Adaptation mechanism of three Impatiens species to different habitats based on stem morphology, lignin and MYB4 gene

Xin-Yi Li; Ze-Feng Li; Xiao-Li Zhang; Meng-Qing Yang; Pei-Qing Wu; Mei-Juan Huang; Hai-Quan Huang

doi:10.1186/s12870-024-05115-3

BMC Plant Biology (May 2024)

Adaptation mechanism of three Impatiens species to different habitats based on stem morphology, lignin and MYB4 gene

Xin-Yi Li,
Ze-Feng Li,
Xiao-Li Zhang,
Meng-Qing Yang,
Pei-Qing Wu,
Mei-Juan Huang,
Hai-Quan Huang

Affiliations

Xin-Yi Li: Southwest Forestry University, College of Landscape Architecture and Horticulture Sciences, Southwest Research Center for Engineering Technology of Landscape Architecture (State Forestry and Grassland Administration), Yunnan Engineering Research Center for Functional Flower Resources and Industrialization, Research and Development Center of Landscape Plants and Horticulture Flowers
Ze-Feng Li: Southwest Forestry University, College of Landscape Architecture and Horticulture Sciences, Southwest Research Center for Engineering Technology of Landscape Architecture (State Forestry and Grassland Administration), Yunnan Engineering Research Center for Functional Flower Resources and Industrialization, Research and Development Center of Landscape Plants and Horticulture Flowers
Xiao-Li Zhang: Southwest Forestry University, College of Landscape Architecture and Horticulture Sciences, Southwest Research Center for Engineering Technology of Landscape Architecture (State Forestry and Grassland Administration), Yunnan Engineering Research Center for Functional Flower Resources and Industrialization, Research and Development Center of Landscape Plants and Horticulture Flowers
Meng-Qing Yang: Southwest Forestry University, College of Landscape Architecture and Horticulture Sciences, Southwest Research Center for Engineering Technology of Landscape Architecture (State Forestry and Grassland Administration), Yunnan Engineering Research Center for Functional Flower Resources and Industrialization, Research and Development Center of Landscape Plants and Horticulture Flowers
Pei-Qing Wu: Southwest Forestry University, College of Landscape Architecture and Horticulture Sciences, Southwest Research Center for Engineering Technology of Landscape Architecture (State Forestry and Grassland Administration), Yunnan Engineering Research Center for Functional Flower Resources and Industrialization, Research and Development Center of Landscape Plants and Horticulture Flowers
Mei-Juan Huang: Southwest Forestry University, College of Landscape Architecture and Horticulture Sciences, Southwest Research Center for Engineering Technology of Landscape Architecture (State Forestry and Grassland Administration), Yunnan Engineering Research Center for Functional Flower Resources and Industrialization, Research and Development Center of Landscape Plants and Horticulture Flowers
Hai-Quan Huang: Southwest Forestry University, College of Landscape Architecture and Horticulture Sciences, Southwest Research Center for Engineering Technology of Landscape Architecture (State Forestry and Grassland Administration), Yunnan Engineering Research Center for Functional Flower Resources and Industrialization, Research and Development Center of Landscape Plants and Horticulture Flowers

DOI: https://doi.org/10.1186/s12870-024-05115-3
Journal volume & issue: Vol. 24, no. 1
pp. 1 – 16

Abstract

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Abstract Background Impatiens is an important genus with rich species of garden plants, and its distribution is extremely extensive, which is reflected in its diverse ecological environment. However, the specific mechanisms of Impatiens’ adaptation to various environments and the mechanism related to lignin remain unclear. Results Three representative Impatiens species,Impatiens chlorosepala (wet, low degree of lignification), Impatiens uliginosa (aquatic, moderate degree of lignification) and Impatiens rubrostriata (terrestrial, high degree of lignification), were selected and analyzed for their anatomical structures, lignin content and composition, and lignin-related gene expression. There are significant differences in anatomical parameters among the stems of three Impatiens species, and the anatomical structure is consistent with the determination results of lignin content. Furthermore, the thickness of the xylem and cell walls, as well as the ratio of cell wall thickness to stem diameter have a strong correlation with lignin content. The anatomical structure and degree of lignification in Impatiens can be attributed to the plant's growth environment, morphology, and growth rate. Our analysis of lignin-related genes revealed a negative correlation between the MYB4 gene and lignin content. The MYB4 gene may control the lignin synthesis in Impatiens by controlling the structural genes involved in the lignin synthesis pathway, such as HCT, C3H, and COMT. Nonetheless, the regulation pathway differs between species of Impatiens. Conclusions This study demonstrated consistency between the stem anatomy of Impatiens and the results obtained from lignin content and composition analyses. It is speculated that MYB4 negatively regulates the lignin synthesis in the stems of three Impatiens species by regulating the expression of structural genes, and its regulation mechanism appears to vary across different Impatiens species. This study analyses the variations among different Impatiens plants in diverse habitats, and can guide further molecular investigations of lignin biosynthesis in Impatiens.

Published in BMC Plant Biology

ISSN: 1471-2229 (Online)
Publisher: BMC
Country of publisher: United Kingdom
LCC subjects: Science: Botany
Website: http://bmcplantbiol.biomedcentral.com

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