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5H8Z

Crystal structure of the C49A C353A mutant Fenna-Matthews-Olson Protein from Chlorobaculum Tepidum

Summary for 5H8Z
Entry DOI10.2210/pdb5h8z/pdb
Related3BSD 3ENI
DescriptorBacteriochlorophyll a protein, BACTERIOCHLOROPHYLL A (3 entities in total)
Functional Keywordsfmo, antenna complex, photosynthesis, electron transport
Biological sourceChlorobaculum tepidum (strain ATCC 49652 / DSM 12025 / NBRC 103806 / TLS) (Chlorobium tepidum)
Total number of polymer chains2
Total formula weight94880.27
Authors
Lu, X.,Cuneo, M.J.,Myles, D.A.A. (deposition date: 2015-12-25, release date: 2016-05-18, Last modification date: 2024-01-10)
Primary citationSaer, R.,Orf, G.S.,Lu, X.,Zhang, H.,Cuneo, M.J.,Myles, D.A.,Blankenship, R.E.
Perturbation of bacteriochlorophyll molecules in Fenna-Matthews-Olson protein complexes through mutagenesis of cysteine residues.
Biochim.Biophys.Acta, 1857:1455-1463, 2016
Cited by
PubMed Abstract: The Fenna-Matthews-Olson (FMO) pigment-protein complex in green sulfur bacteria transfers excitation energy from the chlorosome antenna complex to the reaction center. In understanding energy transfer in the FMO protein, the individual contributions of the bacteriochlorophyll pigments to the FMO complex's absorption spectrum could provide detailed information with which molecular and energetic models can be constructed. The absorption properties of the pigments, however, are such that their spectra overlap significantly. To overcome this, we used site-directed mutagenesis to construct a series of mutant FMO complexes in the model green sulfur bacterium Chlorobaculum tepidum (formerly Chlorobium tepidum). Two cysteines at positions 49 and 353 in the C. tepidum FMO complex, which reside near hydrogen bonds between BChls 2 and 3, and their amino acid binding partner serine 73 and tyrosine 15, respectively, were changed to alanine residues. The resulting C49A, C353A, and C49A C353A double mutants were analyzed with a combination of optical absorption and circular dichroism (CD) spectroscopies. Our results revealed changes in the absorption properties of several underlying spectral components in the FMO complex, as well as the redox behavior of the complex in response to the reductant sodium dithionite. A high-resolution X-ray structure of the C49A C353A double mutant reveals that these spectral changes appear to be independent of any major structural rearrangements in the FMO mutants. Our findings provide important tests for theoretical calculations of the C. tepidum FMO absorption spectrum, and additionally highlight a possible role for cysteine residues in the redox activity of the pigment-protein complex.
PubMed: 27114180
DOI: 10.1016/j.bbabio.2016.04.007
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (1.8 Å)
Structure validation

226707

數據於2024-10-30公開中

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