Identifying Genome-Wide Sequence Variations and Candidate Genes Implicated in Self-Incompatibility by Resequencing Fragaria viridis.

Jianke Du,Chunfeng Ge,Jinsong Xiong,Yushan Qiao,Yan Lv,Shahid Iqbal

doi:10.3390/ijms20051039

Jianke Du, Chunfeng Ge + Show 4 more

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https://doi.org/10.3390/ijms20051039

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Abstract

It is clear that the incompatibility system in Fragaria is gametophytic, however, the genetic mechanism behind this remains elusive. Eleven second-generation lines of Fragaria viridis with different compatibility were obtained by manual self-pollination, which can be displayed directly by the level of fruit-set rate. We sequenced two second-generation selfing lines with large differences in fruit-set rate: Ls-S2-53 as a self-incompatible sequencing sample, and Ls-S2-76 as a strong self-compatible sequencing sample. Fragaria vesca was used as a completely self-compatible reference sample, and the genome-wide variations were identified and subsequently annotated. The distribution of polymorphisms is similar on each chromosome between the two sequencing samples, however, the distribution regions and the number of homozygous variations are inconsistent. Expression pattern analysis showed that six candidate genes were significantly associated with self-incompatibility. Using F. vesca as a reference, we focused our attention on the gene FIP2-like (FH protein interacting protein), associated with actin cytoskeleton formation, as the resulting proteins in Ls-S2-53 and Ls-S2-76 have each lost a number of different amino acids. Suppression of FIP2-like to some extent inhibits germination of pollen grains and growth of pollen tubes by reducing F-actin of the pollen tube tips. Our results suggest that the differential distribution of homozygous variations affects F. viridis fruit-set rate and that the fully encoded FIP2-like can function normally to promote F-actin formation, while the new FIP2-like proteins with shortened amino acid sequences have influenced the (in)compatibility of two selfing lines of F. viridis.

Highlights

Fragaria viridis Weston, known as the green strawberry, belongs to a diploid wild resource of the genus Fragaria of Rosaceae and is a potential breeding material for the character optimization of cultivated strawberry
We further analyzed the distribution patterns of the variations and found that the distribution region and the number of the homozygous variations were especially different on the chromosomes of the two sequencing samples, which could explain the different fruit-set rate or self-incompatibility intensities
We screened and functionally annotated the sequence variations that might lead to changes in the encoded amino acids between the three different samples, and predicted the identity of the gene related to self-incompatibility of F. viridis

Summary

Introduction

Fragaria viridis Weston, known as the green strawberry, belongs to a diploid wild resource of the genus Fragaria of Rosaceae and is a potential breeding material for the character optimization of cultivated strawberry. It has a variety of excellent properties, such as firm flesh, remontant flowering habit, good flower characteristics, and an acidic apple-like aroma [1]. Self-compatibility has been reported in Fragaria vesca [2], F. viridis has gametophytic self-incompatibility [1,3]. The lowest fruit-set rate was only 2%, while the highest was up to 80%, this is still different from the completely compatible F. vesca 41 (100% rate of fruit-set in this study), and the molecular mechanisms governing the differences in fruit-set rate are unknown

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