MIK2 is a candidate gene of the S-locus for sporophytic self-incompatibility in chicory (Cichorium intybus, Asteraceae)

Fabio Palumbo; Samela Draga; Gabriele Magon; Giovanni Gabelli; Alessandro Vannozzi; Silvia Farinati; Francesco Scariolo; Margherita Lucchin; Gianni Barcaccia

doi:10.3389/fpls.2023.1204538

MIK2 is a candidate gene of the S-locus for sporophytic self-incompatibility in chicory (Cichorium intybus, Asteraceae)

Front Plant Sci. 2023 Jun 2:14:1204538. doi: 10.3389/fpls.2023.1204538. eCollection 2023.

Authors

Fabio Palumbo¹, Samela Draga¹, Gabriele Magon¹, Giovanni Gabelli¹, Alessandro Vannozzi¹, Silvia Farinati¹, Francesco Scariolo¹, Margherita Lucchin¹, Gianni Barcaccia¹

Affiliation

¹ Department of Agronomy, Food, Natural resources, Animals and Environment (DAFNAE), University of Padua, Padua, Italy.

Abstract

The Cichorium genus offers a unique opportunity to study the sporophytic self-incompatibility (SSI) system, being composed of species characterized by highly efficient self-incompatibility (e.g., C. intybus) and complete self-compatibility (e.g., C. endivia). To this end, the chicory genome was used to map seven previously identified SSI locus-associated markers. The region containing the S-locus was therefore restricted to an ~4 M bp window on chromosome 5. Among the genes predicted in this region, MDIS1 INTERACTING RECEPTOR LIKE KINASE 2 (ciMIK2) was particularly promising as a candidate for SSI. Its ortholog in Arabidopsis (atMIK2) is involved in pollen-stigma recognition reactions, and its protein structure is similar to that of S-receptor kinase (SRK), a key component of the SSI system in the Brassica genus. The amplification and sequencing of MIK2 in chicory and endive accessions revealed two contrasting scenarios. In C. endivia, MIK2 was fully conserved even when comparing different botanical varieties (i.e., smooth and curly endive). In C. intybus, 387 polymorphic positions and 3 INDELs were identified when comparing accessions of different biotypes all belonging to the same botanical variety (i.e., radicchio). The polymorphism distribution throughout the gene was uneven, with hypervariable domains preferentially localized in the LRR-rich extracellular region, putatively identified as the receptor domain. The gene was hypothesized to be under positive selection, as the nonsynonymous mutations were more than double the synonymous ones (dN/dS = 2.17). An analogous situation was observed when analyzing the first 500 bp of the MIK2 promoter: no SNPs were observed among the endive samples, whereas 44 SNPs and 6 INDELs were detected among the chicory samples. Further analyses are needed to confirm the role of MIK2 in SSI and to demonstrate whether the 23 species-specific nonsynonymous SNPs in the CDS and/or the species-specific 10 bp-INDEL found in a CCAAT box region of the promoter are responsible for the contrasting sexual behaviors of chicory and endive.

Keywords: AT4G08850; MDIS1 INTERACTING RECEPTOR LIKE KINASE 2; endive; pollen-stigma recognition; reproductive systems.

Grants and funding

This study was performed within the Agritech National Research Center and received funding from the European Union Next-Generation EU (Piano Nazionale di Ripresa e Resilienza (PNRR)—Missione 4 Componente 2, Investimento 1.4—D.D. 1032 17/06/2022, CN00000022. Our study represents an original paper related to Spoke 1 “Plant, animal and microbial genetic resources and adaptation to climate changes”. In particular, it is a baseline for the fulfilment of milestones within Task 1.3.5 titled “Genome-wide strategies for fast-forward molecular breeding aimed at the assessment of genetic distinctiveness, uniformity and stability (DUS) and identity of pre-commercial varieties”.