Time-Resolved FTIR Difference Spectroscopy for the Study of Photosystem I Particles with Plastoquinone-9 Occupying the A1 Binding Site
In photosystem I from plants and cyanobacteria a phylloquinone molecule, called A1, functions as the secondary electron acceptor. In cyanobacteria, genes that encode for proteins involved in phylloquinone biosynthesis can be deleted. Here, we have studied three different gene deletion mutants called...
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| Published in: | Biochemistry (Easton) Vol. 45; no. 42; pp. 12733 - 12740 |
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| Main Authors: | , , , |
| Format: | Journal Article |
| Language: | English |
| Published: |
United States
American Chemical Society
24-10-2006
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| Subjects: | |
| Online Access: | Get full text |
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| Summary: | In photosystem I from plants and cyanobacteria a phylloquinone molecule, called A1, functions as the secondary electron acceptor. In cyanobacteria, genes that encode for proteins involved in phylloquinone biosynthesis can be deleted. Here, we have studied three different gene deletion mutants called menB, menD, and menE mutants. In these mutants, plastoquinone-9 occupies the A1 binding site. Using time-resolved, step-scan FTIR difference spectroscopy we have produced A1 -/A1 FTIR difference spectra for menB, menD, and menE photosystem I particles at 77 K. These difference spectra show that the P700 triplet state (3P700) is formed in a large fraction of the particles. Infrared spectral signatures that are not due to 3P700 are also observed in the spectra and are suggested to be associated with plastoquinone-9 anion formation in a portion of the particles. By subtracting the known 3P700 spectral signatures, we produce an A1 -/A1 FTIR difference spectrum for PS I particles with plastoquinone-9 occupying the binding site. This spectrum shows that a band that we have previously assigned to a C O mode of the phylloquinone anion in WT A1 -/A1 FTIR DS down-shifts ∼8 cm-1 when plastoquinone-9 occupies the A1 binding site. Using density functional theory type calculations to produce anion minus neutral infrared difference spectra for both phylloquinone and plastoquinone-9, it is shown that such a downshift is reasonable. A1 -/A1 FTIR difference spectra, obtained using menB mutant photosystem I particles that were incubated in the presence of phylloquinone, are found to be very similar to those obtained using normal WT photosystem I particles. This result indicates that we were able to reincorporate phylloquinone back into the A1 binding site and that the reincorporated phylloquinone and its immediate protein environment, in both the neutral and anion state, are very similar to that found in wild type photosystem I particles. For the reconstituted menB mutant photosystem I particles, no spectral signatures associated with 3P700 are observed, indicating that phylloquinone occupies the A1 site in all of the reconstituted menB particles. |
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| Bibliography: | This work was supported by the National Research Initiative of the USDA Cooperative State Research Education and Extension Service Grant number 2004-35318-14889 to G.H. ark:/67375/TPS-NGQJGBPD-S istex:3B660095CDC3C4BAA593D29A1D1878A99D674BDD ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 |
| ISSN: | 0006-2960 1520-4995 |
| DOI: | 10.1021/bi0611199 |