Your search keyword '"Morakot Tanticharoen"' showing total 17 results

1. Different effects of the combined stress of nitrogen depletion and high temperature than an individual stress on the synthesis of biochemical compounds in Arthrospira platensis C1 (PCC 9438)

Author

Sudarat Dulsawat, Wipawan Siangdung, Jittisak Senachak, Jaruta Panyakampol, Kalyanee Paithoonrangsarid, Supapon Cheevadhanarak, and Morakot Tanticharoen

Subjects

0301 basic medicine, chemistry.chemical_classification, Linoleic acid, Plant physiology, chemistry.chemical_element, Plant Science, Aquatic Science, Carbohydrate, Biology, Polysaccharide, Photosynthesis, Nitrogen, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, chemistry, Biochemistry, Phycocyanin, Food science, Incubation

Abstract

In nature, several abiotic stresses occur simultaneously, leading to retarded growth and biochemical changes in microalgae, including the commercial cyanobacterium, Arthrospira platensis. To gain more understanding of stress response, we investigated the integrative effects of nitrogen depletion and high temperature stress on physiological changes of A. platensis C1. The results revealed that photosynthetic activities of the stressed cells were markedly reduced by more than a half in comparison to the non-stressed cells. Moreover, a reduction of biomass was observed within 24 h after prolonged exposure to combined stress of nitrogen depletion and high temperature. The total protein contents, including phycocyanin (PC), in the stressed cells, decreased rapidly within 8 h of incubation. This finding was concomitant with the increase in carbohydrate content. However, the accumulation of carbohydrates in the nitrogen depletion-treated cells was greater than that in the cells under the combined stress. Furthermore, the levels of polysaccharides increased only under long-term incubation under nitrogen depletion but not under the combined stress. In addition, the combination of nitrogen depletion and high temperature stress resulted in an increase in the proportion of linoleic acid but a decrease in γ-linolenic acid within 24 h. These results suggest that the response of A. platensis to the combined stress was different from the responses of cells to individual stress. The PC degradation, the increased carbohydrates, and the alteration in fatty acids profiles were required for physiological response to combined nitrogen depletion and high temperature stress of A. platensis C1.

Published

2015

2. The effect of light availability on the photosynthetic activity and productivity of outdoor cultures of Arthrospira platensis (Spirulina)

Author

Avigad Vonshak, Boosya Bunnag, Morakot Tanticharoen, and Supat Laorawat

Subjects

Photoinhibition, biology, Biomass, Plant Science, Aquatic Science, Photosynthesis, biology.organism_classification, Light intensity, Agronomy, Productivity (ecology), Biofuel, Botany, Shading, Arthrospira

Abstract

The basic requirement for establishing economically viable large-scale production of algal biomass, be it for food, feed, high-value product, or energy, is the ability to produce the biomass at a low price. To achieve this goal, an efficient production protocol is needed that ensures that the potential productivity is obtained at any given time. When productivity is defined by the ability to utilize the available solar radiation that drives photosynthesis, the production protocol must be optimized to meet this requirement. In the current study, we demonstrate that by modifying the light available to Arthrospira platensis cells cultured outdoors by a variety of options like modifying the standing biomass concentration, changing the mixing rate, or shading can change the potential photosynthetic activity and apparent activity. By optimizing the light available to algae cells under outdoor conditions, productivity can be increased by approximately 50 %, from 15.6 g m−2 day−1 in a culture that suffers from overexposure to light to 22.4 g m−2 day−1 in a culture in which light downregulation is minimized. Therefore, by using a variety of methodologies to estimate photosynthetic activity, we demonstrate that overexposing the cells to light may result in downregulation of the photosynthetic activity leading to photoinhibition and lower biomass productivity.

