Pyrolysis oil and other combustible compositions from microbial biomass
10-02-2015 дата публикации
Номер:
US8951308B2
Принадлежит: ELLIS GRAHAM, FLORENCE ROBERT, GALVEZ ADRIANO, PAINTER TYLER, SOUSA SONIA, SOLAZYME INC, SOLAZYME, INC.
Контакты:
Номер заявки: 42-13-20122931
Дата заявки: 16-03-2012
Oleaginous microbial biomass is subjected to pyrolysis to make microbial pyrolysis oil for use as a fuel or is otherwise formed into combustible products for the generation of heat and/or light.
CPC - классификация
CC1C10C10BC10B4C10B47C10B47/C10B47/1C10B47/14C10B5C10B53C10B53/C10B53/0C10B53/00C10GC10G2C10G23C10G230C10G2300C10G2300/C10G2300/1C10G2300/10C10G2300/101C10G2300/1011C10G2300/1014C10G2300/4C10G2300/40C10G2300/400C10G2300/4006C10JC10J2C10J23C10J230C10J2300C10J2300/C10J2300/0C10J2300/09C10J2300/090C10J2300/0906C10J2300/0909C10J2300/091C10J2300/0916C10J2300/1C10J2300/16C10J2300/160C10J2300/1603C10J3C10J3/C10J3/7C10J3/72C10LC10L1C10L1/C10L1/0C10L1/08C10L2C10L22C10L220C10L2200C10L2200/C10L2200/0C10L2200/04C10L2200/046C10L2200/0469C10L223C10L2230C10L2230/C10L2230/1C10L2230/12C10L227C10L2270C10L2270/C10L2270/0C10L2270/02C10L2270/026C10L229C10L2290C10L2290/C10L2290/0C10L2290/02C10L5C10L5/C10L5/0C10L5/04C10L5/3C10L5/36C10L5/363C10L5/365C10L5/4C10L5/44C10L9C10L9/C10L9/0C10L9/08C10L9/083C10L9/1C10L9/10YY0Y02Y02EY02E5Y02E50Y02E50/Y02E50/1Y02E50/10Y02E50/15Y02E50/3Y02E50/30Y02PY02P2Y02P20Y02P20/Y02P20/1Y02P20/14Y02P20/145Y02P3Y02P30Y02P30/Y02P30/2Y02P30/20IPC - классификация
CC1C10C10BC10B4C10B47C10B47/C10B47/1C10B47/14C10B5C10B53C10B53/C10B53/0C10B53/00C10GC10G1C10G1/C10G1/0C10G1/00C10LC10L5C10L5/C10L5/0C10L5/04C10L5/3C10L5/36C10L5/4C10L5/44C10L9C10L9/C10L9/0C10L9/08Цитирование НПИ
Appel et al. (2004) "A multicopy vector system for genetic studies in Mucor circinelloides and other zygomycetes." Molecular Genetics and Genomics 271(5):595-602.Banerjee et al. (2002) "Botryococcus braunii : A renewable source of hydrocarbons and other chemicals." Critical Reviews in Biotechnology 22(3): 245-279.
Chen et al. (2001) "Highly efficient expression of rabbit neutrophil peptide-1 gene in Chlorella ellipsoidea cells" Current Genetics39(5-6): 365-370.
Chow et al. (1999) "Electrotransformation of Chlorella vulgaris " Plant Cell Reports 18(9): 778-780.
Dawson et al. (1997) "Stable Transformation of Chlorella : Rescue of Nitrate Reductase-Deficient Mutants with the Nitrate Reductase Gene" Current Microbiology 35(6): 356-362.
EP Supplementary European Search Report dated Jul. 14, 2014 issued in EP12757370.7.
El-Sheekh (1999) "Stable Transformation of the Intact Cells of Chlorella Kessleri with High Velocity Microprojectiles" Biologia Plantarium 42(2): 209-216.
Geresh et al. (2002) "Characterization of the extracellular polysaccharide of Porphyridium sp.: molecular weight determination and rheological properties" Carb. Polym. 50; 183-189.
Hawkins et al. (1999) "Expression of Human Growth Hormone by the Eukaryotic Alga, Chlorella " Current Microbiology 38(6): 335-341.
