合成天线在整个可见光区域作为光捕获器以增强混合光合反应中心的功能。

Synthetic Antenna Functioning As Light Harvester in the Whole Visible Region for Enhanced Hybrid Photosynthetic Reaction Centers.

作者信息

Hassan Omar Omar, la Gatta Simona, Tangorra Rocco Roberto, Milano Francesco, Ragni Roberta, Operamolla Alessandra, Argazzi Roberto, Chiorboli Claudio, Agostiano Angela, Trotta Massimo, Farinola Gianluca M

机构信息

Dipartimento di Chimica, Università degli Studi di Bari "Aldo Moro" , 70125 Bari, Italy.

Istituto di Sintesi Organica e Fotoreattività, Consiglio Nazionale delle Ricerche , 44121 Ferrara, Italy.

出版信息

Bioconjug Chem. 2016 Jul 20;27(7):1614-23. doi: 10.1021/acs.bioconjchem.6b00175. Epub 2016 Jun 15.

DOI:10.1021/acs.bioconjchem.6b00175

PMID:27245093

Abstract

The photosynthetic reaction center (RC) from the Rhodobacter sphaeroides bacterium has been covalently bioconjugated with a NIR-emitting fluorophore (AE800) whose synthesis was specifically tailored to act as artificial antenna harvesting light in the entire visible region. AE800 has a broad absorption spectrum with peaks centered in the absorption gaps of the RC and its emission overlaps the most intense RC absorption bands, ensuring a consistent increase of the protein optical cross section. The covalent hybrid AE800-RC is stable and fully functional. The energy collected by the artificial antenna is transferred to the protein via FRET mechanism, and the hybrid system outperforms by a noteworthy 30% the overall photochemical activity of the native protein under the entire range of visible light. This improvement in the optical characteristic of the photoenzyme demonstrates the effectiveness of the bioconjugation approach as a suitable route to new biohybrid materials for energy conversion, photocatalysis, and biosensing.

摘要

来自球形红细菌的光合反应中心（RC）已与一种近红外发射荧光团（AE800）共价生物共轭，该荧光团的合成经过专门设计，可作为在整个可见光区域收集光的人工天线。AE800具有宽广的吸收光谱，其峰值集中在RC的吸收间隙中，并且其发射与最强烈的RC吸收带重叠，确保了蛋白质光学截面的持续增加。共价杂交体AE800-RC稳定且功能完全正常。人工天线收集的能量通过荧光共振能量转移（FRET）机制转移到蛋白质上，在整个可见光范围内，杂交系统的整体光化学活性比天然蛋白质显著高出30%。这种光酶光学特性的改善证明了生物共轭方法作为一种适用于新型生物杂交材料用于能量转换、光催化和生物传感的有效途径。

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合成天线在整个可见光区域作为光捕获器以增强混合光合反应中心的功能。

Synthetic Antenna Functioning As Light Harvester in the Whole Visible Region for Enhanced Hybrid Photosynthetic Reaction Centers.

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