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51.
52.
Colin Ruprecht Takayuki Tohge Alisdair Fernie Cara L. Mortimer Amanda Kozlo Paul D. Fraser Norma Funke Igor Cesarino Ruben Vanholme Wout Boerjan Kris Morreel Ingo Burgert Notburga Gierlinger Vincent Bulone Vera Schneider Andrea Stockero Juan Pedro Navarro Frank Pudel Bart Tambuyser James Hygate Jon Bumstead Louis Notley Staffan Persson 《Journal of visualized experiments : JoVE》2014,(87)
53.
Stacking transgenes in forest trees 总被引:4,自引:0,他引:4
Huge potential exists for improving plant raw materials and foodstuffs via metabolic engineering. To date, progress has mostly been limited to modulating the expression of single genes of well-studied pathways, such as the lignin biosynthetic pathway, in model species. However, a recent report illustrates a new level of sophistication in metabolic engineering by overexpressing one lignin enzyme while simultaneously suppressing the expression of another lignin gene in a tree, aspen. This novel approach to multi-gene manipulation has succeeded in concurrently improving several wood-quality traits. 相似文献
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Ralph J Kim H Lu F Grabber JH Leplé JC Berrio-Sierra J Derikvand MM Jouanin L Boerjan W Lapierre C 《The Plant journal : for cell and molecular biology》2008,53(2):368-379
A molecular marker compound, derived from lignin by the thioacidolysis degradative method, for structures produced when ferulic acid is incorporated into lignin in angiosperms (poplar, Arabidopsis, tobacco), has been structurally identified as 1,2,2-trithioethyl ethylguaiacol [1-(4-hydroxy-3-methoxyphenyl)-1,2,2-tris(ethylthio)ethane]. Its truncated side chain and distinctive oxidation state suggest that it derives from ferulic acid that has undergone bis-8-O-4 (cross) coupling during lignification, as validated by model studies. A diagnostic contour for such structures is found in two-dimensional (13)C-(1)H correlated (HSQC) NMR spectra of lignins isolated from cinnamoyl CoA reductase (CCR)-deficient poplar. As low levels of the marker are also released from normal (i.e. non-transgenic) plants in which ferulic acid may be present during lignification, notably in grasses, the marker is only an indicator for CCR deficiency in general, but is a reliable marker in woody angiosperms such as poplar. Its derivation, together with evidence for 4-O-etherified ferulic acid, strongly implies that ferulic acid is incorporated into angiosperm lignins. Its endwise radical coupling reactions suggest that ferulic acid should be considered an authentic lignin precursor. Moreover, ferulic acid incorporation provides a new mechanism for producing branch points in the polymer. The findings sharply contradict those reported in a recent study on CCR-deficient Arabidopsis. 相似文献
56.
The syringaldazine-oxidizing peroxidase PXP 3-4 from poplar xylem: cDNA isolation,characterization and expression 总被引:5,自引:0,他引:5
Holst Christensen Jørgen Overney Serge Rohde Antje Ardiles Diaz Wilson Bauw Guy Simon Patrice Van Montagu Marc Boerjan Wout 《Plant molecular biology》2001,47(5):581-593
The cell wall polymer lignin is believed to be condensed by specific cell wall-localized oxidoreductases. In many plants species, including poplar, the peroxidase-directed oxidation of the lignin analogue syringaldazine (SYR) has been localized to cells that undergo secondary wall formation, a process that includes lignification. As a first step to analyse the corresponding peroxidases, we have isolated previously two anionic isoenzymes (PXP 3-4 and PXP 5) from poplar xylem (Populus
trichocarpa), which use SYR as a substrate. Here, we demonstrate that these enzymes are responsible for the visualized SYR oxidation in the developing xylem. The cDNA that corresponds to PXP 3-4 was isolated and the deduced protein was found closely related to the other SYR-oxidizing peroxidase PXP 5 (ca. 98% of identity). PXP 3-4 was expressed in a baculovirus expression system yielding high levels of active peroxidase (3 mg/l medium). The heterologously produced protein showed characteristics similar to those of the corresponding protein from poplar xylem (enzymatic properties, isoelectric point, and migration in a native gel). PXP 3-4 was expressed in the stem and in the root xylem. The data demonstrate that PXP 3-4 (and/or PXP 5) are present in differentiating xylem, supporting a function in secondary cell wall formation. 相似文献
57.
