An iTRAQ-Based Quantitative Analysis To Elaborate the Proteomic Response of <i>Nostoc</i> sp. PCC 7120 under N<sub>2</sub> Fixing Conditions

Stensjö, Karin; Ow, Saw Yen; Barrios-Llerena, Martin E.; Lindblad, Peter; Wright, Phillip C.

doi:10.1021/pr060517v

Cited by 59 publications

(127 citation statements)

References 68 publications

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“…This increase is impaired in ntcA and hetR mutants, which would be consistent with induction taking place largely in the cells that are differentiating into heterocysts. In a proteomic analysis of filaments grown with or without combined nitrogen, FraH was also found at 2-fold higher levels in the diazotrophic cultures (36). As observed in this work (Fig.…”

Section: Discussionsupporting

confidence: 87%

FraH Is Required for Reorganization of Intracellular Membranes during Heterocyst Differentiation in Anabaena sp. Strain PCC 7120

et al. 2011

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In the filamentous, heterocyst-forming cyanobacteria, two different cell types, the CO 2 -fixing vegetative cells and the N 2 -fixing heterocysts, exchange nutrients and regulators for diazotrophic growth. In the model organism Anabaena sp. strain PCC 7120, inactivation of fraH produces filament fragmentation under conditions of combined nitrogen deprivation, releasing numerous isolated heterocysts. Transmission electron microscopy of samples prepared by either high-pressure cryo-fixation or chemical fixation showed that the heterocysts of a ⌬fraH mutant lack the intracellular membrane system structured close to the heterocyst poles, known as the honeycomb, that is characteristic of wild-type heterocysts. Using a green fluorescent protein translational fusion to the carboxyl terminus of FraH (FraH-C-GFP), confocal microscopy showed spots of fluorescence located at the periphery of the vegetative cells in filaments grown in the presence of nitrate. After incubation in the absence of combined nitrogen, localization of FraH-C-GFP changed substantially, and the GFP fluorescence was conspicuously located at the cell poles in the heterocysts. Fluorescence microscopy and deconvolution of images showed that GFP fluorescence originated mainly from the region next to the cyanophycin plug present at the heterocyst poles. Intercellular transfer of the fluorescent tracers calcein (622 Da) and 5-carboxyfluorescein (374 Da) was either not impaired or only partially impaired in the ⌬fraH mutant, suggesting that FraH is not important for intercellular molecular exchange. Location of FraH close to the honeycomb membrane structure and lack of such structure in the ⌬fraH mutant suggest a role of FraH in reorganization of intracellular membranes, which may involve generation of new membranes, during heterocyst differentiation.

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Section: Discussionsupporting

confidence: 87%

FraH Is Required for Reorganization of Intracellular Membranes during Heterocyst Differentiation in Anabaena sp. Strain PCC 7120

et al. 2011

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“…The band of approximately 2,100 nt is stronger for the cultures grown in an N 2 -fixing environment than for the cultures grown in the non-N 2 -fixing one. This is in accordance with two quantitative proteomic iTRAQ studies of Nostoc PCC 7120 and Nostoc punctiforme ATCC 29133, showing a relative higher level of CalA in N 2 -fixing filaments than in the non-N 2 -fixing filament (46) and an upregulation of 1.67 times of the FIG. 5.…”

Section: Downloaded Fromsupporting

confidence: 91%

“…CalA is annotated as a hypothetical protein, although it has been identified before in proteomic studies (46), consisting of 144 aa and with a predicted molecular mass of 16.06 kDa (see Fig. S1A in the supplemental material) (40).…”

Section: Resultsmentioning

confidence: 99%

“…strain PCC 7120, also known as Anabaena sp. strain PCC 7120 (Nostoc PCC 7120), was cultured in BG11 0 supplemented with 5 mM NH 4 Cl and 5 mM MOPS (morpholinepropanesulfonic acid; pH 7.8) or in BG11 0 (38), sparged with air, and grown at 25°C, with a continuous irradiance of 40 mol of photons m Ϫ2 s Ϫ1 (46). In the Northern blot experiments some of the cultures of Nostoc PCC 7120 were grown in darkness and sparged with argon 12 h before harvesting.…”

Section: Methodsmentioning

confidence: 99%

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CalA, a Cyanobacterial AbrB Protein, Interacts with the Upstream Region of hypC and Acts as a Repressor of Its Transcription in the Cyanobacterium Nostoc sp. Strain PCC 7120

