The glyoxalase system plays an important role in various physiological processes in plants, including salt stress tolerance. We report the effects of overexpressing glyoxalase I and glyoxalase II genes in transgenic tomato (Solanum lycopersicum Mill.) cv. Ailsa Craig. Stable expression of both transgenes was detected in the transformed tomato plants under salt stress. The transgenic lines overexpressing GlyI and GlyII under a high NaCl concentration (800 mM) showed reduced lipid peroxidation and the production of H2O2 in leaf tissues. A greater decrease in the chlorophyll a+b content in wild-type (WT) compared with transgenic lines was also observed. These results suggest that the over expression of two genes, GlyI and GlyII, may enhance salt stress tolerance by decreasing oxidative stress in transformed tomato plants. This work will help our understanding of the putative role of the glyoxalase system in the tolerance to abiotic stress in tomato plants.
This study reports the construction of high density linkage maps of Japanese plum (Prunus salicina Lindl.) using single nucleotide polymorphism markers (SNPs), obtained with a GBS strategy. The mapping population (An x Au) was obtained by crossing cv. “Angeleno” (An) as maternal line and cv. “Aurora” (Au) as the pollen donor. A total of 49,826 SNPs were identified using the peach genome V2.1 as a reference. Then a stringent filtering was carried out, which revealed 1,441 high quality SNPs in 137 An x Au offspring, which were mapped in eight linkage groups. Finally, the consensus map was built using 732 SNPs which spanned 617 cM with an average of 0.96 cM between adjacent markers. The majority of the SNPs were distributed in the intragenic region in all the linkage groups. Considering all linkage groups together, 85.6% of the SNPs were located in intragenic regions and only 14.4% were located in intergenic regions. The genetic linkage analysis was able to co-localize two to three SNPs over 37 putative orthologous genes in eight linkage groups in the Japanese plum map. These results indicate a high level of synteny and collinearity between Japanese plum and peach genomes.
Prunus salicina is one of the most economically important stone fruits. However, there is scarce genetic information available, which makes it difficult to implement marker-assisted selection (MAS) in genetic improvement programs. Recently, next-generation sequencing has greatly enhanced breeding program strategies, generating information associated with the identification of expressed sequence tag-simple sequence repeats (EST-SSRs) and single-nucleotide polymorphisms (SNPs), two of the most used molecular markers in MAS. Few studies have focused on developing EST-SSR markers considering both gene expression levels of contrasting phenotypes and specific transcription factors of metabolic pathways. This study investigated the transcriptome profile of P. salicina in fruits with contrasting skin colors, obtaining 54,224 unique contigs. From this dataset, 44 EST-SSRs have been generated, considering gene expression levels of contrasting phenotypes and specific transcription factor from three metabolic pathways: citric acid, carbohydrate metabolism and flavonoid pathways. Three EST-SSR markers developed from the putative flavonoid pathway transcription factors PsMYB10, PsMYB1 and PsbHLH35 were selected to determine genetic structure in 29 cultivars. This structure was contrasted with the genetic structure generated using genomic SNPs obtained by genotyping-by-sequencing (GBS). The analysis using SNPs identified two groups, while the use of selected EST-SSRs identified three. In contrast to the structure given by the SNPs, the EST-SSRs grouped all the yellow cultivars in one cluster, which was composed mainly of cultivars of this color. The EST-SSRs developed in this study may be considered as candidate markers to be evaluated in MAS strategies in genetic improvement programs.Comision Nacional de Investigacion Cientifica y Tecnologica, CONICYT
Doctorado en Chile
21090118
Apoyo a la Tesis Doctoral
24110179
Tesis en la Industria
781211008
FONDECYT
1120261
Consorcio Tecnologico de Industria Hortofruticula S.A. Fondo Instituto de Investigaciones Agropecuarias-Ministerio de Agricultura (INIA-MINAGRI) Project
501453-7
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