Mitsuo Omura

Ectopic Expression of an FT Homolog from Citrus Confers an Early Flowering Phenotype on Trifoliate Orange (Poncirus trifoliata L. Raf.)

Citrus FT (CiFT) cDNA, which promoted the transition from the vegetative to the reproductive phase in Arabidopsis thaliana, when constitutively expressed was introduced into trifoliate orange (Poncirus trifoliata L. Raf.). The transgenic plants in which CiFT was expressed constitutively showed early flowering, fruiting, and characteristic morphological changes. They started to flower as early as 12 weeks after transfer to a greenhouse, whereas wild-type plants usually have a long juvenile period of several years. Most of the transgenic flowers developed on leafy inflorescences, apparently in place of thorns; however, wild-type adult trifoliate orange usually develops solitary flowers in the axils of leaves. All of the transgenic lines accumulated CiFT mRNA in their shoots, but there were variations in the accumulation level. The transgenic lines showed variation in phenotypes, such as time to first flowering and tree shape. In F1 progeny obtained by crossing ‘Kiyomi’ tangor (C. unshiu × sinensis) with the pollen of one transgenic line, extremely early flowering immediately after germination was observed. The transgene segregated in F1 progeny in a Mendelian fashion, with complete co-segregation of the transgene and the early flowering phenotype. These results showed that constitutive expression of CiFT can reduce the generation time in trifoliate orange.

Differences in seasonal expression of flowering genes between deciduous trifoliate orange and evergreen Satsuma mandarin

To determine differences in seasonal flowering between evergreen and deciduous woody perennials, endogenous expression of flowering-related genes was investigated in Satsuma mandarin (Citrus unshiu Marc.) and its close relative, trifoliate orange (Poncirus trifoliata (L.) Raf.), which are evergreen and deciduous, respectively, and show different seasonal flowering characteristics. In Satsuma mandarin, in which floral induction is triggered by low temperatures during fall and winter, mRNA levels of the citrus FLOWERING LOCUS T homologue CiFT increased during fall and winter, corresponding to the floral induction period, and mRNA levels of citrus LEAFY and SEPALLATA homologues (CsLFY and CuSEP) increased during early spring just before blooming. Citrus APETALA1 and FRUITFULL homologues (CsAP1 and CuFUL) did not show a significant association with seasonal flowering. In trifoliate orange, in which floral induction and flower bud development occur during early summer as in many deciduous trees, expression of CiFT, CsLFY, CsAP1, CuSEPs and CuFUL increased during early summer, corresponding to the period of floral induction and flower bud development. The CuSEPs expression peaked again during early spring just before blooming. In both species, the citrus TERMINAL FLOWER1 homologue (CsTFL), which acts as a floral repressor, showed low transcript levels during the period of floral induction and flower bud development. Thus, despite the difference in flowering season, in both species transcriptional changes in CiFT, CsLFY, CsTFL and CuSEPs were correlated with seasonal flowering. In contrast, the correspondence between CsAP1 and CuFUL expression and seasonal flowering differed between the species.

Characterization of genomic sequence showing strong association with polyembryony among diverse Citrus species and cultivars, and its synteny with Vitis and Populus

Polyembryony, in which multiple somatic nucellar cell-derived embryos develop in addition to the zygotic embryo in a seed, is common in the genus Citrus. Previous genetic studies indicated polyembryony is mainly determined by a single locus, but the underlying molecular mechanism is still unclear. As a step towards identification and characterization of the gene or genes responsible for nucellar embryogenesis in Citrus, haplotype-specific physical maps around the polyembryony locus were constructed. By sequencing three BAC clones aligned on the polyembryony haplotype, a single contiguous draft sequence consisting of 380 kb containing 70 predicted open reading frames (ORFs) was reconstructed. Single nucleotide polymorphism genotypes detected in the sequenced genomic region showed strong association with embryo type in Citrus, indicating a common polyembryony locus is shared among widely diverse Citrus cultivars and species. The arrangement of the predicted ORFs in the characterized genomic region showed high collinearity to the genomic sequence of chromosome 4 of Vitis vinifera and linkage group VI of Populus trichocarpa, suggesting that the syntenic relationship among these species is conserved even though V. vinifera and P. trichocarpa are non-apomictic species. This is the first study to characterize in detail the genomic structure of an apomixis locus determining adventitious embryony.

