Unknown

Dataset Information

0

Native mass spectrometry and ion mobility characterize the orange carotenoid protein functional domains.


ABSTRACT: Orange Carotenoid Protein (OCP) plays a unique role in protecting many cyanobacteria from light-induced damage. The active form of OCP is directly involved in energy dissipation by binding to the phycobilisome (PBS), the major light-harvesting complex in cyanobacteria. There are two structural modules in OCP, an N-terminal domain (NTD), and a C-terminal domain (CTD), which play different functional roles during the OCP-PBS quenching cycle. Because of the quasi-stable nature of active OCP, structural analysis of active OCP has been lacking compared to its inactive form. In this report, partial proteolysis was used to generate two structural domains, NTD and CTD, from active OCP. We used multiple native mass spectrometry (MS) based approaches to interrogate the structural features of the NTD and the CTD. Collisional activation and ion mobility analysis indicated that the NTD releases its bound carotenoid without forming any intermediates and the CTD is resistant to unfolding upon collisional energy ramping. The unfolding intermediates observed in inactive intact OCP suggest that it is the N-terminal extension and the NTD-CTD loop that lead to the observed unfolding intermediates. These combined approaches extend the knowledge of OCP photo-activation and structural features of OCP functional domains. Combining native MS, ion mobility, and collisional activation promises to be a sensitive new approach for studies of photosynthetic protein-pigment complexes.

SUBMITTER: Zhang H 

PROVIDER: S-EPMC5201195 | biostudies-literature | 2016 Jun

REPOSITORIES: biostudies-literature

altmetric image

Publications

Native mass spectrometry and ion mobility characterize the orange carotenoid protein functional domains.

Zhang Hao H   Liu Haijun H   Lu Yue Y   Wolf Nathan R NR   Gross Michael L ML   Blankenship Robert E RE  

Biochimica et biophysica acta 20160224 6


Orange Carotenoid Protein (OCP) plays a unique role in protecting many cyanobacteria from light-induced damage. The active form of OCP is directly involved in energy dissipation by binding to the phycobilisome (PBS), the major light-harvesting complex in cyanobacteria. There are two structural modules in OCP, an N-terminal domain (NTD), and a C-terminal domain (CTD), which play different functional roles during the OCP-PBS quenching cycle. Because of the quasi-stable nature of active OCP, struct  ...[more]

Similar Datasets

| S-EPMC9232653 | biostudies-literature
| S-EPMC6464636 | biostudies-literature
| S-EPMC8056390 | biostudies-literature
| S-EPMC5647250 | biostudies-literature
| S-EPMC8327357 | biostudies-literature
| S-EPMC7304667 | biostudies-literature
| S-EPMC4534172 | biostudies-literature
| S-EPMC6504596 | biostudies-literature
| S-EPMC6271531 | biostudies-literature
| S-EPMC4078893 | biostudies-literature