Published

2013

3. Erratum to: Infection and colonization of tissues of the aphid Myzus persicae and cassava mealybug Phenacoccus manihoti by the fungus Beauveria bassiana

Author

Duriya Chantasingh, Lily Eurwilaichitr, Prachumporn Nounurai, Supapon Cheevadhanarak, Cheerapha Panyasiri, Alongkorn Amnuaykanjanasin, Pairat Panyarakkit, Morakot Tanticharoen, and Jiraporn Jirakkakul

Subjects

Aphid, biology, fungi, Beauveria bassiana, Aphididae, Bassiana, biology.organism_classification, Phenacoccus manihoti, Animal ecology, Insect Science, Botany, Mealybug, Myzus persicae, Agronomy and Crop Science

Abstract

Histopathogenesis of living insects of Myzus persicae Sulzer (Hemiptera: Aphididae) and Phenacoccus manihoti Matile‐Ferrero (Hemiptera: Pseudococcidae) by Beauveria bassiana (Balsamo) Vuillemin (Ascomycota: Hypocreales) was monitored from penetration through insect death. Important events in aphids included fungal penetration of the integument of the less-resistant leg intersegmental membrane and invasion of natural openings, formation of hyphal bodies in live aphids by three days post-inoculation (PI), and extensive hyphal colonization of the two leg segments closest to the insect body at death of the aphids. Confocal microscopy of green fluorescent protein-labeled B. bassiana in live mealybugs indicated the fungus penetrated the host through the legs and mouthparts. The fungus was scarce in live mealybugs at 1–5 days PI, formed hyphal bodies by six days PI, and growth was limited to parts of dead hosts at 6–7 days PI. In dead mealybugs, hyphal bodies were near solid tissue. Blastospores were in the hemolymph.

Published

2013

4. Infection and colonization of tissues of the aphid Myzus persicae and cassava mealybug Phenacoccus manihoti by the fungus Beauveria bassiana

Author

Alongkorn Amnuaykanjanasin, Jiraporn Jirakkakul, Cheerapha Panyasiri, Pairat Panyarakkit, Prachumporn Nounurai, Duriya Chantasingh, Lily Eurwilaichitr, Supapon Cheevadhanarak, and Morakot Tanticharoen

Subjects

Insect Science, Agronomy and Crop Science

Published

2012

5. Subcellular localization-dependent regulation of the three Spirulina desaturase genes, desC, desA, and desD, under different growth phases

Author

Rayakorn Yutthanasirikul, Marasri Ruengjitchatchawalya, Morakot Tanticharoen, Tippawan Mapaisansup, and Apiradee Hongsthong

Subjects

Spirulina (genus), biology, Linoleic acid, food and beverages, Vaccenic acid, Plant Science, Aquatic Science, biology.organism_classification, Subcellular localization, Delta-6-desaturase, Oleic acid, chemistry.chemical_compound, Biochemistry, chemistry, lipids (amino acids, peptides, and proteins), Stearic acid, Arthrospira

Abstract

Spirulina, a well-known cyanobacterium, is a potential alternative source for commercial γ-linolenic acid (C18:3Δ9,12,6, GLA) production. During the Spirulina desaturation process, three enzymes, which are encoded by desC, desA, and desD, respectively, introduce double bonds at the Δ9, Δ12, and Δ6 positions of stearic acid (C18:0), oleic acid (C18:1Δ9), and linoleic acid (C18:2Δ9,12). In the present study, transcriptional and translational expression of the desaturase genes during various growth phases of Spirulina platensis Z19/2 was examined. Moreover, the desaturase levels and fatty acids were analyzed in two subcellular locations, the plasma membrane and thylakoid membrane. The results obtained in this study indicated three important points: (1) the regulation level of each Spirulina desaturase gene is possibly subcellular location dependent; (2) GLA is important during cell division in the mid-log phase; and (3) vaccenic acid (C18:1Δ11), which is detected at high levels during the lag phase in the plasma membrane, might play a role in the mechanical strength of the cell membrane at low growth rates.

