Hydrogen Photoproduction by Immobilized N
            <sub>2</sub>
            -Fixing Cyanobacteria: Understanding the Role of the Uptake Hydrogenase in the Long-Term Process

Kosourov, Sergey; Leino, Hannu; Murukesan, Gayathri; Lynch, Fiona; Sivonen, Kaarina; Tsygankov, Anatoly A.; Aro, Eva‐Mari; Allahverdiyeva, Yagut

doi:10.1128/aem.01776-14

Cited by 34 publications

(15 citation statements)

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“…Employment of isolates native to a particular area may be advantageous in their inherent suitability to environmental conditions; a potential benefit in developing an energetically efficient biofuel production platform. We have already studied the biohydrogen photoproduction of isolates from the UHCC [19], and the extension and stabilization of production through improved light conversion efficiency of cells entrapped in thin alginate films [20,21]. We expect that native isolates may have an advantage at lower bioreactor temperatures and under lower light conditions.…”

Section: Introductionmentioning

confidence: 97%

Screening native isolates of cyanobacteria and a green alga for integrated wastewater treatment, biomass accumulation and neutral lipid production

et al. 2015

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The value and efficiency of microalgal biofuel production can be improved in an integrated system using waste streams as feed-stock, with fuel-rich biomass and treated wastewater being key end-products. We have evaluated seven native cyanobacterial isolates and one native green alga for their nutrient removal, biomass accumulation and lipid production capacities. All native isolates were successfully grown on synthetic wastewater mimicking secondary treated municipal wastewater (without organic carbon). Complete phosphate removal was achieved by the native green alga, isolated from Tvärminne (SW Finland). Optimisation of the C:N ratio available to this strain was achieved by addition of 3% CO 2 and resulted in complete ammonium removal in synthetic wastewater. The native green alga demonstrated similar nutrient removal rates and even stronger growth in screened municipal wastewater, which had double the ammonium concentration of the synthetic media and also contained organic carbon. Sequencing of the genes coding for 18S small rRNA subunit and the ITS1 spacer region of this alga placed it in the Scenedesmaceae family. The lipid content of native isolates was evaluated using BODIPY (505/515) staining combined with high-throughput flow cytometry, where the native green alga demonstrated significantly greater neutral lipid accumulation than the cyanobacteria under the conditions studied.

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Section: Introductionmentioning

confidence: 97%

Screening native isolates of cyanobacteria and a green alga for integrated wastewater treatment, biomass accumulation and neutral lipid production

et al. 2015

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“…Nitrogenase activity was determined using the acetylene reduction assay described by [38]. 5 ml liquid cultures grown in 3% CO2 in BG11AC or BG110C (for nitrogen-fixing conditions) were flushed with argon for 20 min and incubated in 23 ml vials with 10% acetylene in the headspace for 20 h, under 50 μmol photons m -2 s -1 light at 30°C with gentle agitation (120 rpm).…”

Section: Nitrogenase Activity Measurementsmentioning

confidence: 99%

A novel Ca²⁺-binding protein influences photosynthetic electron transport inAnabaenasp. PCC 7120

Walter

Selim

Leganés

et al. 2019

Preprint

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Ca 2+ is a potent signalling molecule that regulates many cellular processes. In cyanobacteria, Ca 2+ has been linked to cell growth, stress response and photosynthesis, and to the development of specialist heterocyst cells in certain nitrogen-fixing species. Despite this, the pathways of calcium signal transduction in cyanobacteria are poorly understood, and only a few protein components are known. The current study describes a previously unreported calcium-binding protein which was called the Calcium Sensor EF-hand (CSE), which is conserved in filamentous, nitrogen-fixing cyanobacteria. CSE is shown to bind calcium, which induces a conformational change in the protein structure. Poor growth of a strain of Anabaena sp. PCC 7120 overexpressing CSE was attributed to diminished photosynthetic performance. Transcriptomics, biophysics and proteomics analyses revealed modifications in the light-harvesting phycobilisome and photosynthetic reaction centerprotein complexes, and downregulated respiration. thylakoid membrane, with a special type of PBS being connected to PSI [20]. In Synechocystis sp.PCC 6803, even a megacomplex composed of PBS-PSII-PSI has been reported [21]. PBS are composed of different phycobilin pigment-binding proteins (PBP) and linker proteins, which are organised in allophycocyanin (APC) core cylinders connected to the photosystem reaction centres, and peripheral rod-shaped antennae linked to the APC core. The rods consist of core-connected phycocyanin (PC) discs, while some strains have additional phycoerythrocyanin (PEC) discs at the distal end of each rod [reviewed in 22]. Depending on the cyanobacterial species, the PBS composition and structure can differ in the number and type of PBPs, the type of bound chromophores (pigments) and the number of rods and core cylinders per PBS. In the multicellular model organism Nostoc sp. PCC 7120 (herein referred to as Anabaena), the APC core contains five cylinders from which eight rods radiate. APC, PC and PEC bind different numbers of the chromophore phycocyanobilin (PCB), resulting in different spectral features for each PBP. PEC absorbs light of shorter wavelengths (absorption maximum at 570 nm), whereas APC absorbs light of longer wavelengths (absorption maximum at 650 nm) [23]. Excitation energy is transferred from PEC via PC and APC to the terminal emitter ApcE, which is a pigmented core-membrane linker protein (LCM) connected to the PSII reaction centre in close proximity to CP43 [21,24,25]. Similarly, the terminal emitter ApcD connects PBS to PSI via hydrophobic interactions at the interface of two PSI monomers [20,21,26].Other linker proteins that do not bind pigments connect the discs, rods and cores within the PBS, to form complexes of around 6 000 kDa [24,27,28].In this study, we present a previously undescribed EF-hand protein that is highly conserved in filamentous cyanobacteria. Based on demonstrations of Ca 2+ -binding, we called the protein "Ca 2+ sensor EF-hand" (CSE). Over-expression of CSE in Anabaena was shown to affect photosynthetic...

