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Genes expression profiles in vascular cambium of Eucalyptus urophylla × Eucalyptus grandis at different ages

形成层 维管形成层 生物 木质部 韧皮部 次生生长 血管组织 植物 MYB公司 桉树 基因 次生细胞壁 细胞生物学 转录因子 基因表达 基因表达谱 遗传学
作者
Liu G,Zhihua Wu,Jianzhong Luo,Chubiao Wang,Xiuhua Shang,Guowu Zhang
出处
期刊:BMC Plant Biology [BioMed Central]
卷期号:23 (1) 被引量:3
标识
DOI:10.1186/s12870-023-04500-8
摘要

Wood is a secondary xylem generated by vascular cambium. Vascular cambium activities mainly include cambium proliferation and vascular tissue formation through secondary growth, thereby producing new secondary phloem inward and secondary xylem outward and leading to continuous tree thickening and wood formation. Wood formation is a complex biological process, which is strictly regulated by multiple genes. Therefore, molecular level research on the vascular cambium of different tree ages can lead to the identification of both key and related genes involved in wood formation and further explain the molecular regulation mechanism of wood formation.In the present study, RNA-Seq and Pac-Bio Iso-Seq were used for profiling gene expression changes in Eucalyptus urophylla × Eucalyptus grandis (E. urograndis) vascular cambium at four different ages. A total of 59,770 non-redundant transcripts and 1892 differentially expressed genes (DEGs) were identified. The expression trends of the DEGs related to cell division and differentiation, cell wall biosynthesis, phytohormone, and transcription factors were analyzed. The DEGs encoding expansin, kinesin, cycline, PAL, GRP9, KNOX, C2C2-dof, REV, etc., were highly expressed in E. urograndis at three years old, leading to positive effects on growth and development. Moreover, some gene family members, such as NAC, MYB, HD-ZIP III, RPK, and RAP, play different regulatory roles in wood formation because of their sophisticated transcriptional network and function redundantly.These candidate genes are a potential resource to further study wood formation, especially in fast-growing and adaptable eucalyptus. The results may also serve as a basis for further research to unravel the molecular mechanism underlying wood formation.

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