Published

2012

6. Up-regulated expression of desaturase genes of Mucor rouxii in response to low temperature associates with pre-existing cellular fatty acid constituents

Author

Kobkul Laoteng, Morakot Tanticharoen, Supapon Cheevadhanarak, Bruno Maresca, and Pattsarun Cheawchanlertfa

Subjects

Fatty Acid Desaturases, Desaturase, Biology, Cell morphology, Fungal Proteins, chemistry.chemical_compound, Cell morphology, Desaturase, Gene expression, Low temperature, Mucor rouxii, Gene Expression Regulation, Fungal, Yeasts, Phosphatidylcholine, Gene expression, Genetics, Cold acclimation, Low temperature, Molecular Biology, chemistry.chemical_classification, Phosphatidylethanolamine, Mycelium, Fatty Acids, Fatty acid, Mucor rouxii, General Medicine, Up-Regulation, Cold Temperature, Monoacylglycerol lipase, chemistry, Biochemistry, Mucor, Polyunsaturated fatty acid

Abstract

Transcriptional response of desaturase genes to low temperature was investigated in the dimorphic fungus Mucor rouxii. The two morphological forms of M. rouxii, yeast-like and mycelial cells containing different fatty acid profiles were shifted from 30 to 10°C. Both cultures exhibited significantly altered fatty acid composition, whose content in polyunsaturated fatty acids increased as consequence of the temperature shift and was accompanied by a reduction of C18:1Δ(9) about 2 h after the temperature shift. These changes were particularly significant in phosphatidylcholine and phosphatidylethanolamine fractions. Moreover, the fatty acid profiles of monoacylglycerol and diacylglycerol were also modulated in response to the lower temperature of incubation. The changes of membrane lipids of M. rouxii were due to the cold-induced expression of Δ(9)-, Δ(12)- and Δ(6)-desaturase genes. Although the mRNA levels of the three desaturases were transiently induced by lowering the temperature, the pre-existing composition of fatty acid profiles of mycelial and yeast-like forms of M. rouxii may have lead to different expression profiles of desaturase genes that modified their membrane physical state under cold shock. While expression of Δ(12)-desaturase gene contributed mainly to cold acclimation of mycelia, Δ(9)-desaturase expression was the main transcript identified in the yeast-like culture after temperature shift.

Published

2010

7. Phycocyanin promoter of Spirulina platensis controlling heterologous expression in cyanobacteria

Author

Supapon Cheevadhanarak, Kobkul Laoteng, Wattana Jeamton, Morakot Tanticharoen, and Sudarat Dulsawat

Subjects

Cyanobacteria, Expression vector, Plant Science, Aquatic Science, Biology, biology.organism_classification, medicine.disease_cause, Molecular biology, Green fluorescent protein, Biochemistry, Transcription (biology), Phycocyanin, Gene expression, medicine, Heterologous expression, Escherichia coli

Abstract

An efficient expression vector for transferring exogenous deoxyribonucleic acid (DNA) into cell is important for biological study and recombinant protein production in cyanobacteria. The promoter, which can mediate gene expression and function in both Escherichia coli and cyanobacteria, could facilitate development of an expression vector for a DNA transfer system in cyanobacteria. Computational analysis of the phycocyanin (PC) promoter of Spirulina platensis strain C1 showed a high degree of conservation with the PC promoter of other cyanobacteria. In addition, the S. platensis PC promoter matched well with the consensus sequences of the E. coli promoter. Using green fluorescent protein (GFP) as a reporter, activity of the PC promoter of S. platensis C1 was functionally analyzed in Synechococcus elongatus and E. coli. The result revealed that the PC promoter could efficiently drive gfp expression in heterologous hosts, indicating the existence of common transcription machinery in these microbes. This promoter may be applicable not only for fundamental research but also for biotechnological purposes.

Published

2010

8. Oxygen-induced expression of ∆6-, ∆9- and ∆12-desaturase genes modulates fatty acid composition in Mucor rouxii

Author

Sansanalak Rachdawong, Supapon Cheevadhanarak, Rawisara Ruenwai, Morakot Tanticharoen, and Kobkul Laoteng

Subjects

chemistry.chemical_classification, biology, Fatty acid, chemistry.chemical_element, General Medicine, biology.organism_classification, Applied Microbiology and Biotechnology, Oxygen, chemistry.chemical_compound, Stearoyl-CoA Desaturase, Enzyme, chemistry, Biochemistry, Gene expression, gamma-Linolenic acid, Anaerobic exercise, Biotechnology, Zygomycota

