Affiliation:
1. Chinese Academy of Sciences
2. Guangdong Academy of Agricultural Sciences
Abstract
Abstract
Background:
Paphiopedilum orchids have a high ornamental value, and flower abundance is a key horticultural trait. Most Paphiopedilum plants exhibit weak tillering ability, with their tiller buds often entering a dormant state post-formation. Tiller production plays a crucial role in enhancing flower abundance and is potentially regulated by plant hormones. However, the effect of hormones on tillering in Paphiopedilumplants is still unclear.
Results:
In this study, we investigated the promotion of tillering in P. callosum through exogenous root irrigation of benzylaminopurine(BAP). We observed a dose-dependent promotion of tiller production by BAP, with the strongest effect observed at a concentration of 400mg/L. By comparing the expression of key genes in P. ‘SCBG Yingchun’ (with strong tiller ability) and P callosum (with weak tiller ability), we found that BAP promotes tillering by interacting with abscisic acid (ABA). This interaction involves down-regulation of the ABA degradation gene PcCYP707A, leading to a reduction in ABA content, and the subsequent down-regulation of dormancy-associated genes (PcDRMH1, PcSVP) to release bud dormancy. Additionally, BAP promotes sustained outgrowth of tiller buds by increasing the level of indole-3-acetic acid (IAA) through up-regulation of the IAA synthesis gene PcYUC2 and the transport gene PcPINIC. These findings provide insights into the regulatory mechanisms of BAP in tiller bud outgrowth in P. callosum.
Conclusions:
Our results indicated that the application of BAP promotes lateral bud outgrowth and increases tiller production in P. callosum. HPLC results showed exogenous BAP affects the levels of endogenous hormones, including IAA, CTKs, and ABA. Transcriptomic data combined with qPCR analyses suggest that the genes PcCYP707, PcYUC2, PcPINIC PcDRMH1, PcSVPmay play key roles in regulating tiller bud outgrowth. This study presents the first comprehensive report of BAP-promoted tillering in P. callosum, which should provide a foundational basis for further mechanistic studies on tiller development in Paphiopedilum species and other non-model plants.
Publisher
Research Square Platform LLC
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