Internode elongation in energy cane shows remarkable clues on lignocellulosic biomass biosynthesis in Saccharum hybrids
Yanagui K, Camargo ELO, Abreu LGF, Nagamatsu ST, Fiamenghi MB, Silva NV, Carazzolle MF, Nascimento LC, Franco SF, Bressiani JA, Mieczkowski PA, Grassi MCB, Pereira GAG. Internode elongation in energy cane shows remarkable clues on lignocellulosic biomass biosynthesis in Saccharum hybrids. Gene 2022, 828: 146476. PMID: 35413393, DOI: 10.1016/j.gene.2022.146476.Peer-Reviewed Original ResearchConceptsInternode elongationSaccharum hybridsSecondary cell wall formationDetailed transcriptome analysisCell wall formationDevelopment of plantsMolecular regulatory mechanismsEnergy caneRNA-seq analysisGrowth-related genesDifferent biological processesGene expression analysisCell wall characterizationDivision zoneTranscriptional regulationUnique genesCellulose synthesisTranscriptome analysisHigh biomass productionKey genesCell divisionWall formationBreeding programsBiomass biosynthesisExpression analysis