A 2 kb DNA fragment, upstream of the rice b-tubulin isotype 16 (Ostub16) coding sequence, was isolated using inverse PCR and screening of a tubulin-enriched l library. An intron (863 bp) present in the 5¢ untranslated region (5¢ UTR) is spliced out to produce the most abundant mRNA species which corresponds to the previously cloned Ostub16 cDNA. Transient expression assays performed on rice embryogenic calluses with chimeric Ostub16::GUS constructs demonstrated that the entire 2 kb upstream sequence has a strong promoter activity, and that the 863 bp intron is required for high-level GUS expression. In addition, the intron sequence is capable per se of sustaining a weak but consistent GUS expression. Two rare Ostub16 transcripts, with a start site mapping within this intron sequence, were detected in rice coleoptile cells. The transcription start site mapped at position ±290 with respect to the ATG codon, and the shorter molecule originated from splicing of the same precursor mRNA. Therefore transcriptional expression of rice b-tubulin isotype 16 results in the synthesis of two premRNA molecules (I and II) encoding for three different mRNA species. We discuss these ®ndings in terms of function and molecular evolution of the mechanisms that control plant b-tubulin gene expression.
The genomic clones containing elements that regulate transcription of the three known rice (Oryza sativa L.) alpha-tubulin isotypes (Ostua1, Ostua2 and Ostua3) have been isolated. We have used these genomic regions to identify the regulatory elements that contribute to the expression of a marker gene (gusA) in transient assays performed on rice calli derived from mature embryos. In all cases, we found that the first intron was required to achieve high levels of expression. This is consistent with data already reported for the alpha-tubulin isotype1 and indicates that a common regulatory mechanism is active on all the members of the rice alpha-tubulin gene family. The enhancing effect of the first intron was then tested by constructing illegitimate combinations of alpha-tubulin promoter and intron sequences (Ostua1pro-Ostua2intro; Ostua1pro-Osuta3intro; Ostua2pro-Ostua3-intro; Ostua3pro-Ostua2intro) and then by assaying beta-glucuronidase (GUS) activity in transformed rice calli. All illegitimate combinations expressed GUS at high level, suggesting that rice alpha-tubulin promoters and introns can be exchanged among the different isotypes. This did not occur when the intron of the rice beta-tubulin isotype16, known to enhance transcription of its own gene, was used in place of the alpha-tubulin intron. We have also analysed the effect of abscisic acid (ABA) on GUS expression in rice calli transformed with chimeric tubalpha2pro-intro::gusA and tubalpha3pro-intro::gusA constructs. ABA was able to reduce GUS expression only in the presence of the tubalpha2pro-intro sequence. We discuss these data in terms of mechanisms that in rice, as opposed to other plants, may control tubulin isotype-specific expression and the involvement of ABA in the regulation of alpha-tubulin expression
We have isolated, from a cDNA library constructed from rice coleoptiles, two sequences, OSCPK2 and OSCPK11, that encode for putative calcium-dependent protein kinase (CDPK) proteins. OSCPK2 and OSCPK11 cDNAs are related to SPK, another gene encoding a rice CDPK that is specifically expressed in developing seeds [20]. OSCPK2 and OSCPK11-predicted protein sequences are 533 and 542 amino acids (aa) long with a corresponding molecular mass of 59436 and 61079 Da respectively. Within their polypeptide chain, they all contain those conserved features that define a plant CDPK; kinase catalytic sequences are linked to a calmodulin-like regulatory domain through a junction region. The calmodulin-like regulatory domain of the predicted OSCPK2 protein contains 4 EF-hand calcium-binding sites while OSCPK11 has conserved just one canonical EF-hand motif. In addition, OSCPK2- and OSCPK11-predicted proteins contain, at their N-terminal region preceding the catalytic domain, a stretch of 80 or 74 residues highly rich in hydrophilic amino acids. Comparison of the NH2-terminal sequence of all three rice CDPKs so far identified (OSCPK2, OSCPK11 and SPK) indicates the presence of a conserved MGxxC(S/Q)xxT motif that may define a consensus signal for N-myristoylation. OSCPK2 and OSCPK11 proteins are both encoded by a single-copy gene and their polyadenylated transcripts are 2.4 and 3.5 kb long respectively. OSCPK2 and OSCPK11 mRNAs are equally abundant in rice roots and coleoptiles. A 12 h white light treatment of the coleoptiles reduces the amount of OSCPK2 mRNA with only a slight effect on the level of OSCPK11 transcript. With anoxic treatments, OSCPK2 mRNA level declined significantly and promptly while the amount of OSCPK11 transcript remained constant.
Duckweeds (Lemnaceae) are the smallest and fastest-growing angiosperms. This feature, together with high starch production and good nutritional properties, makes them suitable for several applications, including wastewater treatment, bioenergy production, or feed and food supplement. Due to their reduced morphology and great similarity between diverse species, taxonomic identification of duckweeds is a challenging issue even for experts. Among molecular genotyping methods, DNA barcoding is the most useful tool for species identification without a need for cluster analysis. The combination of two plastid barcoding loci is now considered the gold standard for duckweed classification. However, not all species can be defined with confidence by these markers, and a fast identification method able to solve doubtful cases is missing. Here we show the potential of tubulin-based polymorphism (TBP), a molecular marker based on the intron length polymorphisms of β-tubulin loci, in the genomic profiling of the genera Spirodela, Landoltia, and Lemna. Ninety-four clones were analyzed, including at least two representatives of each species of the three genera, with a special focus on the very heterogeneous species Lemna minor. We showed that a single PCR amplification with universal primers, followed by agarose gel analysis, was able to provide distinctive fingerprinting profiles for 10 out of 15 species. Cluster analysis of capillary electrophoresis–TBP data provided good separation for the remaining species, although the relationship between L. minor and Lemna japonica was not fully resolved. However, an accurate comparison of TBP profiles provided evidence for the unexpected existence of intraspecific hybrids between Lemna turionifera and L. minor, as further confirmed by amplified fragment length polymorphism and sequence analysis of a specific β-tubulin locus. Such hybrids could possibly correspond to L. japonica, as originally suggested by E. Landolt. The discovery of interspecific hybrids opens a new perspective to understand the speciation mechanisms in the family of duckweeds.
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