Abstract

The effect of oxygen availability on the molecular mechanisms of fatty acid biosynthesis was investigated in Mucor rouxii, a Mucorale fungus capable of producing gamma-linolenic acid through perturbation of the gaseous environment. Shifting of the M. rouxii culture from anaerobic to aerobic conditions resulted in an increase of the biomass and total fatty acid content of the M. rouxii culture. In addition, the levels of unsaturated fatty acids were enhanced accompanied by a decrease in the levels of medium- and long-chain saturated fatty acids. These results correspond to the levels of expressions of the Delta(9)-, Delta(12)- and Delta(6)-desaturases genes, all of which were coordinately up-regulated after the shift. The transcriptional response observed was rapid and transient, with the maximal mRNA levels detected between 0.5 h and 1.0 h after the shift. Together, our findings indicate that the anaerobic M. rouxii culture acclimatised to oxygen exposure by modulating fatty acid composition that was transcriptionally co-regulated by Delta(9)-, Delta(12)- and Delta(6)-desaturase genes.

Published

2009

9. Two new ascomycetous anamorphic yeast species related to Candida friedrichii—Candida jaroonii sp. nov., and Candida songkhlaensis sp. nov.—isolated in Thailand

Author

Morakot Tanticharoen, Akira Nakagiri, Savitree Limtong, Wanchern Potacharoen, Sasitorn Jindamorakot, Yumi Imanishi, Takashi Nakase, and Kozaburo Mikata

Subjects

Insecta, Molecular Sequence Data, Bryophyta, Flowers, Microbiology, Phylogenetics, DNA, Ribosomal Spacer, Botany, Animals, Agaricales, Candida friedrichii, DNA, Fungal, Mycological Typing Techniques, Molecular Biology, Ribosomal DNA, Phylogeny, Candida, Ecology, Phylogenetic tree, biology, Frass, General Medicine, Thailand, biology.organism_classification, Yeast, RNA, Ribosomal, Taxonomy (biology)

Abstract

In a study of yeast diversity in Thailand, eight strains of hitherto undescribed anamorphic yeasts were isolated: four from insect frass, two from Marasmius sp. fruiting bodies, one from a flower, and one from jackfruit exudates. Phylogenetic analysis of the D1/D2 domain of 26S ribosomal DNA nucleotide sequences indicated that the eight strains represented two new species related to Candida friedrichii. Genetic separation of the two new species was further supported by DNA-DNA hybridization analysis, which resulted in between-species similarity values of less than 48%, and by electrophoretic karyotyping. The two new species are C. jaroonii sp. nov. (type strain, ST-300(T) = NBRC 103209(T) = BCC 11783(T) = CBS 10790(T)) and C. songkhlaensis sp. nov. (type strain, ST-328(T) = NBRC 103214(T) = BCC 11804(T) = CBS 10791(T)).

Published

2008

10. Revealing the complementation of ferredoxin by cytochrome b 5 in the Spirulina-∆6-desaturation reaction by N-terminal fusion and co-expression of the fungal-cytochrome b 5 domain and Spirulina-∆6-acyl-lipid desaturase

Author

Supapon Cheevadhanarak, Morakot Tanticharoen, Matura Sirijuntarut, Apiradee Hongsthong, Sanjukta Subudhi, and Pavinee Kurdrid

Subjects

Cytochrome, Recombinant Fusion Proteins, Amino Acid Motifs, Blotting, Western, Molecular Sequence Data, Saccharomyces cerevisiae, Gene Expression, medicine.disease_cause, Linoleoyl-CoA Desaturase, Applied Microbiology and Biotechnology, Gas Chromatography-Mass Spectrometry, Fungal Proteins, Bacterial Proteins, Escherichia coli, Spirulina, medicine, Amino Acid Sequence, gamma-Linolenic Acid, Ferredoxin, chemistry.chemical_classification, biology, Cytochrome b, General Medicine, biology.organism_classification, Yeast, Artificial Gene Fusion, Complementation, Cytochromes b5, Enzyme, Amino Acid Substitution, Biochemistry, chemistry, Mucor, Mutation, Mutagenesis, Site-Directed, biology.protein, Ferredoxins, lipids (amino acids, peptides, and proteins), Biotechnology

