Abstract
Key messageSeveral members of WOX and KNOX gene families and several plant growth regulators, basically cytokinins and auxins, play a key role during adventitious caulogenesis in the conifer Pinus pinea.Similar to Arabidopsis thaliana, Pinus pinea shoot organogenesis is a multistep process. However, there are key differences between both species, which may alter the underlying physiological and genetic programs. It is unknown if the genic expression models during angiosperm development may be applicable to conifers. In this work, an analysis of the endogenous content of different plant growth regulators and the expression of genes putatively involved in adventitious caulogenesis in P. pinea cotyledons was conducted. A multivariate analysis of both datasets was also realized through partial least squares regression and principal component analysis to obtain an integral vision of the mechanisms involved in caulogenesis in P. pinea. Analyses show that cotyledons cultured in the presence of benzyladenine during long times (2–6 days) cluster separately from the rest of the samples, suggesting that the benzyladenine increase observed during the first hours of culture is sufficient to trigger the caulogenic response through the activation of specific developmental programs. In particular, the most relevant factors involved in this process are the cytokinins trans-zeatin, dihydrozeatin, trans-zeatin riboside and isopentenyl adenosine; the auxin indoleacetic acid; and the genes PpWUS, PpWOX5, PpKN2, PpKN3 and PipiRR1. WUS is functional in pines and has an important role in caulogenesis. Interestingly, WOX5 also seems to participate in the process, although its specific role has not been determined.
Highlights
The formation of adventitious shoots is a complex process that involves the participation of plant growth regulators (PGRs), mainly auxins and cytokinins, with multiple signaling pathways (Kareem et al 2016; Sang et al 2018; Tian et al 2018; Ikeuchi et al 2019)
In vitro caulogenesis in P. pinea, which consists of the development of adventitious buds on the surface of cotyledons cultured in a BA-containing medium, is a method used for the micropropagation of selected genotypes on a large scale (Alonso et al 2006), but it constitutes an ideal model for the study of the underlying processes of the shoot apical meristem (SAM)
The present data will help to understand the behavior of gene expression profiles related to caulogenic induction, connecting their response magnitude with the PGRs levels
Summary
The formation of adventitious shoots is a complex process that involves the participation of plant growth regulators (PGRs), mainly auxins and cytokinins, with multiple signaling pathways (Kareem et al 2016; Sang et al 2018; Tian et al 2018; Ikeuchi et al 2019). Members of the class III homeodomain-leucine zipper (HD Zip III) transcription factors directly interact with type-B ARRs and induce the expression of WUSCHEL (WUS) in a selected group of cells, which specifies stem cell fate in the center of the regenerating shoot meristem (Meng et al 2017; Zhang et al 2017; Zubo et al 2017). Afterward, these HD Zip III proteins upregulate other genes that play key roles in the SAM formation and maintenance such as the class I KNOX gene SHOOT MERISTEMLESS (STM) (Shi et al 2016).
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