Efficiency of lignin biosynthesis: a quantitative analysis.
about
Integrated -omics: a powerful approach to understanding the heterogeneous lignification of fibre cropsBiomass for thermochemical conversion: targets and challengesFTIR-ATR-based prediction and modelling of lignin and energy contents reveals independent intra-specific variation of these traits in bioenergy poplarsPutting mechanisms into crop production models.Integrated statistical analysis of cDNA microarray and NIR spectroscopic data applied to a hemp dataset.Cloning and molecular characterization of the basic peroxidase isoenzyme from Zinnia elegans, an enzyme involved in lignin biosynthesis.Sweetpotato late embryogenesis abundant 14 (IbLEA14) gene influences lignification and increases osmotic- and salt stress-tolerance of transgenic calli.Proteomic analysis of peach endocarp and mesocarp during early fruit development.Fibres from flax overproducing β-1,3-glucanase show increased accumulation of pectin and phenolics and thus higher antioxidant capacitySystems biology of lignin biosynthesis in Populus trichocarpa: heteromeric 4-coumaric acid:coenzyme A ligase protein complex formation, regulation, and numerical modeling.Implications of ethylene biosynthesis and signaling in soybean drought stress tolerance.Lignin biosynthesis in wheat (Triticum aestivum L.): its response to waterlogging and association with hormonal levels.N-fertilization has different effects on the growth, carbon and nitrogen physiology, and wood properties of slow- and fast-growing Populus species.Involvement of Pinus taeda MYB1 and MYB8 in phenylpropanoid metabolism and secondary cell wall biogenesis: a comparative in planta analysisChalcone Synthase (CHS) Gene Suppression in Flax Leads to Changes in Wall Synthesis and Sensing Genes, Cell Wall Chemistry and Stem Morphology Parameters.Expression of S-adenosylmethionine Hydrolase in Tissues Synthesizing Secondary Cell Walls Alters Specific Methylated Cell Wall Fractions and Improves Biomass Digestibility.Lignin and biomass: a negative correlation for wood formation and lignin content in trees.Opposite action of R2R3-MYBs from different subgroups on key genes of the shikimate and monolignol pathways in spruceNitrogen addition affects chemical compositions of plant tissues, litter and soil organic matter.Impacts of individual tree species on carbon dynamics in a moist tropical forest environment.Co-expression network analysis reveals transcription factors associated to cell wall biosynthesis in sugarcane.Characterization of a lignified secondary phloem fibre-deficient mutant of jute (Corchorus capsularis).Cellulose and lignin biosynthesis is altered by ozone in wood of hybrid poplar (Populus tremula × alba)Bioinformatic and functional characterization of the basic peroxidase 72 from Arabidopsis thaliana involved in lignin biosynthesis.Cell and tissue dynamics of olive endocarp sclerification vary according to water availability.Light, the circadian clock, and sugar perception in the control of lignin biosynthesis.Structural motifs of syringyl peroxidases predate not only the gymnosperm-angiosperm divergence but also the radiation of tracheophytes.Complete proteomic-based enzyme reaction and inhibition kinetics reveal how monolignol biosynthetic enzyme families affect metabolic flux and lignin in Populus trichocarpa.Effects of lignin-modified Populus tremuloides on soil organic carbonA Myb transcription factor regulates genes of the phenylalanine pathway in maritime pine
P2860
Q28678658-5291F288-7019-4CD9-A1B5-E0F68C5BCE14Q28680769-0465E0CE-974E-4EDA-851F-A861B41FEC1DQ28744599-CCB3F634-E04A-4032-AF9B-3DF639B64908Q30618938-E22DC656-F66B-432B-BE51-8EF0AF88FF6EQ30998138-B4F3F287-6E35-4E1F-9978-057FC5609D5FQ33226256-BCE0EFB7-86C4-4A84-8F25-7FF6565D2E66Q33764282-6A17EB27-80BF-4C3C-A131-848DA67616D6Q33874206-8E9D48EA-81A3-433C-BF86-1CA3386407B2Q34581216-6D6C99F6-822E-471A-80EB-9E383EF17363Q35118242-7174E568-34D8-4960-BB12-20105231C636Q35763540-04808C5A-53B7-470A-954F-ACA18A20C2DCQ35904563-1B6D7FBD-9190-48E8-B5BA-6B5A72ABA259Q36347478-E214CEB8-32E7-4EC5-A478-DF81BAB33A98Q36958029-74743ACD-6D7F-435F-82DE-55F498BE8680Q37035556-5786E406-568F-4A3F-87A3-9F1DCBFA908EQ37104561-44550E67-4BF8-4B94-B715-5E28D674CEF3Q37797806-A5CFBE95-B5F8-4159-99EE-42D9386B6AD5Q38310400-B0CDAFDC-CD8C-49B9-A8C6-9D9D4E5908C4Q38794055-45C3EE90-831C-4DEF-907B-8BF149AA9A2AQ39206954-9DDB2DC5-C78C-4E9F-9AB7-CC4D166C6AECQ40365550-5FCAA2AB-F85C-4448-81F8-3268B73541C0Q41879371-8C57440E-30B7-4E5E-82D3-3B64E42D9AD3Q42787844-68A1AFD4-728C-4B4C-BBC8-221EDCF1ABAAQ44898314-1D800F4C-28C3-4E85-8995-B6520FAA445FQ46159668-191E1AAB-B372-432C-A939-1A40BFE339C9Q46477318-381C6A44-70C7-4E96-8586-FB50640C8FB7Q48082568-0F5B78B5-F710-41B4-805D-890DBFFAFA34Q51102639-5C2E4F25-E40B-475B-A243-70EFD5197BA2Q57434725-58BC60FE-6012-4A54-9F94-00D4A797DF2BQ57995438-2634031A-8CB7-47E0-BB32-AC6AE158E54C
P2860
Efficiency of lignin biosynthesis: a quantitative analysis.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
2003年论文
@zh
2003年论文
@zh-cn
name
Efficiency of lignin biosynthesis: a quantitative analysis.
@en
type
label
Efficiency of lignin biosynthesis: a quantitative analysis.
@en
prefLabel
Efficiency of lignin biosynthesis: a quantitative analysis.
@en
P2860
P356
P1433
P1476
Efficiency of lignin biosynthesis: a quantitative analysis.
@en
P2093
Jeffrey S Amthor
P2860
P304
P356
10.1093/AOB/MCG073
P407
P577
2003-05-01T00:00:00Z