7SUT
Light harvesting phycobiliprotein HaPE645 from the cryptophyte Hemiselmis andersenii CCMP644
Summary for 7SUT
| Entry DOI | 10.2210/pdb7sut/pdb |
| Descriptor | HaPE645 alpha-1 subunit, PHYCOCYANOBILIN, Phycoerythrin550 beta subunit, ... (11 entities in total) |
| Functional Keywords | phycobiliprotein, antenna, light harvesting, cryptophyte, algae, globin, calm, carsp, photosynthesis, phycoerythrin, hemiselmis |
| Biological source | Hemiselmis andersenii More |
| Total number of polymer chains | 8 |
| Total formula weight | 117220.06 |
| Authors | Rathbone, H.W.,Michie, K.A.,Laos, A.L.,Curmi, P.M.G. (deposition date: 2021-11-18, release date: 2023-10-25, Last modification date: 2024-11-13) |
| Primary citation | Rathbone, H.W.,Laos, A.J.,Michie, K.A.,Iranmanesh, H.,Biazik, J.,Goodchild, S.C.,Thordarson, P.,Green, B.R.,Curmi, P.M.G. Molecular dissection of the soluble photosynthetic antenna from the cryptophyte alga Hemiselmis andersenii. Commun Biol, 6:1158-1158, 2023 Cited by PubMed Abstract: Cryptophyte algae have a unique phycobiliprotein light-harvesting antenna that fills a spectral gap in chlorophyll absorption from photosystems. However, it is unclear how the antenna transfers energy efficiently to these photosystems. We show that the cryptophyte Hemiselmis andersenii expresses an energetically complex antenna comprising three distinct spectrotypes of phycobiliprotein, each composed of two αβ protomers but with different quaternary structures arising from a diverse α subunit family. We report crystal structures of the major phycobiliprotein from each spectrotype. Two-thirds of the antenna consists of open quaternary form phycobiliproteins acting as primary photon acceptors. These are supplemented by a newly discovered open-braced form (~15%), where an insertion in the α subunit produces ~10 nm absorbance red-shift. The final components (~15%) are closed forms with a long wavelength spectral feature due to substitution of a single chromophore. This chromophore is present on only one β subunit where asymmetry is dictated by the corresponding α subunit. This chromophore creates spectral overlap with chlorophyll, thus bridging the energetic gap between the phycobiliprotein antenna and the photosystems. We propose that the macromolecular organization of the cryptophyte antenna consists of bulk open and open-braced forms that transfer excitations to photosystems via this bridging closed form phycobiliprotein. PubMed: 37957226DOI: 10.1038/s42003-023-05508-4 PDB entries with the same primary citation |
| Experimental method | X-RAY DIFFRACTION (1.49 Å) |
Structure validation
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