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Chlorella protothecoides

Engel, N. et ah. Chlorophyll catabolism in Chlorella protothecoides Isolation and structure elucidation of a red bilin derivative, FEES Lett., 293, 131, 1991. [Pg.48]

Hortensteiner, P. et ah. Chlorophyll breakdown in Chlorella protothecoides characterization of degreening and cloning of degreening-related genes. Plant Mol. Biol., 42, 439, 2000. [Pg.48]

Two moss samples (Polytrichum commune, Thuidium tamariscinum), one alga sample (Cladophora fracta), and one microalga sample (Chlorella protothecoides) were subjected to pyrolysis and steam gasification for producing hydrogen-rich gas (Demirbas, unpublished work). [Pg.208]

Fig. 6.22 Plots for yields of gaseous produets from the samples by pyrolysis. Polytrichum commune (PC), Thuidium tamarascinum (TT), Cladophora fracta (CF), and Chlorella protothecoides (CP)... Fig. 6.22 Plots for yields of gaseous produets from the samples by pyrolysis. Polytrichum commune (PC), Thuidium tamarascinum (TT), Cladophora fracta (CF), and Chlorella protothecoides (CP)...
Figure 6.22 shows the effect of temperature on yields of gaseous products from the samples by pyrolysis. As can be seen in Fig. 6.22, the yields of gaseous products from the samples of Polytrichum commune, Thuidium tamarascinum, Cladophora fracta and Chlorella protothecoides increased from 5.3 to 40.6%, 6.5 to 42.2%, 8.2... [Pg.210]

Miao, X., Wu, Q. 2004. High yield bio-oil production from fast pyrolysis by metabolic controlling oi Chlorella protothecoides. JBiotechnol 110 85-93. [Pg.218]

Chlorophyll Catabolites from the Green Alga Chlorella protothecoides... 30... [Pg.2]

Scheme 4. In Chenopodium album pheophorbide a (5a) is degraded to pyropheophorbide a (6) via 132-carboxy-pyropheophorbide a (7). The red tetrapyrroles 8a and 8b were isolated from the culture medium of the green alga Chlorella protothecoides (the monoacid 8a is likely to be a nonenzymatic decarboxylation product of the diacid 9) (58, 59)... Scheme 4. In Chenopodium album pheophorbide a (5a) is degraded to pyropheophorbide a (6) via 132-carboxy-pyropheophorbide a (7). The red tetrapyrroles 8a and 8b were isolated from the culture medium of the green alga Chlorella protothecoides (the monoacid 8a is likely to be a nonenzymatic decarboxylation product of the diacid 9) (58, 59)...
Engel N, Jenny TA, Mooser V, Gossauer A (1991) Chlorophyll Catabolism in Chlorella protothecoides - Isolation and Structure Elucidation of a Red Bilin Derivative. FEBS Lett 293 131... [Pg.40]

Engel N, Curty C, Gossauer A (1996) Chlorophyll Catabolism in Chlorella protothecoides. 8. Facts and Artefacts. Plant Physiol Biochem 34 77... [Pg.40]

Iturraspe J, Gossauer A (1992) A Biomimetic Partial Synthesis of the Red Chlorophyll a Catabolite from Chlorella protothecoides. Tetrahedron 48 6807... [Pg.41]

Oshio Y, Hase E (1969) (1) Studies on Red Pigments Excreted by Cells of Chlorella protothecoides During Process of Bleaching Induced by Glucose or Acetate. I. Chemical Properties of Red Pigments. Plant Cell Physiol 10 41... [Pg.42]

Iturraspe J, Engel N, Gossauer A (1994) Chlorophyll Catabolism. 5. Isolation and Structure Elucidation of Chlorophyll b Catabolites in Chlorella protothecoides. Phytochem 35 1387... [Pg.43]

Chlamydomonas reinhardtii 606,607,609, 610,614-618,621-628 Chondromyces crocatus 457,465 chloramphenicol 513 Chlorella ellipsoidea 615 Chlorella protothecoides 628 Chlordla vulgaris 630 Chlorella zoofingensis 617 chloroplast genetic engineering... [Pg.716]

Isol. from the microalga Chlorella protothecoides. Product of chlorophyll catabolism. [Pg.134]

Plant tissues are capable of, at least, partial catabolism of sulfolipid. In some interesting experiments with Chlorella protothecoides, Shibuya and Hase (1965) examined the labeling of sulfolipid and sulfoquinovosylglycerol with under conditions which produced green or etiolated cells. Al-... [Pg.307]

Helianthus tuberosus L.) tuber by heterotrophic microalgae Chlorella protothecoides. J Chem Technol Biotechnol 2009 84 777. [Pg.85]

Gao C, ZhaiY, DingY,Wu Q. Appbcation of sweet sorghum for biodiesel production by heterotrophic microalga Chlorella protothecoides. Appl Energy 2010 87 756. [Pg.85]

Wei A, Zhang X,Wei D, Chen G, Wu Q,Yang ST. Effects of cassava starch hydrolysate on cell growth and lipid accumulation of the heterotrophic microalgae Chlorella protothecoides.J Ind Microbiol Biotechnol 2009 36 1383. [Pg.85]

Li, L., W. Du, D. Liu, L. Wang, and Z. Li. 2006. Lipase-Catalyzed Transesterification of Rapeseed Oils for Biodiesel Production with a Novel Organic Solvent as the Reaction Medium. Journal of Molecular Catalysis B Enzymatic 43 (l-4) 58-62 Li, X., H. Xu, and Q. Wu. 2007. Large-Scale Biodiesel Production from Microalga Chlorella Protothecoides through Heterotrophic Cultivation in Bioreactors. Biotechnology and Bioengineering 98 (4) 764-771. [Pg.146]

See other pages where Chlorella protothecoides is mentioned: [Pg.57]    [Pg.39]    [Pg.40]    [Pg.440]    [Pg.209]    [Pg.212]    [Pg.213]    [Pg.213]    [Pg.10]    [Pg.15]    [Pg.30]    [Pg.766]    [Pg.114]    [Pg.62]    [Pg.74]    [Pg.119]    [Pg.119]   
See also in sourсe #XX -- [ Pg.30 , Pg.766 ]

See also in sourсe #XX -- [ Pg.766 ]

See also in sourсe #XX -- [ Pg.257 , Pg.259 ]

See also in sourсe #XX -- [ Pg.65 , Pg.74 , Pg.75 ]

See also in sourсe #XX -- [ Pg.65 , Pg.74 , Pg.75 ]



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