Characterization of genes associated with polyembryony and in vitro somatic embryogenesis in Citrus

Apomixis is a common reproduction system in the genus Citrus. To investigate the molecular mechanism of apomictic embryogenesis in Citrus, genes expressed specifically in an apomictic genotype were isolated by PCR-selected suppression subtractive hybridization with total RNAs obtained from the ovule at anthesis. Several genes showing conspicuously different expressions between polyembryonic (apomictic) and monoembryonic (nonapomictic) genotypes were selected, and their expression profiles during ovule development were analyzed in detail. This analysis identified two apomictic and three nonapomictic genotype-specific genes. Among the latter, msg-2 was highly expressed in the late stage of somatic embryogenesis. Specific expression during ovule development in monoembryonic cultivars and in the late stage of somatic embryogenesis indicated that msg-2 is not expressed in the initiation stage of polyembryogenesis and somatic embryogenesis, suggesting its role in suppressing initial cell formation of somatic embryos. The full-length complementary DNA of msg-2 contained small open reading frames in its sequence but showed no homology to functionally known genes in the public databases. As sequences similar to msg-2 were frequently found among Citrus expressed sequence tags, msg-2 may be associated with polyembryogenesis and somatic embryogenesis in a Citrus-specific manner.

Phylogenetic relationships among Japanese flowering cherries (Prunus subgenus Cerasus) based on nucleotide sequences of chloroplast DNA

Flowering cherries are classified into Prunus subgenus Cerasus (family Rosaceae). Nine species and some varieties originated in Japan were used in this study. Phylogenetic relationships among Japanese taxa were analyzed by four chloroplast regions using 46 individuals from 16 taxa. Eighteen haplotypes were distinguished. P.pendula f. ascendens and P. cerasoides formed a clade which is distantly related to other Japanese taxa. These two species were morphologically different from other taxa. All Japanese taxa except for P. pendula f. ascendens formed another clade. All taxa in this clade except for P. maximowiczii showed very similar sequences. However, these taxa could be identified by many morphological characters. Even now, based on previous work, it is thought that interspecific hybridization frequently occurs in flowering cherries. We conclude from the current study, Japanese flowering cherries have experienced complicated speciation arising from hybridization.

Expressed sequence tags of ovary tissue cDNA library in Citrus unshiu Marc

To characterize the gene expression and regulation associated with anthesis stage of fruit development a total of 824 clones were randomly selected and sequenced from a cDNA library prepared from ovary tissue of Satsuma mandarin (Citrus unshiu Marc) at the anthesis stage. Clones derived from rDNA, mitochondrial and chloroplastic DNAs were removed and the remaining 544 cDNA clones were analyzed for homology with known sequences. From this analysis 455 clones were identified as homologues of a known gene or an expressed sequence tag (EST). We found 103 cDNA clones that were not detected in our previous analyses of Citrus ESTs including gene homologues related to transcription factors, molecular chaperones, and plant hormone biosynthesis/regulation. In addition, gene homologues related to amino acid biosynthesis, secondary metabolism and stress response were frequently detected, indicating that the ovary tissue may be metabolically active and have the intrinsic ability to react to biotic and abiotic stresses.

Transcriptional changes in CiFT-introduced transgenic trifoliate orange (Poncirus trifoliata L. Raf.)

Ectopic expression of a Flowering Locus T (CiFT) from Citrus confers an early flowering phenotype on trifoliate orange (Poncirus trifoliata L. Raf.). To profile transcriptional effects of CiFT, mRNA extracted from the shoots of the transgenic trifoliate orange was subjected to genetic analysis using a 22-K oligo DNA microarray. Microarray results and reverse transcription polymerase chain reaction analysis indicated that genes relating to transcription, cell wall modification and defense responses were expressed at higher levels in the transgenic shoots than in the control wild-type shoots. Of the genes showing ectopic mRNA accumulation, two SEPALLATA (SEP) and one FRUITFULL (FUL) homologues (CuSEP1, CuSEP3 or CuFUL) were introduced to Arabidopsis thaliana. Constitutive expression of each gene caused early flowering in transgenic Arabidopsis, suggesting that these genes could function as regulators of flowering time.

