Unknown,Transcriptomics,Genomics,Proteomics

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Selection for improved energy efficiency and drought tolerance in canola results in distinct transcriptome and epigenome changes [RNA-Seq]


ABSTRACT: Integrated breeding strategies are used to increase both the yield potential and stability of crops. Most of these approaches have a direct genetic basis. The utility of epigenetics in breeding to improve complex traits such as yield and stress tolerance is not clear. A better understanding of the status of the epigenome and its contribution to the agronomic performance would help in developing strategies to incorporate the epigenetic component of complex traits in breeding,Starting from isogenic canola lines, epilines were generated by selecting recursively during three generations for lines with a higher energy use efficiency and drought tolerance. These epilines were more energy use efficient, drought tolerant, high nitrogen use efficient, and higher yielding under suboptimal conditions. Moreover, these characteristics were transgenerational inheritable. Transcriptome comparison with a line selected for energy use efficiency only revealed common differentially expressed genes related to the onset of signaling events regulating stress tolerance. Genes related to salt, osmotic, abscisic acid and drought were specifically differentially expressed in the drought tolerant epilines. The status of the epigenome, scored as differential trimethylation of lysine 4 of histone 3, supports the energy use efficient and drought tolerant phenotype by facilitating transcription of the genes that are found to be differentially expressed.From these results it can be concluded that the epigenome can be shaped by selection to increase yield and stress tolerance. This acquired knowledge will support further development of strategies to incorporate epigenetics in breeding. SRA study accession: SRP052946, Bioproject: PRJNA273932. Two canola (Brassica napus L. spp. oleifera (Metzg) Sinsk. f. biennis) epilines with low respiration and high NAD(P)H content were selected. Grinded leaf material from 26 day-old control and both epilines was collected in triplicate and served as input for deep sequencing on Illumina GAIIx.

ORGANISM(S): Brassica napus

SUBMITTER: Patrick Willems 

PROVIDER: E-GEOD-65572 | biostudies-arrayexpress |

REPOSITORIES: biostudies-arrayexpress

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Selection for Improved Energy Use Efficiency and Drought Tolerance in Canola Results in Distinct Transcriptome and Epigenome Changes.

Verkest Aurine A   Byzova Marina M   Martens Cindy C   Willems Patrick P   Verwulgen Tom T   Slabbinck Bram B   Rombaut Debbie D   Van de Velde Jan J   Vandepoele Klaas K   Standaert Evi E   Peeters Marrit M   Van Lijsebettens Mieke M   Van Breusegem Frank F   De Block Marc M  

Plant physiology 20150616 4


To increase both the yield potential and stability of crops, integrated breeding strategies are used that have mostly a direct genetic basis, but the utility of epigenetics to improve complex traits is unclear. A better understanding of the status of the epigenome and its contribution to agronomic performance would help in developing approaches to incorporate the epigenetic component of complex traits into breeding programs. Starting from isogenic canola (Brassica napus) lines, epilines were gen  ...[more]

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