Identification and expression profiling of genes governing lignin biosynthesis in Casuarina equisetifolia L

• Published in: Gene Vol. 676; pp. 37 - 46
• Main Authors: Vikashini, Balasubramanian, Shanthi, Arunachalam, Ghosh Dasgupta, Modhumita
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier B.V 15.11.2018
• Subjects: Casuarinas; Expression profiling; Lignin biosynthesis genes; Transcriptome sequencing; Wood formation; CSIRO; Expression profiling; qRT-PCR; GO; Lignin biosynthesis genes; Transcriptome sequencing; Wood formation; PVP; Casuarinas; TAIR; NCBI; KEGG; cDNA; BLAST; WEGO
• ISSN: 0378-1119; 1879-0038
• DOI: 10.1016/j.gene.2018.07.012

Casuarina equisetifolia L. is an important multi-purpose, fast growing and widely planted tree species native to tropical and subtropical coastlines of Australia, Southeast Asia, Malaysia, Melanesia, Polynesia and New Caledonia. It is a nitrogen-fixing tree mainly used for charcoal making, construction poles, landscaping, timber, pulp, firewood, windbreaks, shelterbelts, soil erosion and sand dune stabilization. Casuarina wood is presently used for paper and pulp production. Raw material with reduced lignin is highly preferred to increase the pulp yield. Hence, understanding the molecular regulation of wood formation in this tree species is vital for selecting industrially suitable phenotypes for breeding programs. The lignin biosynthetic pathway has been extensively studied in tree species like Eucalypts, poplars, pines, Picea, Betula and Acacia sp. However, studies on wood formation at molecular level is presently lacking in casuarinas. Hence, in the present study, the transcriptome of the developing secondary tissues of 15 years old Casuarina equiseitfolia subsp. equisetifolia was sequenced, de novo assembled, annotated and mapped to functional pathways. Transcriptome sequencing generated a total of 26,985 transcripts mapped to 31 pathways. Mining of the annotated data identified nine genes involved in lignin biosynthesis pathway and relative expression of the transcripts in four tissues including scale-like leaves, needle-like brachlets, wood and root were documented. The expression of CeCCR1 and CeF5H were found to be significantly high in wood tissues, while maximum expression of CeHCT was documented in stem. Additionally, CeTUBA and CeH2A were identified as the most stable reference transcript for normalization of qRT-PCR data in C. equisetifolia. The present study is the first wood genomic resource in C. equisetifolia, which will be valuable for functional genomics research in this genus. •Wood transcriptome sequencing, de novo assembly and functional annotation of Casuarina equisetifolia is reported.•Expression profiling of lignin biosynthesis pathway transcripts was conducted in developing wood tissues.•CeTUBA and CeH2A were identified as the most stable reference gene for normalization of qRT-PCR data.