β-Carboxysomal proteins assemble into highly organized structures in Nicotiana chloroplasts. - Wikidata - awgldk - TriplyDB

β-Carboxysomal proteins assemble into highly organized structures in Nicotiana chloroplasts.

β-Carboxysomal proteins assemble into highly organized structures in Nicotiana chloroplasts.

http://www.wikidata.org/entity/Q33842058

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Biocatalysis for the application of CO2 as a chemical feedstock A faster Rubisco with potential to increase photosynthesis in crops Engineering chloroplasts to improve Rubisco catalysis: prospects for translating improvements into food and fiber crops.Bacterial microcompartment assembly: The key role of encapsulation peptides.Streamlined Construction of the Cyanobacterial CO2-Fixing Organelle via Protein Domain Fusions for Use in Plant Synthetic Biology.Advances in Understanding Carboxysome Assembly in Prochlorococcus and Synechococcus Implicate CsoS2 as a Critical Component Production and Characterization of Synthetic Carboxysome Shells with Incorporated Luminal Proteins.Bacterial microcompartments as metabolic modules for plant synthetic biology.Dimerization of the Vacuolar Receptors AtRMR1 and -2 from Arabidopsis thaliana Contributes to Their Localization in the trans-Golgi Network A step forward to building an algal pyrenoid in higher plants.β-Carboxysome bioinformatics: identification and evolution of new bacterial microcompartment protein gene classes and core locus constraints.Transgenic tobacco plants with improved cyanobacterial Rubisco expression but no extra assembly factors grow at near wild-type rates if provided with elevated CO2 Why small fluxes matter: the case and approaches for improving measurements of photosynthesis and (photo)respiration.Towards engineering carboxysomes into C3 plants Introducing an algal carbon-concentrating mechanism into higher plants: location and incorporation of key components.Photosynthetic terpene hydrocarbon production for fuels and chemicals.Bacterial microcompartments: widespread prokaryotic organelles for isolation and optimization of metabolic pathways.Engineering the Bacterial Microcompartment Domain for Molecular Scaffolding Applications Manipulating photorespiration to increase plant productivity: recent advances and perspectives for crop improvement.Can increased leaf photosynthesis be converted into higher crop mass production? A simulation study for rice using the crop model GECROS.Building Spatial Synthetic Biology with Compartments, Scaffolds, and Communities.Progress and challenges of engineering a biophysical carbon dioxide-concentrating mechanism into higher plants.The Diverse AAA+ Machines that Repair Inhibited Rubisco Active Sites.Direct characterization of the native structure and mechanics of cyanobacterial carboxysomes.Simultaneous stimulation of sedoheptulose 1,7-bisphosphatase, fructose 1,6-bisphophate aldolase and the photorespiratory glycine decarboxylase-H protein increases CO2 assimilation, vegetative biomass and seed yield in Arabidopsis.Specific and Efficient Targeting of Cyanobacterial Bicarbonate Transporters to the Inner Envelope Membrane of Chloroplasts in Arabidopsis.Spontaneous non-canonical assembly of CcmK hexameric components from β-carboxysome shells of cyanobacteria Surveying Rubisco Diversity and Temperature Response to Improve Crop Photosynthetic Efficiency.A bioarchitectonic approach to the modular engineering of metabolism.Engineering photosynthesis: progress and perspectives.Engineering nanoreactors using bacterial microcompartment architectures.Carboxysomes: metabolic modules for CO2 fixation.RNA Recognition Motif-Containing Protein ORRM4 Broadly Affects Mitochondrial RNA Editing and Impacts Plant Development and Flowering.Light Modulates the Biosynthesis and Organization of Cyanobacterial Carbon Fixation Machinery through Photosynthetic Electron Flow.Bacterial microcompartments.Spatially organizing biochemistry: choosing a strategy to translate synthetic biology to the factory.Engineering and Modulating Functional Cyanobacterial CO2-Fixing Organelles.Carboxysome encapsulation of the CO-fixing enzyme Rubisco in tobacco chloroplasts Towards turbocharged photosynthesis

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P2860

β-Carboxysomal proteins assemble into highly organized structures in Nicotiana chloroplasts.

http://www.wikidata.org/entity/Q33842058

description

2014 nî lūn-bûn

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2014 թուականի Յունիսին հրատարակուած գիտական յօդուած

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2014 թվականի հունիսին հրատարակված գիտական հոդված

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2014年の論文

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2014年論文

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2014年論文

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2014年論文

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2014年论文

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β-Carboxysomal proteins assemb ...... res in Nicotiana chloroplasts.

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β-Carboxysomal proteins assemb ...... res in Nicotiana chloroplasts.

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β-Carboxysomal proteins assemb ...... res in Nicotiana chloroplasts.

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β-Carboxysomal proteins assemb ...... res in Nicotiana chloroplasts.

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P1433

The Plant Journal

P1476

β-Carboxysomal proteins assemb ...... res in Nicotiana chloroplasts.

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P2093

Jean Devonshire

http://www.w3.org/2001/XMLSchema#string

Kevin M Hines

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Myat T Lin

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P John Andralojc

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P2860

Halothiobacillus neapolitanus carboxysomes sequester heterologous and chimeric RubisCO species

Protein Structures Forming the Shell of Primitive Bacterial Organelles

Polyhedral organelles compartmenting bacterial metabolic processes

Microcompartments in prokaryotes: carboxysomes and related polyhedra

The bacterial carbon-fixing organelle is formed by shell envelopment of preassembled cargo

Engineered protein nano-compartments for targeted enzyme localization

Atomic-level models of the bacterial carboxysome shell

Insights from multiple structures of the shell proteins from the β-carboxysome

The Structure of CcmP, a Tandem Bacterial Microcompartment Domain Protein from the -Carboxysome, Forms a Subcompartment Within a Microcompartment

Interactions and structural variability of β-carboxysomal shell protein CcmL

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1-12

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scholarly article

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10.1111/TPJ.12536

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1

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79

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Alessandro Occhialini

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2014-06-09T00:00:00Z

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24810513

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4080790

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