FERONIA controls pectin- and nitric oxidemediated male–female interaction

Species that propagate by sexual reproduction actively guard against the fertilization of an egg by multiple sperm (polyspermy). Flowering plants rely on pollen tubes to transport their immotile sperm to fertilize the female gametophytes inside ovules. In Arabidopsis, pollen tubes are guided by cyst...

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Bibliographic Details
Published in:Nature (London) 2020-03, Vol.579 (7800), p.561-566
Main Authors: Duan, Qiaohong, Liu, Ming-Che James, Kita, Daniel, Jordan, Samuel S, Yeh, Fang-Ling Jessica, Yvon, Robert, Carpenter, Hunter, Federico, Anthony N, Garcia-Valencia, Liliana E, Eyles, Stephen J, Wang, Co-Shine, Wu, Hen-Ming, Cheung, Alice Y
Format: Article
Language:English
Subjects:
Animal reproduction
Arabidopsis
Attraction
Cell walls
Chemotactic factors
Esterification
Females
Fertilization
Flowering
Flowering plants
Gametophytes
Kinases
Nitric oxide
Ovules
Pectin
Penetration
Plant reproduction
Plants (botany)
Pollen
Pollen tubes
Rainforests
Receptors
Reproduction (biology)
Sexual reproduction
Sperm
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Summary:Species that propagate by sexual reproduction actively guard against the fertilization of an egg by multiple sperm (polyspermy). Flowering plants rely on pollen tubes to transport their immotile sperm to fertilize the female gametophytes inside ovules. In Arabidopsis, pollen tubes are guided by cysteine-rich chemoattractants to target the female gametophyte1,2. The FERONIA receptor kinase has a dual role in ensuring sperm delivery and blocking polyspermy3. It has previously been reported that FERONIA generates a female gametophyte environment that is required for sperm release4. Here we show that FERONIA controls several functionally linked conditions to prevent the penetration of female gametophytes by multiple pollen tubes in Arabidopsis. We demonstrate that FERONIA is crucial for maintaining de-esterified pectin at the filiform apparatus, a region ofthe cell wall at the entrance to the female gametophyte. Pollen tube arrival at the ovule triggers the accumulation of nitric oxide at the filiform apparatus in a process that is dependent on FERONIA and mediated by de-esterified pectin. Nitric oxide nitrosates both precursor and mature forms of the chemoattractant LURE11, respectively blocking its secretion and interaction with its receptor, to suppress pollen tube attraction. Our results elucidate a mechanism controlled by FERONIA in which the arrival of the first pollen tube alters ovular conditions to disengage pollen tube attraction and prevent the approach and penetration of the female gametophyte by late-arriving pollen tubes, thus averting polyspermy.
ISSN:0028-0836
1476-4687
DOI:10.1038/s41586-020-2106-2