Efforts to stably over-express recombinant proteins in cyanobacteria are hindered due to cellular proteasome activity that efficiently degrades foreign proteins. Recent work from this lab showed that a variety of exogenous genes from plants, humans, and bacteria can be successfully and stably over-expressed in cyanobacteria, as fusion constructs with the abundant β-subunit of phycocyanin (the cpcB gene product) in quantities up to 10-15% of the total cell protein. The CpcB*P fusion proteins did not simply accumulate in a soluble free-floating form in the cell but, rather, they assembled as functional (α,β*P)3CpcG1 heterohexameric light-harvesting phycocyanin antenna discs, where α is the CpcA α-subunit of phycocyanin, β*P is the CpcB*P fusion protein, the asterisk denoting fusion, and CpcG1 is the 28.9 kDa phycocyanin disc linker polypeptide (Hidalgo Martinez et al., 2022). The present work showed that the CpcA α-subunit of phycocyanin and the CpcG1 28.9 kDa phycocyanin disc linker polypeptide can also successfully serve as leading sequences in functional heterohexameric (α*P,β)3CpcG1 and (α,β)3CpcG1*P fusion constructs that permit stable recombinant protein over-expression and accumulation. These were shown to form a residual light-harvesting antenna and to contribute to photosystem-II photochemistry in the cyanobacterial cells. The work suggested that cyanobacterial cells need phycocyanin for light absorption, photosynthesis, and survival and, therefore, may tolerate the presence of heterologous recombinant proteins, when the latter are in a fusion construct configuration with essential cellular proteins, e.g., phycocyanin, thus allowing their substantial and stable accumulation.
Keywords: Fusion constructs; Phycocyanin; Protein over-expression; Recombinant protein; Synechocystis sp. PCC 6803.
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