Abstract
BackgroundGibberellin (GA) is one of the most essential phytohormones that modulate plant growth and development. Jute (Corchorus sp.) is the second most important source of bast fiber. Our result has shown that exogenous GA can positively regulate jute height and related characteristics which mean increasing endogenous GA production will help to get a jute variety with improved characteristics. However, genes involved in jute GA biosynthesis have not been analyzed precisely.ResultsGenome-wide analysis identified twenty-two candidate genes involved in jute GA biosynthesis pathway. Among them, four genes- CoCPS, CoKS, CoKO and CoKAO work in early steps. Seven CoGA20oxs, three CoGA3oxs, and eight GA2oxs genes work in the later steps. These genes were characterized through phylogenetic, motif, gene structure, and promoter region analysis along with chromosomal localization. Spatial gene expression analysis revealed that 11 GA oxidases were actively related to jute GA production and four of them were marked as key regulators based on their expression level. All the biosynthesis genes both early and later steps showed tissue specificity. GA oxidase genes were under feedback regulation whereas early steps genes were not subject to such regulation.ConclusionEnriched knowledge about jute GA biosynthesis pathway and genes will help to increase endogenous GA production in jute by changing the expression level of key regulator genes. CoGA20ox7, CoGA3ox2, CoGA2ox3, and CoGA2ox5 may be the most important genes for GA production.
Highlights
Gibberellin (GA) is one of the most essential phytohormones that modulate plant growth and development
We have found 22 candidate genes including one copalyl diphosphate synthase (CPS) gene (CoCPS), one kaurene synthase (KS) gene (CoKS), one KO gene (CoKO), one kaurenoic acid oxidase (KAO) gene (CoKAO), seven GA20ox genes (CoGA 20ox1–7), three GA3ox genes (CoGA3ox1–3) and eight GA2ox genes (CoGA2ox1–8)
After searching Pfam and SMART database we have found that both CoCPS and CoKS enzymes contain Terpene synthase, N-terminal domain, and Terpene synthase family, metal-binding domain
Summary
Gibberellin (GA) is one of the most essential phytohormones that modulate plant growth and development. Kurosawa in 1926, is one of the key phytohormones for plant growth and development This classical phytohormone participates in different physiological processes like seed germination [1, 2], shoot elongation [3], leaf expansion [4], flower development [5], and fruit- senescence [6]. It induces cell elongation and division; it accumulates starch [7] and has the ability to influence overall plant growth. Though plants have hundreds of GAs, only a few of them such as GA1 and GA4 are bioactive [8]
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