Huang et al. (2006) "Expression of mercuric reductase from Bacillus megaterium MB1 in eukaryotic microalga Chlorella sp. DT: an approach for mercury phytoremediation" Appl Microbiol Biotechnol (2006) 72: 197-205.
Illman et al. (2000) "Increase in Chlorella strains calorific values when grown in low nitrogen medium." Enzyme and Microbial Technology 27(8):631-635.
Iturriaga et al. (1992) "Heterologous transformation of Mucor circinelloides with the Phycomyces blakesleeanus leul gene." Curr Genet. 21(3):215-23.
Kalscheuer et al. (1999) "Establishment of a gene transfer system for Rhodococcus opacus PD630 based on electroporation and its application for recombinant biosynthesis of poly(3-hydroxyalkanoic acids)" Applied Microbiology and Biotechnology, 52(4): 508-515.
Kang et al. (2000) "The regulation activity of Chlorella virus gene 5' upstream sequence in Escherichia coli and eucaryotic alage" Sheng Wu Gong Cheng Xue Bao. 16(4): 443-6 [English Abstract-One Page-Downloaded from URL http://www.ncbi.nlm.nih.gov/pubmed/11051815 on Oct. 3, 2013].
Kim et al. (2002) "Stable Integration and Functional Expression of Flounder Growth Hormone Gene in Transformed Microalga, Chlorella ellipsoidea" Marine Biotechnology 4: 63-73.
Liu et al. (2007) "Effect of iron on growth and lipid accumulation in Chlorella vulgaris." Bioresource Technology 99(11):4717-22 [6 pages, doi:10.1016/j.biortech.2007.09.073].
Metzger et al. (2005) "Botryococcus braunii: a rich source for hydrocarbons and related ether lipids." Appl Microbiol Biotechnol 66(5): 486-496.
Miao et al. (2004) "High yield bio-oil production from fast pyrolysis by metabolic controlling of Chlorella protothecoides" Jornal of Biotochnology 110: 85-93.
Miao et al. (2006) "Biodiesel production from heterotrophic microalgal oil." Biosource Technology 97:841-846.
PCT International Preliminary Report on Patentability dated Sep. 17, 2013 issued in PCT/US2012/029517.
PCT International Search Report and Written Opinion dated Oct. 30, 2012 issued in PCT/US2012/029517.
Park et al. (2005) "The 7th Molecular Plant-Microbe Interactions" Plant Pathol. J 21(1): 13-20.
Rodolfi et al. (2008) "Microalgae for Oil: Strain Selection, Induction of Lipid Synthesis and Outdoor Mass Cultivation in a Low-Cost Photobioreactor" Biotechnology & Bioengineering 102(1): 100-112 [Jun. 18 Epub ahead of print]).
Saha et al. (1995) "Transformation in Aspergillus ochraceus" Current Microbiology 30(2):83-86.
Sakuradani (2004) "Studies of Metabolic Engineering of Useful Lipid-producing Microorganisms" NISR Research Grant pp. 92-93.
Sheehan et al. (1998) "A Look Back at the U.S. Department of Energy's Aquatic Species Program-Biodiesel from Algae" National Renewable Energy Laboratory NREL/TP-580-24190 pp. 1-294 [326 pages].
Solovchenko et al. (2007) "Effects of light intensity and nitrogen starvation on growth, total fatty acids and arachidonic acid in the green microalga Parietochloris incisa " Journal of Applied Phycology 20:245-251; DOI 10.1007/s10811-007-9233-0 (7 pages).
Takagi et al. (2006) "Effect of Salt Concentration on Intracellular Accumulation of Lipids and Triacylglyceride in Marine Microalgae Dunaliella Cells" Journal of Bioscience and Bioengineering 101(3): 223-226.
Waltermann et al. (2000) "Rhodococcus opacus strain PD630 as a new source of high-value single-cell oil? Isolation and characterization of triacylglycerols and other storage lipids" Microbiology 146: 1143-1149.
Zhang et al. (2007) "Malic enzyme: the controlling activity for lipid production? Overexpression of malic enzyme in Mucor circinelloides leads to a 2.5-fold increase in lipid accumulation." Microbiology 153(Pt.7): 2013-25.