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<i>FER</i> and <i>LecRK</i> show haplotype-dependent cold-responsiveness and mediate freezing tolerance in <i>Lotus japonicus</i>

Yusdar Mustamin, Turgut Yigit Akyol, Max Gordon, Andi Madihah Manggabarani, Yoshiko Isomura, Yasuko Kawamura, Masaru Bamba, Cranos Williams, Stig Uggerhøj Andersen, Shusei Sato

2022PLANT PHYSIOLOGY10 citationsDOIOpen Access PDF

Abstract

Many plant species have succeeded in colonizing a wide range of diverse climates through local adaptation, but the underlying molecular genetics remain obscure. We previously found that winter survival was a direct target of selection during colonization of Japan by the perennial legume Lotus japonicus and identified associated candidate genes. Here, we show that two of these, FERONIA-receptor like kinase (LjFER) and a S-receptor-like kinase gene (LjLecRK), are required for non-acclimated freezing tolerance and show haplotype-dependent cold-responsive expression. Our work suggests that recruiting a conserved growth regulator gene, FER, and a receptor-like kinase gene, LecRK, into the set of cold-responsive genes has contributed to freezing tolerance and local climate adaptation in L. japonicus, offering functional genetic insight into perennial herb evolution.

Topics & Concepts

LotusFreezing toleranceBiologyLotus japonicusHaplotypeCold toleranceBotanyGeneticsGeneGenotypeMutantPlant Molecular Biology ResearchPlant Stress Responses and TolerancePlant Reproductive Biology
<i>FER</i> and <i>LecRK</i> show haplotype-dependent cold-responsiveness and mediate freezing tolerance in <i>Lotus japonicus</i> | Litcius