Molecular characterization and expression analysis of S1 self-incompatibility locus-linked pollen 3.15 gene in Citrus reticulata.

Gametophytic self-incompatibility (GSI) is controlled by a highly polymorphic locus called the S-locus, which is an important factor that can result in seedless fruit in Citrus. The S1 self-incompatibility locus-linked pollen 3.15 gene (S1-3.15 ) belongs to a type of S locus gene. The role of S1-3.15 in the SI reaction of Citrus has not yet been reported. In this study, full-length sequences of cDNA and DNA encoding the S1-3.15 gene, referred to as CrS1-3.15 , were isolated from 'Wuzishatangju' (Self-incompatibility, SI) and 'Shatangju' (Self-compatibility, SC). The predicted amino acid sequences of CrS1-3.15 between 'Wuzishatangju' and 'Shatangju' differ by only three amino acids. Compared to 'Wuzishatangju', three bases were substituted in the genomic DNA of CrS1-3.15 from 'Shatangju'. Southern blot results showed that one copy of CrS1-3.15 existed in the genomic DNA of both 'Wuzishatangju' and 'Shatangju'. The expression level of the CrS1-3.15 gene in the ovaries of 'Shatangju' was approximately 60-fold higher than that in the ovaries of 'Wuzishatangju'. When 'Wuzishatangju' was cross-pollinated, the expression of CrS1-3.15 was upregulated in the ovaries at 3 d, and the highest expression levels were detected in the ovaries at 6 d after cross-pollination of 'Wuzishatangju' × 'Shatangju'. To obtain the CrS1-3.15 protein, the full-length cDNA of CrS1-3.15 genes from 'Wuzishatangju' and 'Shatangju' was successfully expressed in Pichia pastoris. Pollen germination frequency of 'Wuzishatangju' was inhibited significantly with increasing CrS1-3.15 protein concentrations from SI 'Wuzishatangju'.

Molecular characterization and expression analysis of ubiquitin-activating enzyme E1 gene in Citrus reticulata.

Ubiquitin-activating enzyme E1 (UBE1) catalyzes the first step in the ubiquitination reaction, which targets a protein for degradation via a proteasome pathway. UBE1 plays an important role in metabolic processes. In this study, full-length cDNA and DNA sequences of UBE1 gene, designated CrUBE1, were obtained from 'Wuzishatangju' (self-incompatible, SI) and 'Shatangju' (self-compatible, SC) mandarins. 5 amino acids and 8 bases were different in cDNA and DNA sequences of CrUBE1 between 'Wuzishatangju' and 'Shatangju', respectively. Southern blot analysis showed that there existed only one copy of the CrUBE1 gene in genome of 'Wuzishatangju' and 'Shatangju'. The temporal and spatial expression characteristics of the CrUBE1 gene were investigated using semi-quantitative RT-PCR (SqPCR) and quantitative real-time PCR (qPCR). The expression level of the CrUBE1 gene in anthers of 'Shatangju' was approximately 10-fold higher than in anthers of 'Wuzishatangju'. The highest expression level of CrUBE1 was detected in pistils at 7days after self-pollination of 'Wuzishatangju', which was approximately 5-fold higher than at 0 h. To obtain CrUBE1 protein, the full-length cDNA of CrUBE1 genes from 'Wuzishatangju' and 'Shatangju' were successfully expressed in Pichia pastoris. Pollen germination frequency of 'Wuzishatangju' was significantly inhibited with increasing of CrUBE1 protein concentrations from 'Wuzishatangju'.

Cloning and expression analysis of S-RNase homologous gene in Citrus reticulata Blanco cv. Wuzishatangju.

S-RNase-based self-incompatibility is the most widespread form of genetically controlled mate selection in plants and that S-RNase controls pollination specificity in the pistils. 'Wuzishatangju' (Citrus reticulata Blanco), a nature bud mutant from a self-compatible (SC) cultivar 'Shatangju', displays gametophytic self-incompatibility (GSI). In this study, full-length sequences of cDNA and DNA of the S-RNase homologous gene were obtained from 'Wuzishatangju' and 'Shatangju'. There was no difference in ORF sequences of the S-RNase cDNA between 'Wuzishatangju' and 'Shatangju'. However, 13, 9 and 6 consecutive bases were missing in 'Wuzishatangju' cDNA 5' UTR, 3' UTR and genomic DNA, respectively. Tissue-specific expression of the S-RNase gene was detected using semi-quantitative RT-PCR and quantitative real-time PCR. The expression level of the S-RNase gene in styles of 'Wuzishatangju' was approximately 10- and 5-fold higher than that in leaves and pollen, respectively. When 'Wuzishatangju' was self-pollinated, the expression of S-RNase in pistils peaked at 3 days, which was approximately 10-fold higher than that at 4h and 7 days, while in cross-pollination of 'Wuzishatangju' x 'Shatangju' the expression was very weak at 3 days. Results from a Southern blot showed that two copies of the S-RNase gene existed in genomic DNA of both 'Wuzishatangju' and 'Shatangju'.