about
Structure-Function Analyses of a Caffeic Acid O -Methyltransferase from Perennial Ryegrass Reveal the Molecular Basis for Substrate PreferenceAn Engineered Monolignol 4-O-Methyltransferase Depresses Lignin Biosynthesis and Confers Novel Metabolic Capability in ArabidopsisModification of Monolignol Biosynthetic Pathway in Jute: Different Gene, Different ConsequenceSorghumFDB: sorghum functional genomics database with multidimensional network analysisImpact of CAD-deficiency in flax on biogas productionEffect of extruder screw speed, temperature, and enzyme levels on sugar recovery from different biomassesBioethanol from lignocellulosic biomass: current findings determine research prioritiesIntegrated -omics: a powerful approach to understanding the heterogeneous lignification of fibre cropsAdvances in the genetic dissection of plant cell walls: tools and resources available in MiscanthusAdvances in biotechnology and genomics of switchgrassFunctional characterization of cinnamyl alcohol dehydrogenase and caffeic acid O-methyltransferase in Brachypodium distachyonLignin content in natural Populus variants affects sugar releaseInvestigation of tension wood formation and 2,6-dichlorbenzonitrile application in short rotation coppice willow composition and enzymatic saccharificationRepPop: a database for repetitive elements in Populus trichocarpaReduced lignin content and altered lignin composition in the warm season forage grass Paspalum dilatatum by down-regulation of a Cinnamoyl CoA reductase gene.Modifying plants for biofuel and biomaterial production.Network-based integration of systems genetics data reveals pathways associated with lignocellulosic biomass accumulation and processingUnraveling the regulation of floral fragrance biosynthesis.Roles of lignin biosynthesis and regulatory genes in plant development.Differentiation of regioisomeric aromatic ketocarboxylic acids by positive mode atmospheric pressure chemical ionization collision-activated dissociation tandem mass spectrometry in a linear quadrupole ion trap mass spectrometer.Transcriptome profiling of Elymus sibiricus, an important forage grass in Qinghai-Tibet plateau, reveals novel insights into candidate genes that potentially connected to seed shattering.Transcriptional regulation of lignin biosynthesis.Consolidated bioprocessing of transgenic switchgrass by an engineered and evolved Clostridium thermocellum strain.Differential detection of genetic Loci underlying stem and root lignin content in Populus.Host responses and metabolic profiles of wood components in Dutch elm hybrids with a contrasting tolerance to Dutch elm disease.Downregulation of cinnamyl-alcohol dehydrogenase in switchgrass by RNA silencing results in enhanced glucose release after cellulase treatment.Zea mays iRS1563: a comprehensive genome-scale metabolic reconstruction of maize metabolism.Leymus EST linkage maps identify 4NsL-5NsL reciprocal translocation, wheat-Leymus chromosome introgressions, and functionally important gene loci.Lignin biosynthesis and structure.Distinct cinnamoyl CoA reductases involved in parallel routes to lignin in Medicago truncatula.Increased lodging resistance in long-culm, low-lignin gh2 rice for improved feed and bioenergy productionNatural product biosynthesis in Medicago species.Range of cell-wall alterations enhance saccharification in Brachypodium distachyon mutantsThe acetyl bromide method is faster, simpler and presents best recovery of lignin in different herbaceous tissues than Klason and thioglycolic acid methodsATP-binding cassette-like transporters are involved in the transport of lignin precursors across plasma and vacuolar membranesLignin monomer composition affects Arabidopsis cell-wall degradability after liquid hot water pretreatment.A diploid wheat TILLING resource for wheat functional genomics.Genetic manipulation of lignin reduces recalcitrance and improves ethanol production from switchgrass.Overcoming biomass recalcitrance by combining genetically modified switchgrass and cellulose solvent-based lignocellulose pretreatment.Manipulating cinnamyl alcohol dehydrogenase (CAD) expression in flax affects fibre composition and properties.
