Drought stress is one of the major abiotic factors limiting banana (Musa) production. Even mild-drought conditions are responsible for considerable yield losses. We performed large-scale transcriptome sequencing using Illumina technology on root tissue of three triploid genotypes representing wel...
Zorrilla-Fontanesi, Y.
,
Rouard, M.
,
Cenci, A.
,
Kissel, E.
,
Do, H.
,
Dubois, E.
,
Nidelet, S.
,
Roux, N.
,
Swennen, R.L.
,
Carpentier, S.C.
,
[Transcriptomic profiling in Musa: a look into processes affected by mild osmotic stress in the root tip]
,
Transcriptomic profiling in Musa: a look into processes affected by mild osmotic stress in the root tip
To explore the transcriptomic global response to osmotic stress in roots, 18 mRNA-seq libraries were generated from three triploid banana genotypes grown under mild osmotic stress (5% PEG) and control conditions. Illumina sequencing produced 568 million high quality reads, of which 70–84% were ma...
Zorrilla-Fontanesi, Y.
,
Rouard, M.
,
Cenci, A.
,
Kissel, E.
,
Do, H.
,
Dubois, E.
,
Nidelet, S.
,
Roux, N.
,
Swennen, R.L.
,
Carpentier, S.C.
,
[Differential root transcriptomics in a polyploid non-model crop: the importance of respiration during osmotic stress]
,
Differential root transcriptomics in a polyploid non-model crop: the importance of respiration during osmotic stress
Drought is a complex phenomenon that is relevant for many crops. Performing high-throughput transcriptomics in non-model crops is challenging. The non-model crop where our workflow has been tested on is banana (Musa spp.), which ranks among the top ten staple foods (total production over 145 mill...
Zorrilla-Fontanesi, Y.
,
Rouard, M.
,
Cenci, A.
,
Kissel, E.
,
Roux, N.
,
Swennen, R.L.
,
Carpentier, S.C.
,
[How do roots respond to osmotic stress? A transcriptomic approach to address this question in a non-model crop]
,
How do roots respond to osmotic stress? A transcriptomic approach to address this question in a non-model crop