transcription occurred in the pyramided plants. A total of 264 and 544 differentially expressed genes (DEGs) were identified in Kasalath and Zhenghan 10, respectively. Analysis of the DEGs suggested that presence of the
Pi
transgenes did not alter gene expression only related to disease resistance, but also impacted many gene transcriptions in the pathways for plant growth and development, in which several were common for both Kasalath and Zhenghan 10.
Conclusion
Pyramiding of the
Pi
genes
Pib
,
Pi25
and
Pi54
via transgenesis is a potentially promising approach for improving rice resistance to the pathogen
Magnaporthe oryzae
. However, pleiotropic effects of the
Pi
genes could potentially result in yield loss. These findings support the idea that immunity is often associated with yield penalties. Rational combination of the
Pi
genes based on the genetic background may be important to balance yield and disease resistance. |
|---|---|
| AbstractList | Background
Emergence of new pathogen strains of
Magnaporthe oryzae
is a major reason for recurrent failure of the resistance mediated by a single resistance gene (
Pi
) in rice. Stacking various
Pi
genes in the genome through marker-assisted selection is thus an effective strategy in rice breeding for achieving durable resistance against the pathogen. However, the effect of pyramiding of multiple
Pi
genes using transgenesis still remains largely unknown.
Results
Three
Pi
genes
Pib
,
Pi25
and
Pi54
were transferred together into two rice varieties, the
indica
variety Kasalath and the
japonica
variety Zhenghan 10. Transgenic plants of both Kasalath and Zhenghan 10 expressing the
Pi
transgenes showed imparted pathogen resistance. All the transgenic lines of both cultivars also exhibited shorter growth periods with flowering 2–4 days early, and shorter plant heights with smaller panicle. Thus, pyramiding of the
Pi
genes resulted in reduced grain yields in both rice cultivars. However, tiller numbers and grain weight were generally similar between the pyramided lines and corresponding parents. A global analysis of gene expression by RNA-Seq suggested that both enhancement and, to a lesser extent, inhibition of gene transcription occurred in the pyramided plants. A total of 264 and 544 differentially expressed genes (DEGs) were identified in Kasalath and Zhenghan 10, respectively. Analysis of the DEGs suggested that presence of the
Pi
transgenes did not alter gene expression only related to disease resistance, but also impacted many gene transcriptions in the pathways for plant growth and development, in which several were common for both Kasalath and Zhenghan 10.
Conclusion
Pyramiding of the
Pi
genes
Pib
,
Pi25
and
Pi54
via transgenesis is a potentially promising approach for improving rice resistance to the pathogen
Magnaporthe oryzae
. However, pleiotropic effects of the
Pi
genes could potentially result in yield loss. These findings support the idea that immunity is often associated with yield penalties. Rational combination of the
Pi
genes based on the genetic background may be important to balance yield and disease resistance. BACKGROUNDEmergence of new pathogen strains of Magnaporthe oryzae is a major reason for recurrent failure of the resistance mediated by a single resistance gene (Pi) in rice. Stacking various Pi genes in the genome through marker-assisted selection is thus an effective strategy in rice breeding for achieving durable resistance against the pathogen. However, the effect of pyramiding of multiple Pi genes using transgenesis still remains largely unknown. RESULTSThree Pi genes Pib, Pi25 and Pi54 were transferred together into two rice varieties, the indica variety Kasalath and the japonica variety Zhenghan 10. Transgenic plants of both Kasalath and Zhenghan 10 expressing the Pi transgenes showed imparted pathogen resistance. All the transgenic lines of both cultivars also exhibited shorter growth periods with flowering 2-4 days early, and shorter plant heights with smaller panicle. Thus, pyramiding of the Pi genes resulted in reduced grain yields in both rice cultivars. However, tiller numbers and grain weight were generally similar between the pyramided lines and corresponding parents. A global analysis of gene expression by RNA-Seq suggested that both enhancement and, to a lesser extent, inhibition of gene transcription occurred in the pyramided plants. A total of 264 and 544 differentially expressed genes (DEGs) were identified in Kasalath and Zhenghan 10, respectively. Analysis of the DEGs suggested that presence of the Pi transgenes did not alter gene expression only related to disease resistance, but also impacted many gene transcriptions in the pathways for plant growth and development, in which several were common for both Kasalath and Zhenghan 10. CONCLUSIONPyramiding of the Pi genes Pib, Pi25 and Pi54 via transgenesis is a potentially promising approach for improving rice resistance to the pathogen Magnaporthe oryzae. However, pleiotropic effects of the Pi genes could potentially result in yield loss. These findings support the idea that immunity is often associated with yield