Metabolic engineering of Dunaliellasalina for production of ketocarotenoids

[1]  A. Chandrashekar,et al.  Regulation of astaxanthin and its intermediates through cloning and genetic transformation of β-carotene ketolase in Haematococcus pluvialis. , 2015, Journal of biotechnology.

[2]  M. Michels Microalgae for aquaculture , 2015 .

[3]  D. Martens,et al.  Phototrophic pigment production with microalgae: biological constraints and opportunities , 2014, Journal of phycology.

[4]  K. Palczewski,et al.  Structural basis of carotenoid cleavage: from bacteria to mammals. , 2013, Archives of biochemistry and biophysics.

[5]  D. Singh,et al.  Differential response of Dunaliella salina and Dunaliella tertiolecta isolated from brines of Sambhar Salt Lake of Rajasthan (India) to salinities: A study on growth, pigment and glycerol synthesis , 2013 .

[6]  G. Sandmann,et al.  Metabolic engineering of tomato for high-yield production of astaxanthin. , 2013, Metabolic engineering.

[7]  A. Berchuck,et al.  TRANSGENIC MICROALGAE AS GREEN CELL FACTORIES , 2013 .

[8]  René H Wijffels,et al.  Carotenoid and fatty acid metabolism in nitrogen-starved Dunaliella salina, a unicellular green microalga. , 2012, Journal of biotechnology.

[9]  Yin Li,et al.  Functional characterization of various algal carotenoid ketolases reveals that ketolating zeaxanthin efficiently is essential for high production of astaxanthin in transgenic Arabidopsis , 2011, Journal of experimental botany.

[10]  A. Chandrashekar,et al.  Establishment of Agrobacterium tumefaciens-mediated genetic transformation in Dunaliella bardawil , 2011 .

[11]  René H Wijffels,et al.  Carotenoid and fatty acid metabolism in light‐stressed Dunaliella salina , 2010, Biotechnology and bioengineering.

[12]  Debjani Dutta,et al.  The present perspective of astaxanthin with reference to biosynthesis and pharmacological importance , 2010 .

[13]  René H Wijffels,et al.  Exploring and exploiting carotenoid accumulation in Dunaliella salina for cell-factory applications. , 2008, Trends in biotechnology.

[14]  S. Coesel,et al.  Nutrient Limitation is the Main Regulatory Factor for Carotenoid Accumulation and for Psy and Pds Steady State Transcript Levels in Dunaliella salina (Chlorophyta) Exposed to High Light and Salt Stress , 2008, Marine Biotechnology.

[15]  R. Devlin,et al.  Metabolic engineering of novel ketocarotenoid production in carrot plants , 2008, Transgenic Research.

[16]  W. Becker Microalgae for aquaculture: the nutritional value of microalgae for aquaculture. , 2007 .

[17]  Tanja Gerjets,et al.  Nicotiana glauca engineered for the production of ketocarotenoids in flowers and leaves by expressing the cyanobacterial crtO ketolase gene , 2007, Transgenic Research.

[18]  E. Fernández,et al.  Metabolic engineering of ketocarotenoids biosynthesis in the unicelullar microalga Chlamydomonas reinhardtii. , 2007, Journal of biotechnology.

[19]  N. Ramsay,et al.  Identification of DNA sequences flanking T-DNA insertions by PCR-walking , 2001, Plant Molecular Biology Reporter.

[20]  N. Misawa,et al.  Flower color alteration in Lotus japonicus by modification of the carotenoid biosynthetic pathway , 2007, Plant Cell Reports.

[21]  L. Ducreux,et al.  Engineering ketocarotenoid biosynthesis in potato tubers. , 2006, Metabolic engineering.

[22]  S. Lele,et al.  Carotenoid production from microalga, Dunaliella salina , 2005 .

[23]  Song Qin,et al.  Establishment of a micro-particle bombardment transformation system for Dunaliella salina. , 2005, Journal of microbiology.