Characterization of three linalool synthase genes from Citrus unshiu Marc. and analysis of linalool-mediated resistance against Xanthomonas citri subsp. citri and Penicilium italicum in citrus leaves and fruits

Three cDNA clones from Satsuma mandarin (Citrus unshiu Marc.) were isolated and expressed in Escherichia coli. CuSTS3-1 and CuSTS3-2 encode linalool synthases and CuSTS4 encodes a nerolidol/linalool synthase. Transcripts of CuSTS3-1, CuSTS3-2 and CuSTS4 were abundant in young fruit at 60 days after flowering (DAF), flowers and leaves, respectively. Treatments with Xanthomonas citri subsp. citri (XCC), the causal agent of citrus canker and Penicillium italicum (PI), the cause of post-harvest fruit decay, and wounding up-regulated CuSTS3-1 in fruit and mainly CuSTS4 in leaves. Linalool, citral, geraniol and citronellol showed strong antibacterial and antifungal activities against XCC and PI in vitro, while most other mono-and sesquiterpenes, including limonene and gamma-terpinene, did not. Linalool, used at levels similar to those present in resistant Ponkan mandarin (Citrus reticulata Blanco) leaves, was able to inhibit growth of XCC in vitro. Compared to other five citrus types, linalool accumulated at extraordinarily high levels in Ponkan mandarin leaves and was released at high amounts from their leaves, while it was hardly detectable in the most susceptible species, indicating that linalool biosynthesis and accumulation might be involved in plant defense against bacterial and fungal pathogens and be associated with field resistance to citrus canker.

Molecular cloning of a homologue of dad-1 gene in citrus: distinctive expression during fruit development.

A cDNA homologue to the human defender against apoptotic death gene (dad-1), which is involved in programmed cell death, was isolated from satsuma mandarin (Citrus unshiu Marc.) fruit. It (Citdad-1-1) was 345 bp long, with a deduced protein sequence of 115 amino acids. Southern hybridization suggests that dad-1-related sequences are present as a small gene family in the citrus genome. Expression of Citdad-1-1 was progressively down-regulated in leaves as they matured, but not in juice sac/segment epidermis (edible part) towards fruit ripening. The role of dad-1 during citrus development is also discussed.

Overexpression of a citrus basic helix-loop-helix transcription factor (CubHLH1), which is homologous to Arabidopsis activation-tagged bri1 suppressor 1 interacting factor genes, modulates carotenoid metabolism in transgenic tomato

To explore the transcription factors associated with carotenoid metabolism in citrus fruit, one transcription factor (CubHLH1) was selected through microarray screening in Satsuma mandarin (Citrus unshiu Marc.) fruit, which was treated with exogenous ethylene or gibberellin (GA), accelerating or retarding carotenoid accumulation in peel, respectively. The amino acid sequence of CubHLH1 has homology to Arabidopsis activation-tagged bri1 suppressor 1 (ATBS1) interacting factor (AIF), which is functionally characterized as a negative regulator of the brassinolide (BR) signalling pathway. Yeast two-hybrid analysis revealed that protein for CubHLH1 could interact with Arabidopsis and tomato ATBS1. Overexpression of CubHLH1 caused a dwarf phenotype in transgenic tomato (Solanum lycopersicum L.), suggesting that CubHLH1 has a similar function to Arabidopsis AIF. In the transgenic tomato fruit at ripening stage, the lycopene content was reduced along with the changes in carotenoid biosynthetic gene expression. The abscisic acid (ABA) content of all the transgenic tomato fruit was higher than that of the wild type. These results implied that CubHLH1 is considered to have a similar function to Arabidopsis AIFs and might be directly involved in carotenoid metabolism in mature citrus fruit.