Identification of novel putative causative genes and genetic marker for male sterility in Japanese cedar (Cryptomeria japonica D.Don)

• Published in: BMC genomics Vol. 19; no. 1; p. 277
• Main Authors: Mishima, Kentaro, Hirao, Tomonori, Tsubomura, Miyoko, Tamura, Miho, Kurita, Manabu, Nose, Mine, Hanaoka, So, Takahashi, Makoto, Watanabe, Atsushi
• Format: Journal Article
• Language: English
• Published: England BioMed Central Ltd 23.04.2018; BioMed Central; BMC
• Subjects: Cedars; Cryptomeria - genetics; Cryptomeria - physiology; Cryptomeria japonica; Cytoplasmic male sterility; Genes, Plant - genetics; Genetic aspects; Genetic Markers - genetics; Genotype; High-Throughput Nucleotide Sequencing; Male sterility; Marker-assisted selection; Phenotype; Physiological aspects; Plant Infertility - genetics; Polymorphism, Single Nucleotide; Single nucleotide polymorphisms; SNP discovery; Japan; Male sterility; Cryptomeria japonica; Marker-assisted selection; SNP discovery
• ISSN: 1471-2164; 1471-2164
• DOI: 10.1186/s12864-018-4581-5

Japanese cedar (Cryptomeria japonica) is an important tree for Japanese forestry. Male-sterile marker development in Japanese cedar would facilitate selection of male-sterile plus trees, addressing the widespread social problem of pollinosis and facilitating the identification of heterozygotes, which are useful for breeding. This study used next-generation sequencing for single-nucleotide polymorphism discovery in libraries constructed from several organs, including male-sterile and male-fertile strobili. The single-nucleotide polymorphisms obtained were used to construct a high-density linkage map, which enabled identification of a locus on linkage group 9 strongly correlated with male-sterile trait. Expressed sequence tags corresponding to 11 marker loci from 5 isotigs were associated with this locus within 33.4-34.5 cM. These marker loci explained 100% of the phenotypic variation. Several homologs of these sequences are associated with male sterility in rice or Arabidopsis, including a pre-mRNA splicing factor, a DEAD-box protein, a glycosyl hydrolase, and a galactosyltransferase. These proteins are thus candidates for the causal male-sterile gene at the ms-1 locus. After we used a SNaPshot assay to develop markers for marker-assisted selection (MAS), we tested F progeny between male-sterile and wild-type plus trees to validate the markers and extrapolated the testing to a larger plus-tree population. We found that two developed from one of the candidates for the causal gene were suitable for MAS. More than half of the ESTs and SNPs we collected were new, enlarging the genomic basis for genetic research on Japanese cedar. We developed two SNP markers aimed at MAS that distinguished individuals carrying the male-sterile trait with 100% accuracy, as well as individuals heterozygous at the male-sterile locus, even outside the mapping population. These markers should enable practical MAS for conifer breeding.