Comparative Transcriptomic Profiling of a Salt-Tolerant Wild Tomato Species and a Salt-Sensitive Tomato Cultivar

Wild halophytic tomato has long been considered as an ideal gene donor for improving salt tolerance in tomato cultivars. Extensive research has been focused on physiological and quantitative trait locus (QTL) characterization of wild tomato species in comparison with cultivated tomato. However, the...

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Published in:Plant and cell physiology 2010-06, Vol.51 (6), p.997-1006
Main Authors: Sun, Wei, Xu, Xinna, Zhu, Huishan, Liu, Aihua, Liu, Lei, Li, Junming, Hua, Xuejun
Format: Article
Language:English
Subjects:
Comparative Genomic Hybridization
Gene Expression Profiling
Gene Expression Regulation, Plant
Genes, Plant
Ion homeostasis
Lycopersicon esculentum - genetics
Lycopersicon esculentum - physiology
Oligonucleotide Array Sequence Analysis
RNA, Plant - genetics
SABP2
Salt tolerance
Salt-Tolerant Plants - genetics
Salt-Tolerant Plants - physiology
Sodium Chloride - pharmacology
Stress, Physiological
Transcriptomic profiling
Wild tomato
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Summary:Wild halophytic tomato has long been considered as an ideal gene donor for improving salt tolerance in tomato cultivars. Extensive research has been focused on physiological and quantitative trait locus (QTL) characterization of wild tomato species in comparison with cultivated tomato. However, the global gene expression modification of wild tomato in response to salt stress is not well known. A wild tomato genotype, Solanum pimpinellifolium 'PI365967' is significantly more salt tolerant than the cultivar, Solanum lycopersicum 'Moneymaker', as evidenced by its higher survival rate and lower growth inhibition at the vegetative stage. The Affymetrix Tomato Genome Array containing 9,200 probe sets was used to compare the transcriptome of PI365967 and Moneymaker. After treatment with 200 mM NaCl for 5 h, PI365967 showed relatively fewer responsive genes compared with Moneymaker. The salt overly sensitive (SOS) pathway was found to be more active in PI365967 than in Moneymaker, coinciding with relatively less accumulation of Na⁺ in shoots of PI365967. A gene encoding salicylic acid-binding protein 2 (SABP2) was induced by salinity only in PI365967, suggesting a possible role for salicylic acid signaling in the salt response of PI365967. The fact that two genes encoding lactoylglutathione lyase were salt inducible only in PI365967, together with much higher basal expression of several glutathione S-transferase genes, suggested a more effective detoxification system in PI365967. The specific down-regulation in PI365967 of a putative high-affinity nitrate transporter, known as a repressor of lateral root initiation, may explain the better root growth of this genotype during salt stress.
ISSN:0032-0781
1471-9053
DOI:10.1093/pcp/pcq056