C. A. Newell scite author profile

We describe a novel, typically prokaryotic, sensor kinase in chloroplasts of green plants. The gene for this chloroplast sensor kinase (CSK) is found in cyanobacteria, prokaryotes from which chloroplasts evolved. The CSK gene has moved, during evolution, from the ancestral chloroplast to the nuclear genomes of eukaryotic algae and green plants. The CSK protein is now synthesised in the cytosol of photosynthetic eukaryotes and imported into their chloroplasts as a protein precursor. In the model higher plant Arabidopsis thaliana, CSK is autophosphorylated and required for control of transcription of chloroplast genes by the redox state of an electron carrier connecting photosystems I and II. CSK therefore provides a redox regulatory mechanism that couples photosynthesis to gene expression. This mechanism is inherited directly from the cyanobacterial ancestor of chloroplasts, is intrinsic to chloroplasts, and is targeted to chloroplast genes. cell evolution ͉ chloroplast genome ͉ redox ͉ transcription ͉ two-component system

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Independent and Parallel Recruitment of Preexisting Mechanisms Underlying C ₄ Photosynthesis

Brown

Newell

Stanley

et al. 2011

Science

136

131

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C₄ photosynthesis allows increased photosynthetic efficiency because carbon dioxide (CO₂) is concentrated around the key enzyme RuBisCO. Leaves of C₄ plants exhibit modified biochemistry, cell biology, and leaf development, but despite this complexity, C₄ photosynthesis has evolved independently in at least 45 lineages of plants. We found that two independent lineages of C₄ plant, whose last common ancestor predates the divergence of monocotyledons and dicotyledons about 180 million years ago, show conserved mechanisms controlling the expression of genes important for release of CO(2) around RuBisCO in bundle sheath (BS) cells. Orthologous genes from monocotyledonous and dicotyledonous C₃ species also contained conserved regulatory elements that conferred BS specificity when placed into C₄ species. We conclude that these conserved functional genetic elements likely facilitated the repeated evolution of C₄ photosynthesis.

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Expression of snowdrop lectin in transgenic tobacco plants results in added protection against aphids

Hilder

Powell

Gatehouse

et al. 1995

Transgenic Research

239

130

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The range of sap-sucking insect pests to which GNA, (the mannose specific lectin from snowdrops (Galanthus nivalis)) has been shown to be insecticidal in artificial diets has been extended to include the peach potato aphid (Myzuspersicae). A gene construct for constitutive expression of GNA from the CaMV35S gene promoter has been introduced into tobacco plants. A transgenic tobacco line which expresses high levels of GNA has been shown to have enhanced resistance to M. persicae in leaf disc and whole plant bioassays, demonstrating the potential for extending transgenic plant technology to the control of sap-sucking insect pests.

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Accumulation of rotavirus VP6 protein in chloroplasts of transplastomic tobacco is limited by protein stability

Birch-Machin

Newell

Hibberd

et al. 2004

Plant Biotechnology Journal

114

116

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SummaryRotavirus VP6 is a highly immunogenic major capsid protein that may be useful as a subunit vaccine. The expression of a bovine group A rotavirus VP6 cDNA was examined in tobacco chloroplasts following particle bombardment. Constructs containing the VP6 cDNA under the control of plastid rrn or psbA promoters, or the Escherichia coli trc promoter, were inserted, together with the aadA selectable marker gene, between the rbcL and accD genes of the tobacco plastid genome. The 40-kDa VP6 protein accumulated to about 3% of total soluble protein in seedlings and young leaves of homoplasmic transplastomic plants containing the VP6 cDNA under the control of the rrn promoter. Lower amounts of VP6 ( ∼ 0.6% total soluble protein) accumulated in plants containing the VP6 cDNA under the control of the psbA promoter, and VP6 was undetectable in plants containing the VP6 cDNA under the control of the trc promoter. The VP6 protein in chloroplasts was shown to form trimers, as found in the rotavirus virion. However, the amount of VP6 protein declined as the leaves matured, although VP6 transcripts were still present, suggesting that the protein was susceptible to proteolytic degradation in chloroplasts.

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C. A. Newell

Production of Transgenic Soybean Plants Using Agrobacterium-Mediated DNA Transfer

The ancestral symbiont sensor kinase CSK links photosynthesis with gene expression in chloroplasts

Independent and Parallel Recruitment of Preexisting Mechanisms Underlying C ₄ Photosynthesis

Expression of snowdrop lectin in transgenic tobacco plants results in added protection against aphids

Accumulation of rotavirus VP6 protein in chloroplasts of transplastomic tobacco is limited by protein stability

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C. A. Newell

Production of Transgenic Soybean Plants Using Agrobacterium-Mediated DNA Transfer

The ancestral symbiont sensor kinase CSK links photosynthesis with gene expression in chloroplasts

Independent and Parallel Recruitment of Preexisting Mechanisms Underlying C 4 Photosynthesis

Expression of snowdrop lectin in transgenic tobacco plants results in added protection against aphids

Accumulation of rotavirus VP6 protein in chloroplasts of transplastomic tobacco is limited by protein stability

Contact Info

Product

Resources

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Independent and Parallel Recruitment of Preexisting Mechanisms Underlying C ₄ Photosynthesis