Rice is the most salt sensitive cereal crop and its cultivation is particularly threatened by salt stress, which is currently worsened due to climate change. This study reports the development of salt tolerant introgression lines (ILs) derived from crosses between the salt tolerant indica rice variety FL478, which harbors the Saltol quantitative trait loci (QTL), and the salt-sensitive japonica elite cultivar OLESA. Genotyping-by-sequencing (GBS) and Kompetitive allele specific PCR (KASPar) genotyping, in combination with step-wise phenotypic selection in hydroponic culture, were used for the identification of salt-tolerant ILs. Transcriptome-based genotyping allowed the fine mapping of indica genetic introgressions in the best performing IL (IL22). A total of 1,595 genes were identified in indica regions of IL22, which mainly located in large introgressions at Chromosomes 1 and 3. In addition to OsHKT1;5, an important number of genes were identified in the introgressed indica segments of IL22 whose expression was confirmed [e.g., genes involved in ion transport, callose synthesis, transcriptional regulation of gene expression, hormone signaling and reactive oxygen species (ROS) accumulation]. These genes might well contribute to salt stress tolerance in IL22 plants. Furthermore, comparative transcript profiling revealed that indica introgressions caused important alterations in the background gene expression of IL22 plants (japonica cultivar) compared with its salt-sensitive parent, both under non-stress and salt-stress conditions. In response to salt treatment, only 8.6% of the salt-responsive genes were found to be commonly up- or down-regulated in IL22 and OLESA plants, supporting massive transcriptional reprogramming of gene expression caused by indica introgressions into the recipient genome. Interactions among indica and japonica genes might provide novel regulatory networks contributing to salt stress tolerance in introgression rice lines. Collectively, this study illustrates the usefulness of transcriptomics in the characterization of new rice lines obtained in breeding programs in rice.

Integrative approach for precise genotyping and transcriptomics of salt tolerant introgression rice lines / M. Bundo, H. Martin-Cardoso, M. Pesenti, J. Gomez-Ariza, L. Castillo, J. Frouin, X. Serrat, S. Nogues, B. Courtois, C. Grenier, G.A. Sacchi, B. San Segundo. - In: FRONTIERS IN PLANT SCIENCE. - ISSN 1664-462X. - 12:(2022 Jan 21), pp. 797141.1-797141.20. [10.3389/fpls.2021.797141]

Integrative approach for precise genotyping and transcriptomics of salt tolerant introgression rice lines

M. Pesenti;G.A. Sacchi
Penultimo
;
2022

Abstract

Rice is the most salt sensitive cereal crop and its cultivation is particularly threatened by salt stress, which is currently worsened due to climate change. This study reports the development of salt tolerant introgression lines (ILs) derived from crosses between the salt tolerant indica rice variety FL478, which harbors the Saltol quantitative trait loci (QTL), and the salt-sensitive japonica elite cultivar OLESA. Genotyping-by-sequencing (GBS) and Kompetitive allele specific PCR (KASPar) genotyping, in combination with step-wise phenotypic selection in hydroponic culture, were used for the identification of salt-tolerant ILs. Transcriptome-based genotyping allowed the fine mapping of indica genetic introgressions in the best performing IL (IL22). A total of 1,595 genes were identified in indica regions of IL22, which mainly located in large introgressions at Chromosomes 1 and 3. In addition to OsHKT1;5, an important number of genes were identified in the introgressed indica segments of IL22 whose expression was confirmed [e.g., genes involved in ion transport, callose synthesis, transcriptional regulation of gene expression, hormone signaling and reactive oxygen species (ROS) accumulation]. These genes might well contribute to salt stress tolerance in IL22 plants. Furthermore, comparative transcript profiling revealed that indica introgressions caused important alterations in the background gene expression of IL22 plants (japonica cultivar) compared with its salt-sensitive parent, both under non-stress and salt-stress conditions. In response to salt treatment, only 8.6% of the salt-responsive genes were found to be commonly up- or down-regulated in IL22 and OLESA plants, supporting massive transcriptional reprogramming of gene expression caused by indica introgressions into the recipient genome. Interactions among indica and japonica genes might provide novel regulatory networks contributing to salt stress tolerance in introgression rice lines. Collectively, this study illustrates the usefulness of transcriptomics in the characterization of new rice lines obtained in breeding programs in rice.
English
genotyping by sequencing (GBS); indica and japonica; introgression lines (ILs); Oryza sativa (L.); salinity stress; saltol; transcriptomics
Settore AGR/13 - Chimica Agraria
Articolo
Esperti anonimi
Ricerca di base
Pubblicazione scientifica
   New commercial EUropean RICE (Oryza sativa) harbouring salt tolerance alleles to protect the rice sector against climate change and apple snail (Pomacea insularum) invasion
   NEURICE
   EUROPEAN COMMISSION
   H2020
   678168
21-gen-2022
Frontiers Media
12
797141
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20
20
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Periodico con rilevanza internazionale
scopus
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info:eu-repo/semantics/article
Integrative approach for precise genotyping and transcriptomics of salt tolerant introgression rice lines / M. Bundo, H. Martin-Cardoso, M. Pesenti, J. Gomez-Ariza, L. Castillo, J. Frouin, X. Serrat, S. Nogues, B. Courtois, C. Grenier, G.A. Sacchi, B. San Segundo. - In: FRONTIERS IN PLANT SCIENCE. - ISSN 1664-462X. - 12:(2022 Jan 21), pp. 797141.1-797141.20. [10.3389/fpls.2021.797141]
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M. Bundo, H. Martin-Cardoso, M. Pesenti, J. Gomez-Ariza, L. Castillo, J. Frouin, X. Serrat, S. Nogues, B. Courtois, C. Grenier, G.A. Sacchi, B. San Se...espandi
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/906982
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