The DROL1 subunit of U5 snRNP in the spliceosome is specifically required to splice AT-AC-type introns in Arabidopsis.

An Arabidopsis mutant named defective repression of OLE3::LUC 1 (drol1) was originally isolated as a mutant with defects in the repression of OLEOSIN3 (OLE3) after seed germination. In this study, we show that DROL1 is an Arabidopsis homolog of yeast DIB1, a subunit of the U5 small nuclear ribonucleoprotein particle (snRNP) in the spliceosome. It is also part of a new subfamily that is specific to a certain class of eukaryotes. Comprehensive analysis of the intron splicing using RNA sequencing analysis of the drol1 mutants revealed that most of the minor introns with AT-AC dinucleotide termini had reduced levels of splicing. Only two nucleotide substitutions from AT-AC to GT-AG enabled AT-AC-type introns to be spliced in drol1 mutants. Forty-eight genes, including those having important roles in abiotic stress responses and cell proliferation, exhibited reduced splicing of AT-AC-type introns in the drol1 mutants. Additionally, drol1 mutant seedlings showed retarded growth, similar to that caused by the activation of abscisic acid signaling, possibly as a result of reduced AT-AC-type intron splicing in the endosomal Na+ /H+ antiporters and plant-specific histone deacetylases. These results indicate that DROL1 is specifically involved in the splicing of minor introns with AT-AC termini and that this plays an important role in plant growth and development.

Development of the Mitsucal computer system to identify causal mutation with a high-throughput sequencer.

KEY MESSAGE: Development of Mitsucal. Recent advances in DNA sequencing technology have facilitated whole-genome sequencing of mutants and variants. However, the analyses of large sequence datasets using a computer remain more difficult than operating a sequencer. Forward genetic approach is powerful even in sexual reproduction to identify key genes. Therefore, we developed the Mitsucal computer system for identifying causal genes of mutants, using whole-genome sequence data. Mitsucal includes a user-friendly web interface to configure analysis variables, such as background and crossed strains. Other than configuration, users are only required to upload short reads. All results are presented through a web interface where users can easily obtain a short list of candidate mutations. In the present study, we present three examples of Arabidopsis mutants defective in sexual reproduction in which Mitsucal is used to identify causal mutation. One mutant was screened from seeds of a transgenic line with a reporter gene to elucidate the mechanisms involved in the regulation of seed oil storage. The identified gene codes for a protein may be involved in mRNA splicing. Other two mutants had defects in the surface walls on pollen termed exine. Both causal genes were identified, and mutants were found to be allele of known mutants. These results show that Mitsucal could facilitate identification of causal genes.

An AP2-type transcription factor, WRINKLED1, of Arabidopsis thaliana binds to the AW-box sequence conserved among proximal upstream regions of genes involved in fatty acid synthesis.

Although an APETALA2 (AP2)-type transcription factor, WRINKLED1 (WRI1), has been shown to be required for accumulation of triacylglycerols (TAGs) in Arabidopsis seeds, its direct target genes have not been established. Overexpression of WRI1 up-regulated a set of genes involved in fatty acid (FA) synthesis in plastids, including genes for a subunit of pyruvate kinase (Pl-PKbeta1), acetyl-CoA carboxylase (BCCP2), acyl carrier protein (ACP1), and ketoacyl-acyl carrier protein synthase (KAS1), while expression of these genes is reduced in mutants with reduced WRI1 expression. Transient expression of LUC reporter genes with the proximal sequences upstream from the ATG codon of Pl-PKbeta1, BCCP2, and KAS1 in protoplasts was activated by co-expression of WRI1, and recombinant WRI1 bound to these upstream sequences in vitro. The seven WRI1 binding sites shared a sequence [CnTnG](n)(7)[CG], where n is any nucleotide designated as the AW-box, and mutations in AW-boxes near the transcription start site and in the 5'-untranslated region of Pl-PKbeta1 abolished activation by WRI1 in protoplasts and expression during seed maturation. Although expression of genes for the synthesis of TAGs and packaging into oil bodies in the endoplasmic reticulum in developing seeds required WRI1, their expression was not up-regulated by WRI1 overexpression. Thus, WRI1 promotes the flow of carbon to oil during seed maturation by directly activating genes involved in FA synthesis and controlling genes for assembly and storage of TAG.

Improved Gateway binary vectors: high-performance vectors for creation of fusion constructs in transgenic analysis of plants.

We made a series of improved Gateway binary vectors (pGWBs) for plant transformation. Fifteen different reporters and tags, sGFP, GUS, LUC, EYFP, ECFP, G3GFP, mRFP, 6xHis, FLAG, 3xHA, 4xMyc, 10xMyc, GST, T7, and TAP, were employed. Some vectors carry the 2x35S-Omega promoter for higher-level expression. The kanamycin- and hygromycin-resistant markers are independently available for each of the 43 types of vectors, thus an additional transformation of once-transformed plants can be carried out easily. Their small size and high-copy number in Escherichia coli make possible easier handling at plasmid preparation and sequencing. Improved pGWBs should be a powerful tool for transgenic research in plants.