Abstract

Native cytochrome c6 was purified from an extract of strain BP-1 of the thermophilic cyanobacterium Thermosynechococcus elongatus. The protein was crystallized, and with only slight modifications of the buffer and vapour-diffusion conditions two different space groups were observed, namely H3 and C2. Both crystal structures were solved; they contained three and six molecules per asymmetric unit and were refined to 1.7 and 2.25 Å resolution, respectively. To date, the structure of native cytochrome c6 from T. elongatus has only been reported as a monomer using NMR spectroscopy, i.e. without addressing putative oligomerization, and related structures have only previously been solved using X-ray crystallography after recombinant gene overexpression in Escherichia coli. The reported space groups of related cyanobacterial cytochrome c6 structures differ from those reported here. Interestingly, the protein-protein interfaces that were observed utilizing X-ray crystallography could also explain homo-oligomerization in solution; specifically, trimerization is indicated by infra-red dynamic light scattering and blue native gel electrophoresis in solution. Trimers were also detected by mass spectrometry. Furthermore, there is an indication of post-translational methylation in the crystal structure. Additionally, the possibility of modifying the crystal size and the redox activity in the context of photosynthesis is shaping the investigated cytochrome as a highly suitable model protein for advanced serial crystallography at highly brilliant X-ray free-electron laser sources.

Highlights

  • Cytochrome c6 (Cyt c6) is a key protein in the light reaction of photosynthesis

  • The structure of native cytochrome c6 from T. elongatus has only been reported as a monomer using NMR spectroscopy, i.e. without addressing putative oligomerization, and related structures have only previously been solved using X-ray crystallography after recombinant gene overexpression in Escherichia coli

  • We report the crystallization and high-resolution crystal structures of native T. elongatus cytochrome c6 (TeCyt c6) in two different space groups, which contain three and six molecules per asymmetric unit, respectively, potentially indicating the presence of trimers of cytochromes, which were observed by mass spectrometry, blue native gel electrophoresis and infra-red dynamic light scattering (IRDLS)

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Summary

Introduction

Cytochrome c6 (Cyt c6) is a key protein in the light reaction of photosynthesis. It is a small water-soluble protein that is located on the luminal side of the thylakoid membrane. Cyt c6 dynamically interacts within the membrane, forming a protein complex with cytochrome b6 f, which has to be sufficiently specific to allow rapid electron transfer towards photosystem I (PSI; Dıaz-Moreno et al, 2014). Vapour diffusion, hanging drop 24-well plate 277 40 20 mM MES pH 6.5 2 M (NH4)2SO4, 40 mM KNO3 500 nl protein solution, 500 nl reservoir solution 500 structural and functional understanding of the photosynthetic machinery of cyanobacteria (Kolsch et al, 2018; Kłodawska et al, 2020). We report the crystallization and high-resolution crystal structures of native T. elongatus cytochrome c6 (TeCyt c6) in two different space groups, which contain three and six molecules per asymmetric unit, respectively, potentially indicating the presence of trimers of cytochromes, which were observed by mass spectrometry, blue native gel electrophoresis (bnPAGE) and infra-red dynamic light scattering (IRDLS). Slight modifications of the protocols described here produce crystals with dimensions of less than 10 mm and with a high solvent content, which provide a valuable starting point in the preparation for upcoming soaking and time-resolved serial crystallography investigations of Cyt c6 and its interaction with PSI and the Cyt b6 f complex at currently available X-ray freeelectron laser sources

Macromolecule production and sample-quality verification
MALDI-TOF MS
IR-DLS and bnPAGE
Crystallization
Data collection and processing
Structure solution and refinement
Results and discussion
Related literature

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