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Literature DB >> 29217567

Plant RuBisCo assembly in E. coli with five chloroplast chaperones including BSD2.

H Aigner¹, R H Wilson¹, A Bracher¹, L Calisse¹, J Y Bhat¹, F U Hartl¹, M Hayer-Hartl².

Abstract

Plant RuBisCo, a complex of eight large and eight small subunits, catalyzes the fixation of CO2 in photosynthesis. The low catalytic efficiency of RuBisCo provides strong motivation to reengineer the enzyme with the goal of increasing crop yields. However, genetic manipulation has been hampered by the failure to express plant RuBisCo in a bacterial host. We achieved the functional expression of Arabidopsis thaliana RuBisCo in Escherichia coli by coexpressing multiple chloroplast chaperones. These include the chaperonins Cpn60/Cpn20, RuBisCo accumulation factors 1 and 2, RbcX, and bundle-sheath defective-2 (BSD2). Our structural and functional analysis revealed the role of BSD2 in stabilizing an end-state assembly intermediate of eight RuBisCo large subunits until the small subunits become available. The ability to produce plant RuBisCo recombinantly will facilitate efforts to improve the enzyme through mutagenesis.

Entities: Chemical Species

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Year: 2017 PMID： 29217567 DOI： 10.1126/science.aap9221

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

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Cited

48 in total

1. Shedding Light on the Power of Light.

Authors: Tessa Moses
Journal: Plant Physiol Date: 2019-03 Impact factor: 8.340

2. Modifying Plant Photosynthesis and Growth via Simultaneous Chloroplast Transformation of Rubisco Large and Small Subunits.

Authors: Elena Martin-Avila; Yi-Leen Lim; Rosemary Birch; Lynnette M A Dirk; Sally Buck; Timothy Rhodes; Robert E Sharwood; Maxim V Kapralov; Spencer M Whitney
Journal: Plant Cell Date: 2020-07-09 Impact factor: 11.277

Plant RuBisCo assembly in E. coli with five chloroplast chaperones including BSD2.

1. Shedding Light on the Power of Light.

2. Modifying Plant Photosynthesis and Growth via Simultaneous Chloroplast Transformation of Rubisco Large and Small Subunits.

3. Rubisco activase requires residues in the large subunit N terminus to remodel inhibited plant Rubisco.

4. Chloroplast Chaperonin-Mediated Targeting of a Thylakoid Membrane Protein.

5. The dependency of red Rubisco on its cognate activase for enhancing plant photosynthesis and growth.

6. Novel bacterial clade reveals origin of form I Rubisco.

7. Probing the rice Rubisco-Rubisco activase interaction via subunit heterooligomerization.

8. Molecular basis for the assembly of RuBisCO assisted by the chaperone Raf1.

9. Functional reconstitution of a bacterial CO₂ concentrating mechanism in Escherichia coli.

10. Photosynthetic characterization of transgenic Synechocystis expressing a plant thiol/disulfide-modulating protein.