Abstract

Spirulina-acyl-lipid desaturases are integral membrane proteins found in thylakoid and plasma membranes. These enzymes catalyze the fatty acid desaturation process of Spirulina to yield gamma-linolenic acid (GLA) as the final desaturation product. It has been reported that the cyanobacterial desaturases use ferredoxin as an electron donor, whereas the acyl-lipid desaturase in plant cytoplasm and the acyl-CoA desaturase of animals and fungi use cytochrome b (5). The low level of ferredoxin present in Escherichia coli cells leads to an inability to synthesize GLA when the cells are transformed with the Spirulina-(6) desaturase, desD, and grown in the presence of the reaction substrate, linoleic acid. In this study, Spirulina-(6) desaturase, encoded by the desD gene, was N-terminally fused and co-expressed with the cytochrome b (5) domain from Mucor rouxii. The product, GLA, made heterologously in E. coli and Saccharomyces cerevisiae, was then detected and analyzed. The results revealed the production of GLA by Spirulina-(6) desaturase fused or co-expressed with cytochrome b (5) in E. coli cells, in which GLA production by this gene cannot occur in the absence of cytochrome b (5). Moreover, the GLA production ability in the E. coli host cells was lost after the single substitution mutation was introduced to H52 in the HPGG motif of the cytochrome b (5) domain. These results revealed the complementation of the ferredoxin requirement by the fusion or co-expression of the fungal-cytochrome b (5) domain in the desaturation process of Spirulina-(6) desaturase. Furthermore, the free form of cytochrome b (5) domain can also enhance GLA production by the Spirulina-desD gene in yeast cells.

Published

2006

11. [Untitled]

Author

Morakot Tanticharoen, Paitip Thiravetyan, and Wilawan Sintuprapa

Subjects

Ion exchange, biology, Chemistry, Polyphosphate, Cell, Bioengineering, General Medicine, biology.organism_classification, Applied Microbiology and Biotechnology, chemistry.chemical_compound, medicine.anatomical_structure, Adsorption, Biochemistry, Transmission electron microscopy, Penicillium, medicine, Mycelium, Intracellular, Biotechnology

Abstract

Metabolically-active mycelia of Penicillium sp. PT1 took up Zn2+ in a biphasic mode, involving an initial energy-dependent binding of Zn2+ to the cell surface, followed by a slower intracellular accumulation. The independent binding probably involved a simple ion exchange, as indicated by the pH decrease during the initial adsorption from 4.55 to 3.28. Intracellular accumulation probably involved polyphosphate precipitation as suggested by transmission electron microscopy

Published

2000

12. Role of light and photosynthesis on the acclimation process of the cyanobacteriumSpirulina platensis to salinity stress

Author

Morakot Tanticharoen, Boosya Bunnag, Nattaya Kancharaksa, and Avigad Vonshak

Subjects

Cyanobacteria, Photoinhibition, Photosystem II, Plant physiology, Plant Science, Aquatic Science, Biology, Photosynthesis, biology.organism_classification, Acclimatization, Photosynthetic capacity, Salinity, Botany, Biophysics

Abstract

The response ofSpirulina platensis cells to salinity stress was studied. Once adapted to the higher osmoticum, photosynthetic parameters such as the maximum rate of photosynthesis under saturating irradiance (Pmax) and the initial slope of the P-I curve (α) are reduced by 15% and 25% in 0.5 M NaCl grown cells, respectively. Salt-adapted cells have a modified biochemical composition; reduced protein and chlorophyll content, and an increased level of carbohydrates. The reduction in the photosynthetic capacity of the salt-adaptedSpirulina cells reflects a lower ability to utilize light energy and results in an increase in the susceptibility of the stressed cells to photoinhibition. This conclusion is supported by the finding that cultures exposed to salt stress show not only a decrease in growth rate (μ), but lose the ability to respond to increased irradiance with an increase in growth. The use of variable fluorescence as a fast and reliable measurement to follow the changes in PSII of salt-stressesSpirulina cells enables following the early events of salinity shock. It indicates that as soon as the cells are exposed to salt, a protection mechanism is induced. This mechanism does not require any protein synthesis and may take place even in the dark, though at somewhat reduced effectiveness. The significance of the result in providing a better understanding of the interaction between two environmental stresses — light and salinity — and their application in the outdoor mass cultivation ofSpirulina are discussed.