P2860
Q27666367-F04C8F59-2C41-4151-8D97-945FB174E90CQ27671031-FE6D6568-A727-4491-8842-BF95C29DE28AQ28584481-71BFC07C-C6CE-47D9-84B5-EBBCBC3F94ABQ28597272-1A24D18B-DAB6-4707-BF94-C1C03672195BQ28607646-4A8DF43C-812A-4D4C-91C6-35B4591F98F8Q28649461-E0A6522B-A465-47B8-97E9-6A824535A39AQ28652210-C33B96BA-0341-41FB-A9F1-353BF689F342Q28678658-5DB894C6-DBB6-40AC-A60D-0DBC35569A89Q28680682-5CEF9A47-9CBB-4DDC-8BE6-5E8869A26224Q28686958-6F27EF93-A27E-40F5-AE90-F946331FF684Q28687066-ABEE1363-60CE-4968-930B-2BC5EA6AED33Q28741049-8B3F0239-53F4-4879-A134-E6C1005A1C70Q28743611-BBAC1606-39CC-4EDE-A546-BEA17EB4E7D4Q28755375-5FE3085E-8154-46F0-A827-D0112A577B47Q30751166-DCFE4D2E-EC11-4FCE-952D-B979BC165732Q30872322-32A16FAD-D493-41AE-A2AE-9706468C1ECEQ31155115-6BBBBBE1-0332-4195-B8B6-D37FD4779B70Q33351555-255CFA54-F3B1-4DF4-A7A6-041CA1BE4257Q33361340-6D46422C-71DC-467C-8BD9-0E7DCC949A80Q33450060-143C237B-5B15-4568-AB05-8E7F52A148F4Q33589050-B4B2E4CD-A5D5-491E-A8AD-3B73BC793C64Q33642918-7D5FD870-7D0E-4ADE-BB97-F6B8A6FEE508Q33681559-56390139-FAFD-4032-80F5-E6E2195620C2Q33769185-145EC563-EC72-47FC-A194-31C849DCF188Q33807210-5A3B27A3-1F99-477A-9935-AD8829DF0A8EQ33813150-1ECBE8E2-6FA0-4F6F-A26A-B331996A7467Q33960308-D44E3F81-F254-4E44-BE89-131CE10C3D6BQ34019243-E8A7B995-E40A-4A70-9AAB-1E82E90DD30FQ34115623-10F16938-0D88-4EC9-9E11-CEFCCBB2574EQ34140452-BD17D897-4A7E-40B1-8E6D-3EA924B7F688Q34309748-FF323DB5-DFB1-41CC-AD30-FF6975DF29B1Q34401171-7A6351A3-18C0-4146-8F2C-D81DED4F7050Q34407392-39720F50-A43E-4766-AC4E-FD9671200BC9Q34419212-86FCC293-6A6B-4767-8D2A-818E01BCB592Q34450022-6C9CE208-F859-4571-93DC-DF3EB10EAA2EQ34468105-7D92A21E-9854-4637-8280-0DF63970CA90Q34470181-4C68E79D-B8C6-40DA-ABA1-EF5EF18AB8A8Q34621503-698CB46F-7386-4CBE-BE87-396B38A70CBCQ35004766-5B2944F4-FAE8-49CC-9DF1-C20CF81D83F2Q35098215-8A800A18-40A5-4470-9DAE-E487D79D7B14
P2860
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
2008年學術文章
@zh-hant
name
Improvement of biomass through lignin modification.
@en
Improvement of biomass through lignin modification.
@nl
type
label
Improvement of biomass through lignin modification.
@en
Improvement of biomass through lignin modification.
@nl
prefLabel
Improvement of biomass through lignin modification.
@en
Improvement of biomass through lignin modification.
@nl
P2860
P1433
P1476
Improvement of biomass through lignin modification
@en
P2093
P2860
P304
P356
10.1111/J.1365-313X.2008.03457.X
P577
2008-05-01T00:00:00Z