Abstract
In lily reproduction, the mechanism of formation of bulbs has been a hot topic. However, studies on stem bulblet formation are limited. Stem bulblets, formed in the leaf axils of under- and above-ground stems, provide lilies with a strong capacity for self-propagation. First, we showed that above-ground stem bulblets can be induced by spraying 100 mg/L 6-BA on the LA hybrid lily ‘Aladdin’, with reduced endogenous IAA and GA4 and a higher relative content of cytokinins. Then, expression patterns of three potential genes (two KNOTTED1-like homeobox (KNOX) and one partial BEL1-like homeobox (BELL)), during stem bulblet formation from our previous study, were determined by RT-qPCR, presenting a down-up trend in KNOXs and a rising tendency in BELL. The partial BELL gene was cloned by RACE from L. ‘Aladdin’ and denoted LaBEL1. Physical interactions of LaKNOX1-LaBEL1 and LaKNOX1-LaKNOX2 were confirmed by yeast two-hybrid and bimolecular fluorescence complementation assays. Furthermore, hormonal regulatory patterns of single LaKNOX1, LaKNOX2, LaBEL1, and their heterodimers, were revealed in transgenic Arabidopsis, suggesting that the massive mRNA accumulations of LaKNOX1, LaKNOX2 and LaBEL1 genes during stem bulblet formation could cause the dramatic relative increase of cytokinins and the decline of GAs and IAA. Taken together, a putative model was proposed that LaKNOX1 interacts with LaKNOX2 and LaBEL1 to regulate multiple phytohormones simultaneously for an appropriate hormonal homeostasis, which suggests their potential role in stem bulblet formation in L. ‘Aladdin’.
Highlights
(Lilium spp.) is an important bulbous flower worldwide, with various flower types, rich colors and excellent ornamental effect
We split the full-length of LaKNOX1, LaKNOX2 and LaBEL1 into N-terminus and C-terminus, respectively, based on conserved domains to reveal their effects on subcellular localization (Figure 5D)
From stage III to stage IV, LaKNOX1 interacts with LaKNOX2 to up-regulate isopentenyl-type CKs and down-regulate tZ, GA3 and GA4 ; heterodimerization between LaKNOX1 and LaBEL1 promotes isopentenyl-type CKs and ABA but inhibits tZ and IAA
Summary
(Lilium spp.) is an important bulbous flower worldwide, with various flower types, rich colors and excellent ornamental effect. The bulb, as an important commercial and asexual-reproductive organ of lily, attracts much attention and its organogenesis mechanism has been a hot scientific topic. The mechanism of in vitro bulblet formation has been thoroughly researched; knowledge about stem bulblet formation is extremely limited. Stem bulblets, formed in leaf axils of under- (bulblets) and above-ground stem (bulbils), can endow strong self-propagation ability to the lily [1,2,3]. Dynamic changes of multiple phytohormones have been demonstrated to be closely associated with new bulb formation in the lily. In transcriptome comparison of mother scales with or without new bulblets, hormone metabolism was one of the three main
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