A Stochastic Method to Generate Libraries of Structural Representations of Lignin
暂无分享,去创建一个
Linda J. Broadbelt | L. Broadbelt | Abraham J. Yanez | Wenjun Li | Ross Mabon | Wenjun Li | R. Mabon | A. J. Yanez
[1] L. Davin,et al. Dirigent proteins and dirigent sites explain the mystery of specificity of radical precursor coupling in lignan and lignin biosynthesis. , 2000, Plant physiology.
[2] K. Freudenberg. Lignin: Its Constitution and Formation from p-Hydroxycinnamyl Alcohols , 1965, Science.
[3] C. Heitner,et al. Lignin and lignans : advances in chemistry , 2010 .
[4] C. Wilkerson,et al. Monolignol Ferulate Transferase Introduces Chemically Labile Linkages into the Lignin Backbone , 2014, Science.
[5] D. M. Alonso,et al. Catalytic conversion of biomass to biofuels , 2010 .
[6] N. Metropolis,et al. Equation of State Calculations by Fast Computing Machines , 1953, Resonance.
[7] I. Granlund,et al. The cell biology of lignification in higher plants. , 2015, Annals of botany.
[8] A. Björkman. Isolation of Lignin from Finely Divided Wood with Neutral Solvents , 1954, Nature.
[9] Qiao Zhao. Lignification: Flexibility, Biosynthesis and Regulation. , 2016, Trends in plant science.
[10] Zhen Hou,et al. Attribute-Based Modeling of Resid Structure and Reaction , 2009 .
[11] Gerald A. Tuskan,et al. Lignin Valorization: Improving Lignin Processing in the Biorefinery , 2014, Science.
[12] R. Sibout,et al. Lignification: different mechanisms for a versatile polymer. , 2015, Current opinion in plant biology.
[13] W. Boerjan,et al. Designer lignins: harnessing the plasticity of lignification. , 2016, Current opinion in biotechnology.
[14] T. Foust,et al. A Mechanistic Investigation of Acid-Catalyzed Cleavage of Aryl-Ether Linkages: Implications for Lignin Depolymerization in Acidic Environments , 2014 .
[15] D. Wemmer,et al. Characterization of Miscanthus giganteus lignin isolated by ethanol organosolv process under reflux condition. , 2012, Journal of agricultural and food chemistry.
[16] Johnson F. Yan,et al. Lignin. 22. Macromolecular characteristics of alkali lignin from western hemlock wood , 1986 .
[17] J. Liao,et al. Ensemble modeling of metabolic networks. , 2008, Biophysical journal.
[18] R. Sparling,et al. Biomass pretreatment: fundamentals toward application. , 2011, Biotechnology advances.
[19] R. Parthasarathi,et al. Theoretical Study of the Remarkably Diverse Linkages in Lignin , 2011 .
[20] E. Adler. Structural Elements of Lignin , 1957 .
[21] Ronald D. Hatfield,et al. Can Lignin Be Accurately Measured , 2005 .
[22] L. Davin,et al. Lignin primary structures and dirigent sites. , 2005, Current opinion in biotechnology.
[23] Paul J. Flory,et al. Molecular Size Distribution in Three Dimensional Polymers. I. Gelation1 , 1941 .
[24] Chang‐Jun Liu. Deciphering the enigma of lignification: precursor transport, oxidation, and the topochemistry of lignin assembly. , 2012, Molecular plant.
[25] J. Lange. Lignocellulose conversion: an introduction to chemistry, process and economics , 2007 .
[26] Michael W Deem,et al. Parallel tempering: theory, applications, and new perspectives. , 2005, Physical chemistry chemical physics : PCCP.
[27] M. Kwon,et al. Dirigent proteins and dirigent sites in lignifying tissues. , 2001, Phytochemistry.
[28] J. Ralph,et al. Structural characterization of wheat straw lignin as revealed by analytical pyrolysis, 2D-NMR, and reductive cleavage methods. , 2012, Journal of agricultural and food chemistry.
[29] W. Glasser,et al. Simulation of reactions with lignin by computer (SIMREL). 6. Interpretation of primary experimental analysis data ( , 1981 .
[30] S. Hawkins,et al. Plant cell wall lignification and monolignol metabolism , 2013, Front. Plant Sci..
[31] D. Goring. The physical chemistry of lignin , 1962 .
[32] Jing-Ke Weng,et al. The origin and evolution of lignin biosynthesis. , 2010, The New phytologist.
[33] B. M. Dolgonosov,et al. WATER QUALITY AND PROTECTION: ENVIRONMENTAL ASPECTS Modeling the Biodegradation of Multicomponent Organic Matter in an Aquatic Environment: 2. Analysis of the Structural Organization of Lignin , 2010 .
[34] A. Corma,et al. Synthesis of transportation fuels from biomass: chemistry, catalysts, and engineering. , 2006, Chemical reviews.
[35] C. Roy,et al. Production of monomeric phenols by thermochemical conversion of biomass: a review. , 2001, Bioresource technology.
[36] Chang-Soo Kim,et al. Lignin Depolymerization and Conversion: A Review of Thermochemical Methods , 2011 .
[37] J. Ralph,et al. Chapter 6 – Lignin , 2010 .
[38] F. Teymour,et al. Analysis of the Dynamics of Gelation in Polymerization Reactors Using the , 1994 .
[39] P. Gallezot,et al. Conversion of biomass to selected chemical products. , 2012, Chemical Society reviews.
[40] John Ralph,et al. Lignin Biosynthesis and Structure1 , 2010, Plant Physiology.
[41] Johnson F. Yan,et al. Lignin. 23. Macromolecular characteristics of alkali lignin and organosolv lignin from black cottonwood , 1986 .
[42] Jørgen Holst Christensen,et al. Lignins: Natural polymers from oxidative coupling of 4-hydroxyphenyl- propanoids , 2004, Phytochemistry Reviews.
[43] A. Sakakibara. A structural model of softwood lignin , 1980, Wood Science and Technology.