[24]  Zhengkai Xu,et al.  Expression of foreign genes in Dunaliella by electroporation , 2005, Molecular biotechnology.

[25]  T. Walker,et al.  Towards the development of a nuclear transformation system for Dunaliella tertiolecta , 2005, Journal of Applied Phycology.

[26]  T. Walker,et al.  Characterisation of the Dunaliella tertiolecta RbcS genes and their promoter activity in Chlamydomonas reinhardtii , 2005, Plant Cell Reports.

[27]  N. Misawa,et al.  Metabolic engineering of ketocarotenoid formation in higher plants. , 2004, The Plant journal : for cell and molecular biology.

[28]  Peng Wang,et al.  Stable expression of hepatitis B surface antigen gene in Dunaliella salina (Chlorophyta) , 2003, Journal of Applied Phycology.

[29]  Norihiko Hata,et al.  Production of astaxanthin by Haematococcus pluvialis in a sequential heterotrophic-photoautotrophic culture , 2001, Journal of Applied Phycology.

[30]  N. Nishio,et al.  Isolation and functional identification of a novel cDNA for astaxanthin biosynthesis from Haematococcus pluvialis, and astaxanthin synthesis in Escherichia coli , 1995, Plant Molecular Biology.

[31]  Kjell Stålberg,et al.  Synthesis of ketocarotenoids in the seed of Arabidopsis thaliana. , 2003, The Plant journal : for cell and molecular biology.

[32]  N. Misawa,et al.  Evaluation of transgenic tomato plants expressing an additional phytoene synthase in a fruit-specific manner , 2002, Proceedings of the National Academy of Sciences of the United States of America.

[33]  E. Jin,et al.  Involvement of zeaxanthin and of the Cbr protein in the repair of photosystem II from photoinhibition in the green alga Dunaliella salina. , 2001, Biochimica et biophysica acta.

[34]  J. Hirschberg,et al.  Carotenoid biosynthesis in flowering plants. , 2001, Current opinion in plant biology.

[35]  G. Giuliano,et al.  Metabolic engineering of beta-carotene and lycopene content in tomato fruit. , 2000, The Plant journal : for cell and molecular biology.

[36]  J. Hirschberg,et al.  Metabolic engineering of astaxanthin production in tobacco flowers , 2000, Nature Biotechnology.

[37]  P. Beyer,et al.  Engineering the provitamin A (beta-carotene) biosynthetic pathway into (carotenoid-free) rice endosperm. , 2000, Science.

[38]  Ke,et al.  Seed-specific overexpression of phytoene synthase: increase in carotenoids and other metabolic effects , 1999, The Plant journal : for cell and molecular biology.

[39]  A. Young,et al.  LOW‐TEMPERATURE‐INDUCED SYNTHESIS OF α‐CAROTENE IN THE MICROALGA DUNALIELLA SALINA (CHLOROPHYTA) , 1999 .

[40]  N. Misawa,et al.  Structure and functional analysis of a marine bacterial carotenoid biosynthesis gene cluster and astaxanthin biosynthetic pathway proposed at the gene level , 1995, Journal of bacteriology.

[41]  T. Saito,et al.  Canthaxanthin biosynthesis by the conversion of methylene to keto groups in a hydrocarbon beta-carotene by a single gene. , 1995, Biochemical and biophysical research communications.

[42]  M. Lucas,et al.  Functional expression of the Erwinia uredovora carotenoid biosynthesis gene crtl in transgenic plants showing an increase of beta-carotene biosynthesis activity and resistance to the bleaching herbicide norflurazon. , 1993, The Plant journal : for cell and molecular biology.

[43]  L. Willmitzer,et al.  Storage of competent cells for Agrobacterium transformation. , 1988, Nucleic acids research.

[44]  A. Richmond,et al.  CRC Handbook of microalgal mass culture , 1986 .

[45]  A. Ben‐Amotz,et al.  On the Factors Which Determine Massive beta-Carotene Accumulation in the Halotolerant Alga Dunaliella bardawil. , 1983, Plant physiology.