Linked Rubisco Subunits Can Assemble into Functional Oligomers without Impeding Catalytic Performance
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Whitney, Spencer; Sharwood, Robert
Description
Although transgenic manipulation in higher plants of the catalytic large subunit (L) of the photosynthetic CO2-fixing enzyme ribulose 1,5-bisphospahte carboxylase/oxygenase (Rubisco) is now possible, the manipulation of its cognate small subunit (S) is frustrated by the nuclear location of its multiple gene copies. To examine whether L and S can be engineered simultaneously by fusing them together, the subunits from Synechococcus PCC6301 Rubisco were tethered together by different linker...[Show more]
dc.contributor.author | Whitney, Spencer | |
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dc.contributor.author | Sharwood, Robert | |
dc.date.accessioned | 2015-12-10T22:13:49Z | |
dc.identifier.issn | 0021-9258 | |
dc.identifier.uri | http://hdl.handle.net/1885/49935 | |
dc.description.abstract | Although transgenic manipulation in higher plants of the catalytic large subunit (L) of the photosynthetic CO2-fixing enzyme ribulose 1,5-bisphospahte carboxylase/oxygenase (Rubisco) is now possible, the manipulation of its cognate small subunit (S) is frustrated by the nuclear location of its multiple gene copies. To examine whether L and S can be engineered simultaneously by fusing them together, the subunits from Synechococcus PCC6301 Rubisco were tethered together by different linker sequences, producing variant fusion peptides. In Escherichia coli the variant PCC6301 LS fusions assembled into catalytically functional octameric ([LS] 8) and hexadecameric ([[LS]8]2) quaternary structures that excluded the integration of co-expressed unfused S. Assembly of the LS fusions into Rubisco complexes was impaired 50-90% relative to the assembly of unlinked L and S into L8S8 enzyme. Assembly in E. coli was not emulated using tobacco SL fusions that accumulated entirely as insoluble protein. Catalytic measurements showed the CO2/O 2 specificity, carboxylation rate, and Michaelis constants for CO2 and ribulose 1,5-bisphosphate for the cyanobacterial Rubisco complexes comprising fusions where the S was linked to the N terminus of L closely matched those of the wild-type L8S8 enzyme. In contrast, the substrate affinities and carboxylation rate of the Rubisco complexes comprising fusions where L was fused to the N terminus of S or a six-histidine tag was appended to the C terminus of L were compromised. Overall this work provides a framework for implementing an alternative strategy for exploring simultaneous engineering of modified, or foreign, Rubisco L and S subunits in higher plant plastids. | |
dc.publisher | American Society for Biochemistry and Molecular Biology Inc | |
dc.source | Journal of Biological Chemistry | |
dc.subject | Keywords: Linker sequences; Nuclear location; Quaternary structures; Transgenic manipulation; Carbon dioxide; Carboxylation; Catalyst activity; Complexation; Peptides; Plants (botany); Oligomers; hybrid protein; ribulosebisphosphate carboxylase; peptide; protein su | |
dc.title | Linked Rubisco Subunits Can Assemble into Functional Oligomers without Impeding Catalytic Performance | |
dc.type | Journal article | |
local.description.notes | Imported from ARIES | |
local.identifier.citationvolume | 282 | |
dc.date.issued | 2007 | |
local.identifier.absfor | 060107 - Enzymes | |
local.identifier.absfor | 100104 - Genetically Modified Animals | |
local.identifier.ariespublication | u9204316xPUB194 | |
local.type.status | Published Version | |
local.contributor.affiliation | Whitney, Spencer, College of Medicine, Biology and Environment, ANU | |
local.contributor.affiliation | Sharwood, Robert, College of Medicine, Biology and Environment, ANU | |
local.description.embargo | 2037-12-31 | |
local.bibliographicCitation.issue | 6 | |
local.bibliographicCitation.startpage | 3809 | |
local.bibliographicCitation.lastpage | 3818 | |
local.identifier.doi | 10.1074/jbc.M610479200 | |
dc.date.updated | 2015-12-09T08:00:05Z | |
local.identifier.scopusID | 2-s2.0-33947534842 | |
Collections | ANU Research Publications |
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