Phycoremediation potential, physiological, and biochemical response of Amphora subtropica and Dunaliella sp. to nickel pollution

[1]  C. Guéguen,et al.  Equilibrium and kinetic studies of Cu(II) and Ni(II) sorption on living Euglena gracilis , 2017, Journal of Applied Phycology.

[2]  S. Sayadi,et al.  Salinity stress increases lipid, secondary metabolites and enzyme activity in Amphora subtropica and Dunaliella sp. for biodiesel production. , 2016, Bioresource technology.

[3]  H. Ayadi,et al.  Physiological and biochemical response of Dunaliella salina to cadmium pollution , 2016, Journal of Applied Phycology.

[4]  F. Martínez-Jerónimo,et al.  Nickel has biochemical, physiological, and structural effects on the green microalga Ankistrodesmus falcatus: An integrative study. , 2015, Aquatic toxicology.

[5]  Sandhya Mishra,et al.  Salinity induced oxidative stress enhanced biofuel production potential of microalgae Scenedesmus sp. CCNM 1077. , 2015, Bioresource technology.

[6]  Sandhya Mishra,et al.  Enhanced biofuel production potential with nutritional stress amelioration through optimization of carbon source and light intensity in Scenedesmus sp. CCNM 1077. , 2015, Bioresource technology.

[7]  Yuelu Jiang,et al.  Coupled effect of silicate and nickel on the growth and lipid production in the diatom Nitzschia perspicua , 2015, Journal of Applied Phycology.

[8]  Hui Chen,et al.  Ca2+ signal transduction related to neutral lipid synthesis in an oil-producing green alga Chlorella sp. C2. , 2014, Plant & cell physiology.

[9]  C. Govindasamy,et al.  Effect of Heavy Metals on Marine Diatom Amphora coffeaeformis ( Agardh , 2013 .

[10]  K. B. Chekroun,et al.  The role of algae in phytoremediation of heavy metals: A review , 2013 .

[11]  Peter R. Rich,et al.  Control of electron transport routes through redox-regulated redistribution of respiratory complexes , 2012, Proceedings of the National Academy of Sciences.

[12]  F. Malcata,et al.  Metal uptake by microalgae: Underlying mechanisms and practical applications , 2012, Biotechnology progress.

[13]  M. Shariati,et al.  Microalgal Biotechnology and Bioenergy in Dunaliella , 2011 .

[14]  W. Mulbry,et al.  Algal Turf Scrubbing: Cleaning Surface Waters with Solar Energy while Producing a Biofuel , 2011 .

[15]  D. Renault,et al.  Integrative analysis of metabolite and transcript abundance during the short-term response to saline and oxidative stress in the brown alga Ectocarpus siliculosus. , 2011, Plant, cell & environment.

[16]  Yeqing Sun,et al.  Biotoxicity of nickel oxide nanoparticles and bio-remediation by microalgae Chlorella vulgaris. , 2011, Chemosphere.

[17]  M. Schmitz,et al.  Control of nuclear HIPK2 localization and function by a SUMO interaction motif. , 2011, Biochimica et biophysica acta.

[18]  Angelo Carpi,et al.  PROGRESS IN MOLECULAR AND ENVIRONMENTAL BIOENGINEERING FROM ANALYSIS AND MODELING TO TECHNOLOGY APPLICATIONS , 2011 .

[19]  C. Govindasamy,et al.  Effect of Heavy Metals on Marine Diatom Amphora coffeaeformis (Agardh. Kutz) , 2011 .

[20]  S. Almeida,et al.  Sensitivity of biochemical markers to evaluate cadmium stress in the freshwater diatom Nitzschia palea (Kützing) W. Smith. , 2010, Aquatic toxicology.

[21]  Z. Yang,et al.  Mercury-induced oxidative stress and impact on antioxidant enzymes in Chlamydomonas reinhardtii , 2010, Ecotoxicology.

[22]  L. Bianchi,et al.  Oxidative stress and antioxidant defenses in two green microalgae exposed to copper. , 2009, Ecotoxicology and environmental safety.

[23]  S. Das,et al.  Nickel, its adverse health effects & oxidative stress. , 2008, The Indian journal of medical research.

[24]  T. Fatma,et al.  EVALUATION OF ANTIOXIDANT DEFENSE RESPONSES TO LEAD STRESS IN HAPALOSIPHON FONTINALIS‐339 1 , 2008, Journal of phycology.

