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Complex structure reveals <scp>CcmM</scp> and <scp>CcmN</scp> form a heterotrimeric adaptor in β‐carboxysome

Hui Sun, Ning Cui, Shu‐Jing Han, Zhipeng Chen, Lingyun Xia, Yuxing Chen, Yong‐Liang Jiang, Cong‐Zhao Zhou

2021Protein Science20 citationsDOIOpen Access PDF

Abstract

Abstract Carboxysome is an icosahedral self‐assembled microcompartment that sequesters RuBisCO and carbonic anhydrases within a selectively permeable protein shell. The scaffolding proteins, CcmM, and CcmN were proposed to act as adaptors that crosslink the enzymatic core to shell facets. However, the details of interaction pattern remain unknown. Here we obtained a stable heterotrimeric complex of CcmM γ‐carbonic anhydrase domain (termed CcmM NT ) and CcmN, with a 1:2 stoichiometry, which interacts with the shell proteins CcmO and CcmL in vitro. The 2.9 Å crystal structure of this heterotrimer revealed an asymmetric bundle composed of one CcmM NT and two CcmN subunits, all of which adopt a triangular left‐handed β‐helical barrel structure. The central CcmN subunit packs against CcmM NT and another CcmN subunit via a wall‐to‐edge or wall‐to‐wall pattern, respectively. Together with previous findings, we propose CcmM NT ‐CcmN functions as an adaptor to facilitate the recruitment of shell proteins and the assembly of intact β‐carboxysome.

Topics & Concepts

Heterotrimeric G proteinProtein subunitSignal transducing adaptor proteinChemistryBiophysicsRuBisCOBiochemistryBiologyEnzymeG proteinReceptorGeneProtein Structure and DynamicsEnzyme Structure and FunctionEnzyme function and inhibition
Complex structure reveals <scp>CcmM</scp> and <scp>CcmN</scp> form a heterotrimeric adaptor in β‐carboxysome | Litcius