Agervald

Zhang

Stensjö

et al. 2010

Appl Environ Microbiol

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The filamentous, heterocystous, nitrogen-fixing cyanobacterium Nostoc sp. strain PCC 7120 may contain, depending on growth conditions, up to two hydrogenases directly involved in hydrogen metabolism. HypC is one out of at least seven auxiliary gene products required for synthesis of a functional hydrogenase, specifically involved in the maturation of the large subunit. In this study we present a protein, CalA (Alr0946 in the genome), belonging to the transcription regulator family AbrB, which in protein-DNA assays was found to interact with the upstream region of hypC. Transcriptional investigations showed that calA is cotranscribed with the downstream gene alr0947, which encodes a putative protease from the abortive infection superfamily, Abi. CalA was shown to interact specifically not only with the upstream region of hypC but also with its own upstream region, acting as a repressor on hypC. The bidirectional hydrogenase activity was significantly downregulated when CalA was overexpressed, demonstrating a correlation with the transcription factor, either direct or indirect. In silico studies showed that homologues to both CalA and Alr0947 are highly conserved proteins within cyanobacteria with very similar physical organizations of the corresponding structural genes. Possible functions of the cotranscribed downstream protein Alr0947 are presented. In addition, we present a three-dimensional (3D) model of the DNA binding domain of CalA and putative DNA binding mechanisms are discussed.Cyanobacteria and green algae are the only organisms known which are equipped with the combination of oxygenic photosynthesis and hydrogenases (19,21,39,44,53). This combination makes it possible for cyanobacteria to potentially produce hydrogen gas (H 2 ) from solar energy and water, making them an ideal candidate for production of a sustainable energy carrier needed for the future (48). In nature, cyanobacteria recycle the energy-rich H 2 and therefore no net production can be detected (25,48). To create a redundancy of H 2 from a cyanobacterial system, the pathways and regulation of the hydrogen metabolism have to be further explored so that the obtained knowledge can be used in metabolic engineering.

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“…To determine the extent to which the transcript level changes described above are dynamically reflected at the protein level, and in turn, at the phenotype level, whole-cell quantitative proteomics analysis was conducted using the mass spectrometrybased iTRAQ method (Ross et al 2004;Whitehead et al 2006;Stensjo et al 2007).…”

Section: The Translational Response Of H Salinarum Nrc-1 To Changes mentioning

confidence: 99%

The anatomy of microbial cell state transitions in response to oxygen

Schmid¹,

Reiss²,

Kaur³

et al. 2007

Genome Res.

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Adjustment of physiology in response to changes in oxygen availability is critical for the survival of all organisms. However, the chronology of events and the regulatory processes that determine how and when changes in environmental oxygen tension result in an appropriate cellular response is not well understood at a systems level. Therefore, transcriptome, proteome, ATP, and growth changes were analyzed in a halophilic archaeon to generate a temporal model that describes the cellular events that drive the transition between the organism's two opposing cell states of anoxic quiescence and aerobic growth. According to this model, upon oxygen influx, an initial burst of protein synthesis precedes ATP and transcription induction, rapidly driving the cell out of anoxic quiescence, culminating in the resumption of growth. This model also suggests that quiescent cells appear to remain actively poised for energy production from a variety of different sources. Dynamic temporal analysis of relationships between transcription and translation of key genes suggests several important mechanisms for cellular sustenance under anoxia as well as specific instances of post-transcriptional regulation.

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An iTRAQ-Based Quantitative Analysis To Elaborate the Proteomic Response of Nostoc sp. PCC 7120 under N₂ Fixing Conditions

Cited by 59 publications

References 68 publications

FraH Is Required for Reorganization of Intracellular Membranes during Heterocyst Differentiation in Anabaena sp. Strain PCC 7120

FraH Is Required for Reorganization of Intracellular Membranes during Heterocyst Differentiation in Anabaena sp. Strain PCC 7120

CalA, a Cyanobacterial AbrB Protein, Interacts with the Upstream Region of hypC and Acts as a Repressor of Its Transcription in the Cyanobacterium Nostoc sp. Strain PCC 7120

The anatomy of microbial cell state transitions in response to oxygen

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An iTRAQ-Based Quantitative Analysis To Elaborate the Proteomic Response of Nostoc sp. PCC 7120 under N2 Fixing Conditions

Cited by 59 publications

References 68 publications

FraH Is Required for Reorganization of Intracellular Membranes during Heterocyst Differentiation in Anabaena sp. Strain PCC 7120

FraH Is Required for Reorganization of Intracellular Membranes during Heterocyst Differentiation in Anabaena sp. Strain PCC 7120

CalA, a Cyanobacterial AbrB Protein, Interacts with the Upstream Region of hypC and Acts as a Repressor of Its Transcription in the Cyanobacterium Nostoc sp. Strain PCC 7120

The anatomy of microbial cell state transitions in response to oxygen

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An iTRAQ-Based Quantitative Analysis To Elaborate the Proteomic Response of Nostoc sp. PCC 7120 under N₂ Fixing Conditions