[25]  M. T. Saçan,et al.  Exposure of Dunaliella tertiolecta to Lead and Aluminum: Toxicity and Effects on Ultrastructure , 2007, Biological Trace Element Research.

[26]  J. Toepel,et al.  Parallel analysis of transcript levels and physiological key parameters allows the identification of stress phase gene markers in Chlamydomonas reinhardtii under copper excess. , 2006, Plant, cell & environment.

[27]  G. Knothe Analyzing biodiesel: standards and other methods , 2006 .

[28]  R. O. Cañizares-Villanueva,et al.  Heavy metal detoxification in eukaryotic microalgae. , 2006, Chemosphere.

[29]  Gokare A. Ravishankar,et al.  In vivo antioxidant activity of carotenoids from Dunaliella salina--a green microalga. , 2005, Life sciences.

[30]  H. Hirt,et al.  Reactive oxygen species: metabolism, oxidative stress, and signal transduction. , 2004, Annual review of plant biology.

[31]  M. R. Droop,et al.  The development of artificial media for marine algae , 2004, Archiv für Mikrobiologie.

[32]  D. Morse,et al.  HEAVY METAL–INDUCED OXIDATIVE STRESS IN ALGAE 1 , 2003 .

[33]  Julio Abalde Alonso,et al.  Cadmium removal by living cells of the marine microalga Tetraselmis suecica. , 2002, Bioresource technology.

[34]  Lenwood S Heath,et al.  Role of superoxide dismutases (SODs) in controlling oxidative stress in plants. , 2002, Journal of experimental botany.

[35]  Synerri C.L.M.,et al.  MODULATION OF OXIDATIVE STRESS RESPONSIVE ENZYMES BY EXCESS COBALT , 2002 .

[36]  N. Aykin-Burns,et al.  Toxic metals and oxidative stress part I: mechanisms involved in metal-induced oxidative damage. , 2001, Current topics in medicinal chemistry.

[37]  J. Moroney,et al.  Carbonic anhydrases in plants and algae , 2001 .

[38]  T. Matsunaga,et al.  Screening of marine microalgae for bioremediation of cadmium-polluted seawater. , 1999, Journal of biotechnology.

[39]  R. Borja,et al.  Heavy Metal Removal by Microalgae , 1999, Bulletin of environmental contamination and toxicology.

[40]  E. Torres,et al.  Removal of cadmium ions by the marine diatom Phaeodactylum tricornutum Bohlin accumulation and long-term kinetics of uptake , 1998 .

[41]  M. Wong,et al.  Characterization of the Cadmium-Binding Capacity of Chlorella vulgaris , 1998, Bulletin of environmental contamination and toxicology.

[42]  S. V Matagi,et al.  A review of Heavy Metal Removal Mechanisms in wetlands , 1998 .

[43]  H. H. Draper,et al.  Malondialdehyde determination as index of lipid peroxidation. , 1990, Methods in enzymology.

[44]  I. Fridovich,et al.  Assaying for superoxide dismutase activity: some large consequences of minor changes in conditions. , 1987, Analytical biochemistry.

[45]  J. Stauber,et al.  The influence of iron on copper toxicity to the marine diatom, Nitzschia closterium (ehrenberg) W. Smith , 1985 .

[46]  H. Aebi,et al.  Catalase in vitro. , 1984, Methods in enzymology.

[47]  L. Flohé,et al.  Assays of glutathione peroxidase. , 1984, Methods in enzymology.

[48]  J. R. Jennings,et al.  Accumulation of cadmium by Dunaliella tertiolecta Batcher , 1979 .

[49]  J. Hiscox,et al.  A method for the extraction of chlorophyll from leaf tissue without maceration , 1979 .

[50]  V. L. Singleton,et al.  Colorimetry of Total Phenolics with Phosphomolybdic-Phosphotungstic Acid Reagents , 1965, American Journal of Enology and Viticulture.

[51]  W. J. Dyer,et al.  A rapid method of total lipid extraction and purification. , 1959, Canadian journal of biochemistry and physiology.

[52]  F. Smith,et al.  COLORIMETRIC METHOD FOR DETER-MINATION OF SUGAR AND RELATED SUBSTANCE , 1956 .

[53]  O. H. Lowry,et al.  Protein measurement with the Folin phenol reagent. , 1951, The Journal of biological chemistry.