Published

1996

13. Light acclimation and photoinhibition in threeSpirulina platensis (cyanobacteria) isolates

Author

Avigad Vonshak, Morakot Tanticharoen, Boosya Bunnag, and Lakkana Chanawongse

Subjects

Cyanobacteria, Spirulina (genus), Photoinhibition, biology, Chloramphenicol, Plant Science, Luminous intensity, Aquatic Science, Photosynthesis, biology.organism_classification, Acclimatization, Light intensity, Horticulture, Botany, medicine, medicine.drug

Abstract

Three isolates ofSpirulina platensis (Norst) Geitler marked BP, P4P and Z19/2 were compared with respect to their response and acclimation capability to high photon flux densities (HPFD). Cultures exposed to HPFD (1500–3500 μmol photon m−2 s−1) exhibited a marked decrease in light-dependent O2 evolution rate. P4P was more sensitive to HPFD than the two other isolates. All three isolates recovered from photoinhibition when placed under low PFD. The BP isolate was able to recover also in the dark but to a lower extent and at a lower rate, while no recovery was observed in the other two isolates under dark conditions. No recovery was observed when protein synthesis was inhibited using chloramphenicol. Cultures grown at 200 μmol photon m−2 s−1 differed from cultures grown at 120 μmol photon m 2 s-1 by their lower maximal photosynthetic rate (P max ) and higher light saturation (I k ) value, while being more resistant to HPFD stress. The ability ofSpirulina isolates to acclimate and withstand HPFD may provide useful information for the selection of strains useful for outdoor mass cultivation.

Published

1996

14. Inferring transcriptional gene regulation network of starch metabolism in Arabidopsis thaliana leaves using graphical Gaussian model

Author

Supatcharee Netrphan, Papapit Ingkasuwan, Jeerayut Chaijaruwanich, Supapon Cheevadhanarak, Sukon Prasitwattanaseree, Asawin Meechai, Morakot Tanticharoen, Hideki Takahashi, and Sakarindr Bhumiratana

Subjects

Transcription, Genetic, Arabidopsis thaliana, Starch, Constans-like, Arabidopsis, Normal Distribution, Gene regulatory network, Graphical Gaussian model, Genes, Plant, chemistry.chemical_compound, Transcriptional regulation, Gene Expression Regulation, Plant, Structural Biology, Starch synthase 4, Modelling and Simulation, Cluster Analysis, Gene Regulatory Networks, Promoter Regions, Genetic, lcsh:QH301-705.5, Molecular Biology, Gene, Plant Proteins, Genetics, Regulation of gene expression, Analysis of Variance, Binding Sites, Models, Statistical, biology, Applied Mathematics, Reproducibility of Results, food and beverages, biology.organism_classification, Circadian Rhythm, Computer Science Applications, Cell biology, Plant Leaves, lcsh:Biology (General), chemistry, Modeling and Simulation, Indeterminate domain 5, biology.protein, Starch synthase, Transcription Factors, Research Article

