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Series GSE92859 Query DataSets for GSE92859
Status Public on Dec 22, 2017
Title Transcript profiling of sugar beet colonized by Rhizoctonia solani, the crown and root rot pathogen
Organism Beta vulgaris
Experiment type Expression profiling by high throughput sequencing
Summary Background: Sugar beet is an important root crop, accounting for 30 % of the sugar production worldwide. The long growing season make sugar beets exposed to a range of plant pathogens for longer periods than most other crops. Here, contrasting sugar beet genotypes were used for transcriptome analysis to reveal differential responses and new defense genes to Rhizoctonia solani, a soilborn fungal pathogen.
Results: After curation of primary RNA-sequencing reads, 16,768 genes deriving from 36 samples composed of two susceptible and two resistant sugar beet genotypes, three time-points (0, two and five days post inoculation), each in three replicates were subjected for analysis. Among the elevated 217 transcripts at 2 dpi, three resistance-like genes (Bv4_088600_cumk, Bv8u_204980_frqg, and Bv_44840_iifo) were activated. By employing edgeR package statistics, 660 genes were significantly different (false discovery rate < 0.05) between resistant and susceptible genotypes in their response to R. solani inoculation. A combination of eukaryotic orthologous group assignments and gene ontology enrichment analyses, revealed three Bet v I/Major latex protein homologous genes (Bv7_162510_pymu, Bv7_162520_etow, Bv_27270_xeas) in the resistant genotypes after five days of fungal challenge. Co-expression network analysis of differentially expressed sugar beet genes further identified a MYB46 transcription factor, a plant disease resistance response protein (DRR206) and a flavonoid o-methyltransferase protein. MYB46 has a key function in secondary cell wall formation and exist as a singleton in the sugar beet genome. The genome of R. solani is enriched in cell wall degrading enzyme encoding genes and it is anticipated that they represent important virulence factors. Compared to Arabidopsis thaliana, sugar beet has 2.4-fold more carbohydrate esterases and particularly large numbers (26-fold) of auxiliary activity encoding genes whose function in cell wall biosynthesis is largely unknown.
Conclusions: Based on components identified in this sugar beet transcript data set we conclude that defense responses to R. solani are attributed to a wide range of gene categories but functional information is missing to a large extent. This calls for careful integration to avoid negative side effects to obtain optimal combinations of these traits in order to reach the long-term goal of improved resistance in sugar beet.
 
Overall design Four sugar beet genotypes, three time-points and three biological replicates were sequenced.
 
Contributor(s) Andersson L, Fogelqvist J, Dixelius C, Cohn J, Varrelmann M, Kraft T
Citation(s) 33118051
Submission date Dec 22, 2016
Last update date Feb 08, 2021
Contact name Louise Sara Andersson
E-mail(s) louise.andersson@syngenta.com
Organization name Swedish University of Agricultural Sciences
Department Plant Biology
Street address Box 7080
City Uppsala
ZIP/Postal code 75007
Country Sweden
 
Platforms (1)
GPL21631 Illumina HiSeq 2000 (Beta vulgaris)
Samples (36)
GSM2438804 1R_01A
GSM2438805 2R_01B
GSM2438806 3R_01C
Relations
BioProject PRJNA358634
SRA SRP095578

Download family Format
SOFT formatted family file(s) SOFTHelp
MINiML formatted family file(s) MINiMLHelp
Series Matrix File(s) TXTHelp

Supplementary file Size Download File type/resource
GSE92859_apporitioned_normgc.csv.gz 1.2 Mb (ftp)(http) CSV
GSE92859_sugarbeet_v4_gene_models.gff.gz 9.2 Mb (ftp)(http) GFF
GSE92859_sugarbeet_v4_mRNA.fa.gz 29.0 Mb (ftp)(http) FA
SRA Run SelectorHelp
Raw data are available in SRA
Processed data are available on Series record

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