A detailed gene expression study of the Miscanthusgenus reveals changes in the transcriptome associated with the rejuvenation of spring rhizomes

Barling, Adam; Swaminathan, Kankshita; Mitros, Therese; James, Brandon T.; Morris, Juliette; Ngamboma, Ornella; Hall, Mark E.; Kirkpatrick, Jessica; Alabady, Magdy S.; Spence, Ashley K.; Hudson, Matthew E.; Rokhsar, Daniel S.; Moose, Stephen P.

doi:10.1186/1471-2164-14-864

Cited by 29 publications

(36 citation statements)

References 59 publications

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“…For annotation of the transcripts, we used other reference databases: the transcriptomes and proteomes predicted for Arabidopsis thaliana and Sorghum bicolor, both obtained from the repository of the Phytozome platform (v.10) (Goodstein et al, 2012), the available sugarcane transcriptomes SoGI (v.3.0) (Saccharum officinarum Gene Index) and SCG (SugarCane Genes) (v.1.0) (Grativol et al, 2014), ESTs of the dbEST database (Boguski et al, 1993), GenBank mRNAs for Saccharum spp., UniGene of Saccharum officinarum, and available data of Miscanthus giganteus (Barling et al, 2013). The analyses consisted of a comparison of the assembly with reference transcriptomes at the nucleotide (BLASTn) and amino acid level (BLASTx/tBLASTx), and with proteomes only at the amino acid level (BLASTx/tBLASTn).…”

Section: De Novo Assembly and Data Analysismentioning

confidence: 99%

De novo transcriptome assembly of sugarcane leaves submitted to prolonged water-deficit stress

Belesini¹,

Carvalho²,

Telles³

et al. 2017

Genet. Mol. Res.

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Section: De Novo Assembly and Data Analysismentioning

confidence: 99%

De novo transcriptome assembly of sugarcane leaves submitted to prolonged water-deficit stress

Belesini¹,

Carvalho²,

Telles³

et al. 2017

Genet. Mol. Res.

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“…After eliminating those primers that failed to amplify products from all taxa, 50 primer pairs in total were used (Table S1). Of these primers, 22 pairs amplified two genomic copies of the RNA contig, implying that the existence of paralogs is likely due to recent genome duplication in Miscanthus Swaminathan et al, 2012;Barling et al, 2013). It is known that incorporating paralogous sequences into phylogenetic analysis often leads to erroneous inferences of species phylogeny.…”

Section: Genetic Variation At Nuclear Loci In Miscanthusmentioning

confidence: 99%

Adaptive divergence with gene flow in incipient speciation of Miscanthus floridulus/sinensis complex (Poaceae)

Huang

Chiang

et al. 2014

The Plant Journal

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These authors contributed equally to this work. SUMMARYYoung incipient species provide ideal materials for untangling the process of ecological speciation in the presence of gene flow. The Miscanthus floridulus/sinensis complex exhibits diverse phenotypic and ecological differences despite recent divergence (approximately 1.59 million years ago). To elucidate the process of genetic differentiation during early stages of ecological speciation, we analyzed genomic divergence in the Miscanthus complex using 72 randomly selected genes from a newly assembled transcriptome. In this study, rampant gene flow was detected between species, estimated as M = 3.36 3 10 À9 to 1.20 3 10 À6 , resulting in contradicting phylogenies across loci. Nevertheless, BEAST analyses revealed the species identity and the effects of extrinsic cohesive forces that counteracted the non-stop introgression. As expected, early in speciation with gene flow, only 3-13 loci were highly diverged; two to five outliers (approximately 2.78-6.94% of the genome) were characterized by strong linkage disequilibrium, and asymmetrically distributed among ecotypes, indicating footprints of diversifying selection. In conclusion, ecological speciation of incipient species of Miscanthus probably followed the parapatric model, whereas allopatric speciation cannot be completely ruled out, especially between the geographically isolated northern and southern M. sinensis, for which no significant gene flow across oceanic barriers was detected. Divergence between local ecotypes in early-stage speciation began at a few genomic regions under the influence of natural selection and divergence hitchhiking that overcame gene flow.

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“…Moreover, Miscanthus breeding has focused on the development of molecular markers to facilitate selection of varieties with improved biomass yield and/or composition (da Costa et al ., 2017). Genetic resources for Miscanthus, such as an extensive transcriptome database (Barling et al ., 2013) and a recently completed Miscanthus sinensis draft genome ( Miscanthus sinensis v7.1 DOE-JGI, http://phytozome.jgi.doe.gov/), are now available to explore biological processes with molecular approaches. A detailed, mechanistic understanding of SCW formation has the potential to complement marker-assisted breeding of novel Miscanthus traits with tailored biomass.…”

Section: Introductionmentioning

confidence: 99%

Distinct and overlapping functions ofMiscanthus sinensisMYB transcription factors SCM1 and MYB103 in lignin biosynthesis

Golfier

Unda

Murphy

et al. 2019

Preprint

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38 Cell wall recalcitrance is a major constraint for the exploitation of lignocellulosic biomass as 39 renewable resource for energy and bio-based products. Transcriptional regulators of the lignin 40 biosynthetic pathway represent promising targets for tailoring lignin content and composition in 41 plant secondary cell walls. A wealth of research in model organisms has revealed that 42 transcriptional regulation of secondary cell wall formation is orchestrated by a hierarchical 43 transcription factor (TF) network with NAC TFs as master regulators and MYB factors in the lower 44 tier regulators. However, knowledge about the transcriptional regulation of lignin biosynthesis in 45 lignocellulosic feedstocks, such as Miscanthus, is limited. Here, we characterized two Miscanthus 46 MYB TFs, MsSCM1 and MsMYB103, and compared their transcriptional impact with that of the 47 master regulator MsSND1. In Miscanthus leaves MsSCM1 and MsMYB103 are expressed at 48 growth stages associated with lignification. Ectopic expression of MsSCM1 and MsMYB103 in 49 tobacco leaves was sufficient to trigger secondary cell wall deposition with distinct sugar and lignin 50 composition. Moreover, RNA-seq analysis revealed that the transcriptional responses to MsSCM1 51 and MsMYB103 overexpression showed extensive overlap with the response to MsSND1, but 52 were distinct from each other, underscoring the inherent complexity of secondary cell wall 53 formation. Together, MsSCM1 and MsMYB103 represent interesting targets for manipulations of 54 lignin content and composition in Miscanthus towards tailored biomass. 55 56 157 158 Tissue Staining and Microscopy 159

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A detailed gene expression study of the Miscanthusgenus reveals changes in the transcriptome associated with the rejuvenation of spring rhizomes

Cited by 29 publications

References 59 publications

De novo transcriptome assembly of sugarcane leaves submitted to prolonged water-deficit stress

De novo transcriptome assembly of sugarcane leaves submitted to prolonged water-deficit stress

Adaptive divergence with gene flow in incipient speciation of Miscanthus floridulus/sinensis complex (Poaceae)

Distinct and overlapping functions ofMiscanthus sinensisMYB transcription factors SCM1 and MYB103 in lignin biosynthesis

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