J Ralph C Lapierre J M Marita H Kim F Lu R D Hatfield S Ralph C Chapple R Franke M R Hemm J Van Doorsselaere R R Sederoff D M O'Malley J T Scott J J MacKay N Yahiaoui A Boudet M Pean G Pilate L Jouanin W Boerjan 《Phytochemistry》2001,57(6):993-1003
Studying lignin-biosynthetic-pathway mutants and transgenics provides insights into plant responses to perturbations of the lignification system, and enhances our understanding of normal lignification. When enzymes late in the pathway are downregulated, significant changes in the composition and structure of lignin may result. NMR spectroscopy provides powerful diagnostic tools for elucidating structures in the difficult lignin polymer, hinting at the chemical and biochemical changes that have occurred. COMT (caffeic acid O-methyl transferase) downregulation in poplar results in the incorporation of 5-hydroxyconiferyl alcohol into lignins via typical radical coupling reactions, but post-coupling quinone methide internal trapping reactions produce novel benzodioxane units in the lignin. CAD (cinnamyl alcohol dehydrogenase) downregulation results in the incorporation of the hydroxycinnamyl aldehyde monolignol precursors intimately into the polymer. Sinapyl aldehyde cross-couples 8-O-4 with both guaiacyl and syringyl units in the growing polymer, whereas coniferyl aldehyde cross-couples 8-O-4 only with syringyl units, reflecting simple chemical cross-coupling propensities. The incorporation of hydroxycinnamyl aldehyde and 5-hydroxyconiferyl alcohol monomers indicates that these monolignol intermediates are secreted to the cell wall for lignification. The recognition that novel units can incorporate into lignins portends significantly expanded opportunities for engineering the composition and consequent properties of lignin for improved utilization of valuable plant resources. 相似文献
58.
Alexandra Bottcher Igor Cesarino Adriana Brombini dos Santos Renato Vicentini Juliana Lischka Sampaio Mayer Ruben Vanholme Kris Morreel Geert Goeminne Jullyana Cristina Magalh?es Silva Moura Paula Macedo Nobile Sandra Maria Carmello-Guerreiro Ivan Antonio dos Anjos Silvana Creste Wout Boerjan Marcos Guimar?es de Andrade Landell Paulo Mazzafera 《Plant physiology》2013,163(4):1539-1557
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60.
Barbara De Meester Ruben Vanholme Lisanne de Vries Marlies Wouters Jan Van Doorsselaere Wout Boerjan 《The Plant journal : for cell and molecular biology》2021,108(3):752-765
Lignin is one of the main factors determining recalcitrance to processing of lignocellulosic biomass towards bio-based materials and fuels. Consequently, wood of plants engineered for low lignin content is typically more amenable to processing. However, lignin-modified plants often exhibit collapsed vessels and associated growth defects. Vessel-specific reintroduction of lignin biosynthesis in dwarfed low-lignin cinnamoyl-CoA reductase1 (ccr1) Arabidopsis mutants using the ProSNBE:AtCCR1 construct overcame the yield penalty while maintaining high saccharification yields, and showed that monolignols can be transported between the different xylem cells acting as ‘good neighbors’ in Arabidopsis. Here, we translated this research into the bio-energy crop poplar. By expressing ProSNBE:AtCCR1 into CRISPR/Cas9-generated ccr2 poplars, we aimed for vessel-specific lignin biosynthesis to: (i) achieve growth restoration while maintaining high saccharification yields; and (ii) study the existence of ‘good neighbors’ in poplar wood. Analyzing the resulting ccr2 ProSNBE:AtCCR1 poplars showed that vessels and rays act as good neighbors for lignification in poplar. If sufficient monolignols are produced by these cells, monolignols migrate over multiple cell layers, resulting in a restoration of the lignin amount to wild-type levels. If the supply of monolignols is limited, the monolignols are incorporated into the cell walls of the vessels and rays producing them and their adjoining cells resulting in fiber hypolignification. One such fiber-hypolignified line had 18% less lignin and, despite its small yield penalty, had an increase of up to 71% in sugar release on a plant base upon saccharification. 相似文献