penalties. Rational combination of the Pi genes based on the genetic background may be important to balance yield and disease resistance. Abstract Background Emergence of new pathogen strains of Magnaporthe oryzae is a major reason for recurrent failure of the resistance mediated by a single resistance gene (Pi) in rice. Stacking various Pi genes in the genome through marker-assisted selection is thus an effective strategy in rice breeding for achieving durable resistance against the pathogen. However, the effect of pyramiding of multiple Pi genes using transgenesis still remains largely unknown. Results Three Pi genes Pib, Pi25 and Pi54 were transferred together into two rice varieties, the indica variety Kasalath and the japonica variety Zhenghan 10. Transgenic plants of both Kasalath and Zhenghan 10 expressing the Pi transgenes showed imparted pathogen resistance. All the transgenic lines of both cultivars also exhibited shorter growth periods with flowering 2–4 days early, and shorter plant heights with smaller panicle. Thus, pyramiding of the Pi genes resulted in reduced grain yields in both rice cultivars. However, tiller numbers and grain weight were generally similar between the pyramided lines and corresponding parents. A global analysis of gene expression by RNA-Seq suggested that both enhancement and, to a lesser extent, inhibition of gene transcription occurred in the pyramided plants. A total of 264 and 544 differentially expressed genes (DEGs) were identified in Kasalath and Zhenghan 10, respectively. Analysis of the DEGs suggested that presence of the Pi transgenes did not alter gene expression only related to disease resistance, but also impacted many gene transcriptions in the pathways for plant growth and development, in which several were common for both Kasalath and Zhenghan 10. Conclusion Pyramiding of the Pi genes Pib, Pi25 and Pi54 via transgenesis is a potentially promising approach for improving rice resistance to the pathogen Magnaporthe oryzae. However, pleiotropic effects of the Pi genes could potentially result in yield loss. These findings support the idea that immunity is often associated with yield penalties. Rational combination of the Pi genes based on the genetic background may be important to balance yield and disease resistance. |
| ArticleNumber | 78 |
| Author | Peng, Meifang Chen, Kegui Xiang, Xiaoli Lin, Xiaomin Ren, Huibo Fan, Xiaoli |
| Author_xml | – sequence: 1 givenname: Meifang surname: Peng fullname: Peng, Meifang organization: Institute of Biotechnology and Nuclear Technology, Sichuan Academy of Agricultural Sciences – sequence: 2 givenname: Xiaomin surname: Lin fullname: Lin, Xiaomin organization: Institute of Biotechnology and Nuclear Technology, Sichuan Academy of Agricultural Sciences – sequence: 3 givenname: Xiaoli surname: Xiang fullname: Xiang, Xiaoli organization: Institute of Biotechnology and Nuclear Technology, Sichuan Academy of Agricultural Sciences – sequence: 4 givenname: Huibo surname: Ren fullname: Ren, Huibo organization: Institute of Biotechnology and Nuclear Technology, Sichuan Academy of Agricultural Sciences – sequence: 5 givenname: Xiaoli surname: Fan fullname: Fan, Xiaoli organization: Institute of Biotechnology and Nuclear Technology, Sichuan Academy of Agricultural Sciences – sequence: 6 givenname: Kegui orcidid: 0000-0002-1791-7988 surname: Chen fullname: Chen, Kegui email: keguichen@yahoo.com organization: Institute of Biotechnology and Nuclear Technology, Sichuan Academy of Agricultural Sciences |
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| Keywords | Blast disease Gene pyramiding RNA-Seq Transgenesis Transcriptome |
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| Snippet | Background
Emergence of new pathogen strains of
Magnaporthe oryzae
is a major reason for recurrent failure of the resistance mediated by a single resistance... BackgroundEmergence of new pathogen strains of Magnaporthe oryzae is a major reason for recurrent failure of the resistance mediated by a single resistance... BACKGROUNDEmergence of new pathogen strains of Magnaporthe oryzae is a major reason for recurrent failure of the resistance mediated by a single resistance... Abstract Background Emergence of new pathogen strains of Magnaporthe oryzae is a major reason for recurrent failure of the resistance mediated by a single... |
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| SubjectTerms | Agriculture Biomedical and Life Sciences Blast disease Crop yield Cultivars Disease resistance Flowering Gene expression Genes Genomes Impact resistance Life Sciences Magnaporthe oryzae Marker-assisted selection Next Generation Rice Disease Research O. sativa Original Original Article Pathogens Pi25 Pi54 Pib Plant breeding Plant Breeding/Biotechnology Plant Ecology Plant Genetics and Genomics Plant growth Plant Sciences Rice Transcription Transgenes Transgenesis Transgenic plants |
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| Title | Characterization and Evaluation of Transgenic Rice Pyramided with the Pi Genes Pib, Pi25 and Pi54 |
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