Chieko Sugita scite author profile

In the unicellular cyanobacterium Synechococcus elongatus PCC 7942, essentially all promoter activities are under the control of the circadian clock under continuous light (LL) conditions. Here, we used high-density oligonucleotide arrays to explore comprehensive profiles of genome-wide Synechococcus gene expression in wild-type, kaiABC-null, and kaiC-overexpressor strains under LL and continuous dark (DD) conditions. In the wild-type strains, >30% of transcripts oscillated significantly in a circadian fashion, peaking at subjective dawn and dusk. Such circadian control was severely attenuated in kaiABC-null strains. Although it has been proposed that KaiC globally represses gene expression, our analysis revealed that dawn-expressed genes were up-regulated by kaiC-overexpression so that the clock was arrested at subjective dawn. Transfer of cells to DD conditions from LL immediately suppressed expression of most of the genes, while the clock kept even time in the absence of transcriptional feedback. Thus, the Synechococcus genome seems to be primarily regulated by light/ dark cycles and is dramatically modified by the protein-based circadian oscillator.circadian clock ͉ cyanobacteria ͉ genome-wide expression ͉ KaiC ͉ light:dark

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Complete chloroplast DNA sequence of the moss Physcomitrella patens: evidence for the loss and relocation of rpoA from the chloroplast to the nucleus

Sugiura

Kobayashi²,

Aoki³

et al. 2003

Nucleic Acids Research

202

165

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The complete chloroplast DNA sequence (122 890 bp) of the moss Physcomitrella patens has been determined. The genome contains 83 protein, 31 tRNA and four rRNA genes, and a pseudogene. Four protein genes (rpoA, cysA, cysT and ccsA) found in the liverwort Marchantia polymorpha and the hornwort Anthoceros formosae are absent from P.patens. The overall structure of P.patens chloroplast DNA (cpDNA) differs substantially from that of liverwort and hornwort. Compared with its close relatives, a 71 kb region from petD to rpoB of P.patens is inverted. To investigate whether this large inversion and the loss of rpoA usually occur in moss plants, we analyzed amplified cpDNA fragments from four moss species. Our data indicate that the large inversion occurs only in P.patens, whereas the loss of the rpoA gene occurs in all mosses. Moreover, we have isolated and characterized the nuclear rpoA gene encoding the alpha subunit of RNA polymerase (RNAP) from P.patens and examined its subcellular localization. When fused to green fluorescent protein, RpoA was observed in the chloroplasts of live moss protonemata cells. This indicates that chloroplast RNAP is encoded separately by chloroplast and nuclear genomes in the moss. These data provide new insights into the regulation and evolution of chloroplast transcription.

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A PPR‐DYW protein is required for splicing of a group II intron of cox1 pre‐mRNA in Physcomitrella patens

et al. 2012

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SUMMARYThe pentatricopeptide repeat (PPR) protein family is involved in various steps of RNA metabolism in plastids and mitochondria. To investigate the function of a DYW sub-class PPR protein in the moss Physcomitrella patens, we constructed and characterized knockout mutants of the PpPPR_43 gene, which encodes a mitochondrial localized PPR protein with a C-terminal DYW domain. The disruptants showed poor growth of moss protonemata. To investigate whether mitochondrial transcripts were affected by disruption of PpPPR_43, we sequenced the cDNA to detect RNA editing events and performed RT-PCR analyses to measure steady-state mitochondrial transcript levels. Disruption of PpPPR_43 did not result in defective RNA editing, but a substantial reduction in the level of mature cox1 transcript was observed in the disruptants. RT-PCR analysis showed that the 3rd intron of cox1 pre-mRNA was not spliced out in the disruptants, but the 1st, 2nd and 4th introns were efficiently spliced out. This suggests that PpPPR_43 is an intron 3-specific splicing factor. The role of the C-terminal domains of PpPPR_43 in intron 3 splicing was analyzed by complementation experiments with truncated constructs lacking the DYW domain or both the E and DYW domains. Both truncated genes completely restored splicing in the PpPPR_43 knockout mutant. This indicates that the E and DYW domains of PpPPR_43 are not required for splicing, and can be deleted without loss of cox1 intron 3 splicing.

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Complete nucleotide sequence of the freshwater unicellular cyanobacterium Synechococcus elongatus PCC 6301 chromosome: gene content and organization

et al. 2007

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The entire genome of the unicellular cyanobacterium Synechococcus elongatus PCC 6301 (formerly Anacystis nidulans Berkeley strain 6301) was sequenced. The genome consisted of a circular chromosome 2,696,255 bp long. A total of 2,525 potential protein-coding genes, two sets of rRNA genes, 45 tRNA genes representing 42 tRNA species, and several genes for small stable RNAs were assigned to the chromosome by similarity searches and computer predictions. The translated products of 56% of the potential protein-coding genes showed sequence similarities to experimentally identified and predicted proteins of known function, and the products of 35% of the genes showed sequence similarities to the translated products of hypothetical genes. The remaining 9% of genes lacked significant similarities to genes for predicted proteins in the public DNA databases. Some 139 genes coding for photosynthesis-related components were identified. Thirty-seven genes for two-component signal transduction systems were also identified. This is the smallest number of such genes identified in cyanobacteria, except for marine cyanobacteria, suggesting that only simple signal transduction systems are found in this strain. The gene arrangement and nucleotide sequence of Synechococcus elongatus PCC 6301 were nearly identical to those of a closely related strain Synechococcus elongatus PCC 7942, except for the presence of a 188.6 kb inversion. The sequences as well as the gene information shown in this paper are available in the Web database, CYORF (http://www.cyano.genome.jp/).

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Chieko Sugita

A KaiC-associating SasA–RpaA two-component regulatory system as a major circadian timing mediator in cyanobacteria

Cyanobacterial daily life with Kai-based circadian and diurnal genome-wide transcriptional control in Synechococcus elongatus

Complete chloroplast DNA sequence of the moss Physcomitrella patens: evidence for the loss and relocation of rpoA from the chloroplast to the nucleus

A PPR‐DYW protein is required for splicing of a group II intron of cox1 pre‐mRNA in Physcomitrella patens

Complete nucleotide sequence of the freshwater unicellular cyanobacterium Synechococcus elongatus PCC 6301 chromosome: gene content and organization

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