Effects of drought on the microtranscriptome of field-grown sugarcane plants

Gentile, Agustina; Ferreira, Thaís Helena Silva; Mattos, Raphael S.; Dias, Lara Isys; Hoshino, Andrea Akemi; Carneiro, Monalisa Sampaio; Souza, Gláucia Mendes; Calsa, Tercílio; Nogueira, Rejane Jurema Mansur Custódio; Endres, Laurício; Menossi, Marcelo

doi:10.1007/s00425-012-1795-7

Cited by 61 publications

(45 citation statements)

References 82 publications

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“…Upregulation of miR394 in J. pentantha is comparable to those reported in cotton (0.87 fold increase) exposed to drought stress (Xie et al 2014). In another study, miR394 was shown to be downregulated in high-tolerant sugarcane cultivar but upregulated in the sensitive cultivars (Gentile et al 2013). In these cultivars, (Liu et al 2007;Ballen-Taborda et al 2013;Turner et al 2013).…”

Section: Resultssupporting

confidence: 70%

MicroRNA dynamics in a wild and cultivated species of Convolvulaceae exposed to drought stress

Ghorecha

Zheng

Liu

et al. 2017

Physiol Mol Biol Plants

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Agricultural productivity is severely hampered by drought in many parts of the globe. It is well-known that wild plant species can tolerate drought better when compared with their closely related cultivated plant species. Better drought adaptation of wild species over cultivated ones is accounted for their ability to differentially regulate gene expression. miRNAs, known to regulate gene expression at the post-transcriptional level, are admitted to play an important role in plant adaptation to stresses. This study aims at evaluating miRNA dynamics in a droughttolerant wild Ipomoea campanulata L. and drought-sensitive cultivated Jacquemontia pentantha (Jacq.) of the family Convolvulaceae under ex situ drought. Sequencing profiles revealed that 34 conserved miRNA families were analogous between the two species. Drought altered expression levels of several of these miRNAs in both the species. Drought-tolerant I. campanulata showed upregulation of miR398, miR168, miR858, miR162 and miR408, while miR394 and miR171 were downregulated. Droughtsensitive J. pentantha showed upregulation of miR394, miR156, miR160, miR164, miR167, miR172, miR319, miR395, miR396, miR403 and downregulation of miR157. Basal miRNA levels and their drought mediated regulation were very different between the two species. Differential drought sensitivities of these two plant species can be attributed to these innate variations in miRNA levels and their expression.

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Section: Resultssupporting

confidence: 70%

MicroRNA dynamics in a wild and cultivated species of Convolvulaceae exposed to drought stress

Ghorecha

Zheng

Liu

et al. 2017

Physiol Mol Biol Plants

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“…Sequencing profiles revealed that most miRNA families responded similarly to both the stressors (drought or heat) while a fewmiRNA families showed stress-specific response, i.e., induced or repressed only under drought or heat in switchgrass ( Table 2). The altered expression of several miRNAs following drought or heat in this study was largely in agreement with several earlier reports that studied miRNA responses to stress conditions ingrasses[40,41, [53][54][55][56][57][58][59][60][61][62][63][64][65][66].Nevertheless, there are alsoinstances in which our study did not correspond with some of the earlier reports. For instance,drought stress repressed the expression of miR166 in wheat [53], rice [57] and sugarcane [63] while we found it is induced in switchgrass.Drought downregulated the expression of miR167 and miR168 in switchgrass [40] andmiR168 in rice [57]butthese miRNAs are found to be up-regulated by drought in this study.The miR396 levels were repressed in wheat [53],rice [57] and sugarcane [63]under drought but it is up regulated under drought in the present study.…”

Section: Discussionsupporting

confidence: 73%

Characterization of drought- and heat-responsive microRNAs in switchgrass

et al. 2016

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“…Deep sequencing has been applied to identify sugarcane miRNAs in roots subjected to drought stress, plantlets subjected to salt stress and plantlets subjected to pathogen infection (Thiebaut et al 2012). miRNA species associated with water deficit in leaves of 3-month-old glasshouse grown and 7-month-old field grown sugarcane plants have been identified (Bottino et al 2013;Ferreira et al 2012;Gentile et al 2013). Small RNAs associated with axillary bud outgrowth have also been analysed (Ortiz-Morea et al 2013).…”

Section: Introductionmentioning

confidence: 99%

“…In combination, these enabling technologies and molecular tools have facilitated metabolic engineering of the sugar profile (Mudge et al 2013). Furthermore, investigations have begun into the small RNA (sRNA) component of the sugarcane transcriptome (Bottino et al 2013;Ferreira et al 2012;Gentile et al 2013;Zanca et al 2010).…”

Section: Introductionmentioning

confidence: 99%

Deep Sequencing Reveals Divergent Expression Patterns Within the Small RNA Transcriptomes of Cultured and Vegetative Tissues of Sugarcane

Sternes

Moyle

2014

Plant Mol Biol Rep

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Deep sequencing has advanced the discovery and analysis of the small RNA component of transcriptomes and has revealed developmentally-regulated populations of small RNAs consistent with key roles in plant development. To study small RNA transcriptome complexity and explore their roles in sugarcane development, we obtained almost 50 million small RNA reads from suspension cells, embryogenic calli, leaf, apex and a developmental series of stem internodes. The complexity of the small RNA component of the transcriptome varied between tissues. The undifferentiated and young tissue type libraries had lower redundancy levels than libraries generated from maturing and mature tissues. The ratio of 21:24 nt small RNAs also varied widely between different tissue types, as did the proportion of abundant small RNAs derived from each putative origin of small RNA biogenesis. Cluster analysis indicates many abundant small RNAs display developmental expression patterns. There was substantial variation in isomiR composition, abundance and expression patterns within sugarcane microRNA (miRNA) families. Two hundred and fifty-six isomiRs from 36 miRNA families were identified by homology to known miRNA families from a range of plant species. Many isomiRs and miRNA families appear to be developmentally regulated, including a subset of miRNAs that are progressively upregulated during stem internode maturation. Transcribed sequences putatively targeted by abundant sugarcane small RNAs were predicted and miRNA directed cleavage of 18 predicted sugarcane targets were validated by 5′ RACE.

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Effects of drought on the microtranscriptome of field-grown sugarcane plants

Cited by 61 publications

References 82 publications

MicroRNA dynamics in a wild and cultivated species of Convolvulaceae exposed to drought stress

MicroRNA dynamics in a wild and cultivated species of Convolvulaceae exposed to drought stress

Characterization of drought- and heat-responsive microRNAs in switchgrass

Deep Sequencing Reveals Divergent Expression Patterns Within the Small RNA Transcriptomes of Cultured and Vegetative Tissues of Sugarcane

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