Arabidopsis leucine-rich repeat malectin receptor–like kinases regulate pollen–stigma interactions

Author:

Lee Hyun Kyung1ORCID,Canales Sanchez Laura E1ORCID,Bordeleau Stephen J1ORCID,Goring Daphne R12ORCID

Affiliation:

1. Department of Cell and Systems Biology, University of Toronto , Toronto, ON M5S 3B2 , Canada

2. Centre for the Analysis of Genome Evolution and Function, University of Toronto , Toronto, ON M5S 3B2 , Canada

Abstract

Abstract Flowering plants contain tightly controlled pollen–pistil interactions required for promoting intraspecific fertilization and preventing interspecific hybridizations. In Arabidopsis (Arabidopsis thaliana), several receptor kinases (RKs) are known to regulate the later stages of intraspecific pollen tube growth and ovular reception in the pistil, but less is known about RK regulation of the earlier stages. The Arabidopsis RECEPTOR-LIKE KINASE IN FLOWERS1 (RKF1)/RKF1-LIKE (RKFL) 1-3 cluster of 4 leucine-rich repeat malectin (LRR-MAL) RKs was previously found to function in the stigma to promote intraspecific pollen hydration. In this study, we tested additional combinations of up to 7 Arabidopsis LRR-MAL RK knockout mutants, including RKF1, RKFL1-3, LysM RLK1-INTERACTING KINASE1, REMORIN-INTERACTING RECEPTOR1, and NEMATODE-INDUCED LRR-RLK2. These LRR-MAL RKs were discovered to function in the female stigma to support intraspecific Arabidopsis pollen tube growth and to establish a prezygotic interspecific barrier against Capsella rubella pollen. Thus, this study uncovered additional biological functions for this poorly understood group of RKs in regulating the early stages of Arabidopsis sexual reproduction.

Funder

Ontario Graduate Scholarship

Natural Sciences and Engineering Research Council of Canada

Publisher

Oxford University Press (OUP)

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