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1.
Proc Natl Acad Sci U S A ; 111(10): E953-61, 2014 Mar 11.
Article in English | MEDLINE | ID: mdl-24556993

ABSTRACT

Type IV pili (T4P) are ubiquitous and versatile bacterial cell surface structures involved in adhesion to host cells, biofilm formation, motility, and DNA uptake. In Gram-negative bacteria, T4P pass the outer membrane (OM) through the large, oligomeric, ring-shaped secretin complex. In the ß-proteobacterium Neisseria gonorrhoeae, the native PilQ secretin ring embedded in OM sheets is surrounded by an additional peripheral structure, consisting of a peripheral ring and seven extending spikes. To unravel proteins important for formation of this additional structure, we identified proteins that are present with PilQ in the OM. One such protein, which we name T4P secretin-associated protein (TsaP), was identified as a phylogenetically widely conserved component of the secretin complex that co-occurs with genes for T4P in Gram-negative bacteria. TsaP contains an N-terminal carbohydrate-binding lysin motif (LysM) domain and a C-terminal domain of unknown function. In N. gonorrhoeae, lack of TsaP results in the formation of membrane protrusions containing multiple T4P, concomitant with reduced formation of surface-exposed T4P. Lack of TsaP did not affect the oligomeric state of PilQ, but resulted in loss of the peripheral structure around the PilQ secretin. TsaP binds peptidoglycan and associates strongly with the OM in a PilQ-dependent manner. In the δ-proteobacterium Myxococcus xanthus, TsaP is also important for surface assembly of T4P, and it accumulates and localizes in a PilQ-dependent manner to the cell poles. Our results show that TsaP is a novel protein associated with T4P function and suggest that TsaP functions to anchor the secretin complex to the peptidoglycan.


Subject(s)
Fimbriae Proteins/metabolism , Fimbriae, Bacterial/metabolism , Lipoproteins/metabolism , Neisseria gonorrhoeae/metabolism , Blotting, Western , Computational Biology , Electrophoresis, Polyacrylamide Gel , Fimbriae Proteins/isolation & purification , Lipoproteins/genetics , Microscopy, Electron, Transmission , Microscopy, Fluorescence , Neisseria gonorrhoeae/genetics , Peptidoglycan/metabolism , Protein Structure, Tertiary
2.
Proc Natl Acad Sci U S A ; 111(7): 2512-7, 2014 Feb 18.
Article in English | MEDLINE | ID: mdl-24550276

ABSTRACT

Oxygenic photosynthesis is driven by photosystems I and II (PSI and PSII, respectively). Both have specific antenna complexes and the phycobilisome (PBS) is the major antenna protein complex in cyanobacteria, typically consisting of a core from which several rod-like subcomplexes protrude. PBS preferentially transfers light energy to PSII, whereas a PSI-specific antenna has not been identified. The cyanobacterium Anabaena sp. PCC 7120 has rod-core linker genes (cpcG1-cpcG2-cpcG3-cpcG4). Their products, except CpcG3, have been detected in the conventional PBS. Here we report the isolation of a supercomplex that comprises a PSI tetramer and a second, unique type of a PBS, specific to PSI. This rod-shaped PBS includes phycocyanin (PC) and CpcG3 (hereafter renamed "CpcL"), but no allophycocyanin or CpcGs. Fluorescence excitation showed efficient energy transfer from PBS to PSI. The supercomplex was analyzed by electron microscopy and single-particle averaging. In the supercomplex, one to three rod-shaped CpcL-PBSs associate to a tetrameric PSI complex. They are mostly composed of two hexameric PC units and bind at the periphery of PSI, at the interfaces of two monomers. Structural modeling indicates, based on 2D projection maps, how the PsaI, PsaL, and PsaM subunits link PSI monomers into dimers and into a rhombically shaped tetramer or "pseudotetramer." The 3D model further shows where PBSs associate with the large subunits PsaA and PsaB of PSI. It is proposed that the alternative form of CpcL-PBS is functional in harvesting energy in a wide number of cyanobacteria, partially to facilitate the involvement of PSI in nitrogen fixation.


Subject(s)
Anabaena/metabolism , Models, Molecular , Photosystem I Protein Complex/metabolism , Phycobilisomes/metabolism , Protein Conformation , Cell Fractionation , Cluster Analysis , Immunoblotting , Microscopy, Electron , Spectrometry, Fluorescence
3.
J Exp Bot ; 64(10): 2689-99, 2013 Jul.
Article in English | MEDLINE | ID: mdl-23682117

ABSTRACT

Recently, bryophytes, which diverged from the ancestor of seed plants more than 400 million years ago, came into focus in photosynthesis research as they can provide valuable insights into the evolution of photosynthetic complexes during the adaptation to terrestrial life. This study isolated intact photosystem I (PSI) with its associated light-harvesting complex (LHCI) from the moss Physcomitrella patens and characterized its structure, polypeptide composition, and light-harvesting function using electron microscopy, mass spectrometry, biochemical, and physiological methods. It became evident that Physcomitrella possesses a strikingly high number of isoforms for the different PSI core subunits as well as LHCI proteins. It was demonstrated that all these different subunit isoforms are expressed at the protein level and are incorporated into functional PSI-LHCI complexes. Furthermore, in contrast to previous reports, it was demonstrated that Physcomitrella assembles a light-harvesting complex consisting of four light-harvesting proteins forming a higher-plant-like PSI superstructure.


Subject(s)
Bryopsida/metabolism , Photosystem I Protein Complex/chemistry , Photosystem I Protein Complex/metabolism , Bryopsida/chemistry , Bryopsida/genetics , Bryopsida/radiation effects , Light , Light-Harvesting Protein Complexes/chemistry , Light-Harvesting Protein Complexes/genetics , Light-Harvesting Protein Complexes/metabolism , Photosynthesis , Photosystem I Protein Complex/genetics , Protein Isoforms/chemistry , Protein Isoforms/genetics , Protein Isoforms/metabolism
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