Abstract
Shoot branching is regulated by axillary bud activities, which subsequently grow into branches. Phytohormones play a central role in shoot branching control, particularly with regard to auxin, cytokinins (CKs), strigolactones (SLs), and gibberellins (GAs). To further study the molecular basis for the shoot branching in Salix matsudana, how shoot branching responds to hormones and regulatory pathways was investigated, and potential genes involved in the regulation of shoot branching were identified. However, how these positive and inhibitory processes work on the molecular level remains unknown. RNA-Seq transcriptome expression analysis was used to elucidate the mechanisms underlying shoot branching. In total, 102 genes related to auxin, CKs, SLs, and GAs were differentially expressed in willow development. A majority of the potential genes associated with branching were differentially expressed at the time of shoot branching in S. matsudana, which have more number of branching. These findings are consistent with the growth and physiological results. A regulatory network model was proposed to explain the interaction between the four hormones that control shoot branching. Collectively, the results presented here contribute to a more comprehensive understanding of the hormonal effects on shoot branching in S. matsudana. In the future, these findings will help uncover the interactions among auxin, SLs, CKs, and GAs that control shoot branching in willow, which could help improve plant structures through the implementation of molecular techniques in targeted breeding.
Highlights
Shoot branching is a highly plastic developmental process that greatly affects plant architecture.During this process, axillary buds in the axil of the leaves are formed and subsequently outgrow and develop into branches
Our results showed the amounts of indole-3-acetic acid (IAA) inofthe stem apex was apex was enhanced in S. matsudana (SM) compared to S. matsudana var. pseudo-matsudana (SMP) (Figure 1A), and the difference in this effect was observed in the basal branches
Our study showed that auxin, CKs, SLs, and GAs might play central roles in shoot branching control in willow
Summary
Shoot branching is a highly plastic developmental process that greatly affects plant architecture. During this process, axillary buds in the axil of the leaves are formed and subsequently outgrow and develop into branches. Three classes of plant hormones, auxin, cytokinins (CKs), and strigolactones (SLs), interact and regulate shoot branching [3,4,5,6]. Another hormone, gibberellins (GAs), plays a role in shoot branching control [7,8]. Shoot branching is regulated by a network of hormones, in which auxin plays a pivotal role. PIN efflux carrier family-mediated auxin transport members are key Forests 2020, 11, 287; doi:10.3390/f11030287 www.mdpi.com/journal/forests
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