{"title":"How the Electron-Transfer Cascade is Maintained in Chlorophyll-<i>d</i> Containing Photosystem I.","authors":"Tomoyasu Noji, Keisuke Saito, Hiroshi Ishikita","doi":"10.1021/acs.biochem.4c00521","DOIUrl":null,"url":null,"abstract":"<p><p>Photosystem I (PSI) from <i>Acaryochloris marina</i> utilizes chlorophyll <i>d</i> (Chl<i>d</i>) with a formyl group as its primary pigment, which is more red-shifted than chlorophyll <i>a</i> (Chl<i>a</i>) in PSI from <i>Thermosynechococcus elongatus</i>. Using the cryo-electron microscopy structure and solving the linear Poisson-Boltzmann equation, here we report the redox potential (<i>E</i><sub>m</sub>) values in <i>A. marina</i> PSI. The <i>E</i><sub>m</sub>(Chl<i>d</i>) values at the paired chlorophyll site, [P<sub>A</sub>P<sub>B</sub>], are nearly identical to the corresponding <i>E</i><sub>m</sub>(Chl<i>a</i>) values in <i>T. elongatus</i> PSI, despite Chl<i>d</i> having a 200 mV lower reduction power. The accessory chlorophyll site, A<sub>-1</sub>, in the B branch exhibits an extensive H-bond network with its ligand water molecule, contributing to <i>E</i><sub>m</sub>(A<sub>-1B</sub>) being lower than <i>E</i><sub>m</sub>(A<sub>-1A</sub>). The substitution of pheophytin <i>a</i> (Pheo<i>a</i>) with Chl<i>a</i> at the electron acceptor site, A<sub>0</sub>, decreases <i>E</i><sub>m</sub>(A<sub>0</sub>), resulting in an uphill electron transfer from A<sub>-1</sub>. The impact of the A<sub>-1</sub> formyl group on <i>E</i><sub>m</sub>(A<sub>0</sub>) is offset by the reorientation of the A<sub>0</sub> ester group. It seems likely that Pheo<i>a</i> is necessary for <i>A. marina</i> PSI to maintain the overall electron-transfer cascade characteristic of PSI in its unique light environment.</p>","PeriodicalId":28,"journal":{"name":"Biochemistry Biochemistry","volume":" ","pages":""},"PeriodicalIF":2.9000,"publicationDate":"2024-12-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Biochemistry Biochemistry","FirstCategoryId":"1","ListUrlMain":"https://doi.org/10.1021/acs.biochem.4c00521","RegionNum":3,"RegionCategory":"生物学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"BIOCHEMISTRY & MOLECULAR BIOLOGY","Score":null,"Total":0}
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Abstract
Photosystem I (PSI) from Acaryochloris marina utilizes chlorophyll d (Chld) with a formyl group as its primary pigment, which is more red-shifted than chlorophyll a (Chla) in PSI from Thermosynechococcus elongatus. Using the cryo-electron microscopy structure and solving the linear Poisson-Boltzmann equation, here we report the redox potential (Em) values in A. marina PSI. The Em(Chld) values at the paired chlorophyll site, [PAPB], are nearly identical to the corresponding Em(Chla) values in T. elongatus PSI, despite Chld having a 200 mV lower reduction power. The accessory chlorophyll site, A-1, in the B branch exhibits an extensive H-bond network with its ligand water molecule, contributing to Em(A-1B) being lower than Em(A-1A). The substitution of pheophytin a (Pheoa) with Chla at the electron acceptor site, A0, decreases Em(A0), resulting in an uphill electron transfer from A-1. The impact of the A-1 formyl group on Em(A0) is offset by the reorientation of the A0 ester group. It seems likely that Pheoa is necessary for A. marina PSI to maintain the overall electron-transfer cascade characteristic of PSI in its unique light environment.
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