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“…As algas possuem rápido crescimento quando adaptadas ao ambiente, podendo dobrar sua densidade dentro de horas quando se encontram nas condições ideias de crescimento, até mesmo em sistemas de fotobiorreatores fechados (RAZEGHIFARD, 2013 (TAMAGNINI et al, 2000;SCHUTZ et al, 2004;MARQUES et al, 2011;KOSOUROV et al, 2014), embora há desenvolvimento de estudos também com 1444 (referenciada também como ATCC 29413) (TAMAGNINI et al, 2000;LIU et al, 2006;BERBEROGLU et al, 2008;MARKOV et al, 2015), comprovando que são cepas produtoras de hidrogênio pelas vias de hidrogenase (biofotólise direta) e nitrogenase (biofotólise indireta).…”

Section: Discussionunclassified

“…A presença e ativação da nitrogenase são comprovadas pela redução do acetileno (C 2 H 2 ) à etileno (C 2 H 4 ) (STEWART; PEARSON, 1970;HOUCHINS, 1984;TSYGANKOV et al, 1997;KOSOUROV et al, 2014).…”

Section: Discussionunclassified

“…Além desta perspectiva futura, veem-se também esforços na engenharia genética em desenvolver cepas com mutações genéticas, analisando-se as vantagens e desvantagens, para tornar a hidrogenase menos sensível ao oxigênio (GODAUX et al, 2013;GHIRARDI, 2015;GHIRARDI, 2015), aumento da taxa respiratória para acelerar o processo de anaerobiose (XU et al, 2014) e mutações na hidrogenase de captação das cianobactérias para diminuir o efeito da reciclagem de hidrogênio produzido pela nitrogenase (MARQUES et al, 2011;TIWARI;PANDEY, 2012;KOSOUROV et al, 2014). …”

Hydrogen Photoproduction by Immobilized N ₂ -Fixing Cyanobacteria: Understanding the Role of the Uptake Hydrogenase in the Long-Term Process

Cited by 34 publications

References 50 publications

Screening native isolates of cyanobacteria and a green alga for integrated wastewater treatment, biomass accumulation and neutral lipid production

Screening native isolates of cyanobacteria and a green alga for integrated wastewater treatment, biomass accumulation and neutral lipid production

A novel Ca²⁺-binding protein influences photosynthetic electron transport inAnabaenasp. PCC 7120

Produção de hidrogênio por <i>Chlamydomonas </i>spp. e <i>Anabaena</i> spp.

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Hydrogen Photoproduction by Immobilized N 2 -Fixing Cyanobacteria: Understanding the Role of the Uptake Hydrogenase in the Long-Term Process

Cited by 34 publications

References 50 publications

Screening native isolates of cyanobacteria and a green alga for integrated wastewater treatment, biomass accumulation and neutral lipid production

Screening native isolates of cyanobacteria and a green alga for integrated wastewater treatment, biomass accumulation and neutral lipid production

A novel Ca2+-binding protein influences photosynthetic electron transport inAnabaenasp. PCC 7120

Produção de hidrogênio por <i>Chlamydomonas </i>spp. e <i>Anabaena</i> spp.

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Hydrogen Photoproduction by Immobilized N ₂ -Fixing Cyanobacteria: Understanding the Role of the Uptake Hydrogenase in the Long-Term Process

A novel Ca²⁺-binding protein influences photosynthetic electron transport inAnabaenasp. PCC 7120