Abstract

Background Starch serves as a temporal storage of carbohydrates in plant leaves during day/night cycles. To study transcriptional regulatory modules of this dynamic metabolic process, we conducted gene regulation network analysis based on small-sample inference of graphical Gaussian model (GGM). Results Time-series significant analysis was applied for Arabidopsis leaf transcriptome data to obtain a set of genes that are highly regulated under a diurnal cycle. A total of 1,480 diurnally regulated genes included 21 starch metabolic enzymes, 6 clock-associated genes, and 106 transcription factors (TF). A starch-clock-TF gene regulation network comprising 117 nodes and 266 edges was constructed by GGM from these 133 significant genes that are potentially related to the diurnal control of starch metabolism. From this network, we found that β-amylase 3 (b-amy3: At4g17090), which participates in starch degradation in chloroplast, is the most frequently connected gene (a hub gene). The robustness of gene-to-gene regulatory network was further analyzed by TF binding site prediction and by evaluating global co-expression of TFs and target starch metabolic enzymes. As a result, two TFs, indeterminate domain 5 (AtIDD5: At2g02070) and constans-like (COL: At2g21320), were identified as positive regulators of starch synthase 4 (SS4: At4g18240). The inference model of AtIDD5-dependent positive regulation of SS4 gene expression was experimentally supported by decreased SS4 mRNA accumulation in Atidd5 mutant plants during the light period of both short and long day conditions. COL was also shown to positively control SS4 mRNA accumulation. Furthermore, the knockout of AtIDD5 and COL led to deformation of chloroplast and its contained starch granules. This deformity also affected the number of starch granules per chloroplast, which increased significantly in both knockout mutant lines. Conclusions In this study, we utilized a systematic approach of microarray analysis to discover the transcriptional regulatory network of starch metabolism in Arabidopsis leaves. With this inference method, the starch regulatory network of Arabidopsis was found to be strongly associated with clock genes and TFs, of which AtIDD5 and COL were evidenced to control SS4 gene expression and starch granule formation in chloroplasts.

Published

2012

15. Optimization of γ-linolenic acid (GLA) production inSpirulina platensis

Author

Morakot Tanticharoen, M. Reungjitchachawali, P. Vonktaveesuk, B. Boonag, Avigad Vonshak, and Zvi Cohen

Subjects

chemistry.chemical_classification, Cyanobacteria, chemistry, Biochemistry, biology, Linolenic acid, Plant physiology, Plant Science, Food science, Aquatic Science, biology.organism_classification, Bacteria, Polyunsaturated fatty acid

Abstract

The cyanobacteriumSpirulina platensis is one of the most promising sources of the polyunsaturated fatty acid γ-linolenic acid (GLA). The GLA content ofSpirulina can be enhanced by cultivation under light-dark cycles in the laboratory or outdoors. Thus, in strain BP, the GLA content increased from 1.2 to 1.6% when cultivated under light-dark cycles. Moreover, in the derived mutant Z19, the GLA content reached 2.4% when cultivated outdoors. To the best of our knowledge, this is the highest GLA content ever reported for any alga.

Published

1994

16. Production and partial purification of γ-linolenic acid and some pigments fromSpirulina platensis

Author

Morakot Tanticharoen, W. Siangdung, Zvi Cohen, and M. Reungjitchachawali

Subjects

chemistry.chemical_classification, Linolenic acid, nutritional and metabolic diseases, Fatty acid, Galactolipids, Plant Science, Aquatic Science, Biology, biology.organism_classification, Pigment, chemistry.chemical_compound, Biochemistry, chemistry, Biosynthesis, visual_art, visual_art.visual_art_medium, Urea, lipids (amino acids, peptides, and proteins), cardiovascular diseases, Food science, hormones, hormone substitutes, and hormone antagonists, Bacteria, Polyunsaturated fatty acid

Abstract

The polyunsaturated fatty acid γ-linolenic acid (GLA, 18:3ω6) is of potential pharmaceutical value. The cyanobacteriumSpirulina platensis could become an excellent source for this fatty acid, provided that GLA content could be increased and a GLA concentrate could be obtained at a low cost. Increasing the cell concentration inSpirulina platensis enhanced the fatty acid content and thus the GLA content. This effect was used to further enhance the GLA content of GLA-overproducing strains. Separation of the galactolipids and their purification via urea complexes formation, resulted in a GLA concentrate of over 90% purity.

Published

1993

17. Realizing potential: the state of Asian bioentrepreneurship

Author

C. Mark Tang, Robert I.T. Chiu, Morakot Tanticharoen, Mohd Azwar Mahmud, Swee Yeok Chu, Luyang Zhang, Fatt Kah Foo, and Tse Wen Chang

Subjects

Entrepreneurship, Asia, Research, media_common.quotation_subject, Commerce, General Medicine, State (polity), Political science, Industry, Investments, Economic system, Biotechnology, media_common

Abstract

An overview of biotechnology entrepreneurship activities in the Asia-Pacific region, where the industry is colorful and diverse, and the development potential is enormous.

Published

2003