Plant Hormone Metabolome and Transcriptome Analysis of Dwarf and Wild-type Banana

Biao Deng,Yining Gao,Weixiong Huang,Zhenyu An,Xuan Wang,Xing Long,Shuangyun Zhou,Ji Zhang,Ren Fang,Wenzhong Tang,Xiaolu Peng,Jinyan Yao

doi:10.1007/s00344-021-10447-7

Biao Deng, Yining Gao + Show 10 more

Open Access

https://doi.org/10.1007/s00344-021-10447-7

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Abstract

Gibberellin (GA), auxin (IAA) and brassinosteroid (BR) are indispensable in the process of plant growth and development. Currently, research on the regulatory mechanism of phytohormones in banana dwarfism is mainly focused on GA, and few studies are focused on IAA and BR. In this study, we measured the contents of endogenous GA, IAA and BR and compared the transcriptomes of wild-type Williams banana and its dwarf mutant across five successive growth periods. We investigated the relationship between hormones and banana dwarfism and explored differential gene expression through transcriptome analysis, thus revealing the possible metabolic regulatory mechanism. We inferred a complex regulatory network of banana dwarfing. In terms of endogenous hormone levels, GA and IAA had significant effects on banana dwarfing, while BR had little effect. The key gene in GA biosynthesis of is GA2ox, and the key genes in IAA biosynthesis are TDC and YUCCA. The differential expression of these genes might be the main factor affecting hormone levels and plant height. In terms of hormone signal transduction, DELLA and AUX/IAA repressor proteins were the core regulators of GA and IAA, respectively. They inhibited the process of signal transduction and had feedback regulation on hormone levels. Finally, the transporter protein PIN, AUX1/LAX protein family and ABCB subfamily played supplementary roles in the transport of IAA. These results provide new insights into GA and IAA regulation of banana growth and a reliable foundation for the improvement of dwarf varieties.

Highlights

Banana is one of the most important fruit crops worldwide and is of great significance to human life
Considering that the differences in hormone contents and plant heights were caused by the differences in gene expression, we tried to look for the relationship between dwarfism and the expression pattern of these differentially expressed genes (DEGs) to understand the molecular mechanism of hormones affecting plant growth
We investigated the relationship between hormones and banana dwarfism and revealed the metabolic regulatory mechanism and the differences in gene expression at the molecular level through transcriptome analysis

Summary

Introduction

Banana (plantain) is one of the most important fruit crops worldwide and is of great significance to human life. It is a popular tropical high-quality fruit and an important staple crop for more than 400 million people in the tropics. A ‘Green revolution’ in crop breeding has been initiated, along with the discovery of plant dwarfing genes and the international selection of dwarfing varieties of rice and wheat (Hedden 2003). Banana has remained practically unaffected under the ‘Green revolution’ due to its characteristic triploid sterility, which limits conventional breeding (Dash and Rai 2016)

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