Schmitt Anthony J, Roy Rahul, Klinkenberg Peter M, Jia Mengyuan, Carter Clay J
Department of Plant and Microbial Biology, University of Minnesota Twin Cities, St. Paul, MN, United States.
Front Plant Sci. 2018 Aug 8;9:1060. doi: 10.3389/fpls.2018.01060. eCollection 2018.
Over 75% of crop species produce nectar and are dependent on pollinators to achieve maximum seed set, yet little is known about the mechanisms regulating nectar secretion. The phytohormone jasmonic acid (JA) is recognized to be involved in several plant processes including development and defense. JA was also recently shown to positively influence nectar secretion in both floral and extrafloral nectaries. For example, endogenous JA levels peak in flowers just prior to nectar secretion, but the details of how JA regulates nectar secretion have yet to be elucidated. We have found that the octadecanoid pathway does indeed play a role in the production and regulation of floral nectar in Arabidopsis. Null alleles for several JA biosynthesis and response genes had significantly reduced amounts of nectar, as well as altered expression of genes known to be involved in nectar production. We additionally identified crosstalk between the JA and auxin response pathways in nectaries. For example, the nectar-less JA synthesis mutant showed no auxin response in nectaries, but both nectar production and the auxin response were restored upon exogenous JA and auxin treatment. Conversely, , a JA-Ile-insensitive receptor mutant, displayed no auxin response in nectaries under any circumstance, even in older flowers that produced nectar. Surprisingly, , a mutant for 3 [an enzyme further down the JA biosynthetic pathway that reduces 12-oxo phytodienoic acid (OPDA)], produced no nectar in newly opened flowers, but did secrete nectar in older flowers. Furthermore, a similar phenotype was observed in . Cumulatively, these observations strongly suggest an indispensable role for an octadecanoic acid- and auxin-dependent, but JA- and COI1-dispensible, pathway in regulating nectar production in Arabidopsis.
超过75%的作物物种会分泌花蜜,并且依赖传粉者来实现最大结实率,但关于调节花蜜分泌的机制却知之甚少。植物激素茉莉酸(JA)被认为参与了包括发育和防御在内的多个植物过程。最近还发现JA对花内和花外蜜腺的花蜜分泌均有积极影响。例如,内源性JA水平在花蜜分泌前在花中达到峰值,但JA如何调节花蜜分泌的细节仍有待阐明。我们发现,在拟南芥中,十八烷酸途径确实在花蜜的产生和调节中发挥作用。几个JA生物合成和响应基因的无效等位基因导致花蜜量显著减少,以及参与花蜜产生的已知基因的表达发生改变。我们还发现了蜜腺中JA和生长素响应途径之间的相互作用。例如,无花蜜的JA合成突变体在蜜腺中没有生长素响应,但在外源JA和生长素处理后,花蜜产生和生长素响应都恢复了。相反,一个JA-Ile不敏感受体突变体,在任何情况下蜜腺中都没有生长素响应,即使在能产生花蜜的老花中也是如此。令人惊讶的是,一个3(JA生物合成途径中进一步下游的一种将12-氧代植物二烯酸(OPDA)还原的酶)的突变体,在新开的花中不产生花蜜,但在老花中确实分泌花蜜。此外,在中也观察到了类似的表型。总的来说,这些观察结果强烈表明,在调节拟南芥花蜜产生过程中,存在一条依赖十八烷酸和生长素,但不依赖JA和COI1的不可或缺的途径。
