Lignin biosynthesis in transgenic Norway spruce plants harboring an antisense construct for cinnamoyl CoA reductase (CCR)

Wadenbaeck, J.; von Arnold, S.; Egertsdotter, U.; Walter, M.H.; Grima-Pettenati, J.; Goffner, D.; Gellerstedt, G.; Gullion, T.; Clapham, D.; Transgenic Res. 17, 379-392 (2008)

 show all sequences of 1.2.1.44

Data extracted from this reference:

Application
Application Commentary Organism
industry down-regulated CCR lines with a reduced kappa number of small-scale Kraft pulps may be a starting point for constructing double mutants with enhanced properties of significance for practical forestry Picea abies
Cloned(Commentary)
Commentary Organism
five-year-old transgenic plants of Norway spruce Picea abies expressing the Norway spruce gene encoding CCR in antisense orientation under the control of the maize ubiquitin promoter Picea abies
Inhibitors
Inhibitors Commentary Organism Structure
additional information the transcript abundance of CCR can be reduced by 35% in transgenic Norway spruce plants expressing antisense CCR. Down-regulation of CCR results in up to 8% lower lignin content and the apparent contribution of H-lignin to the total lignin decreases. The kappa number of small-scale Kraft pulps is reduced in one CCR down-regulated line Picea abies
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Localization
Localization Commentary Organism GeneOntology No. Textmining
additional information cambial sap Picea abies
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Organism
Organism Primary Accession No. (UniProt) Commentary Textmining
Picea abies Q1EL79
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Application (protein specific)
Application Commentary Organism
industry down-regulated CCR lines with a reduced kappa number of small-scale Kraft pulps may be a starting point for constructing double mutants with enhanced properties of significance for practical forestry Picea abies
Cloned(Commentary) (protein specific)
Commentary Organism
five-year-old transgenic plants of Norway spruce Picea abies expressing the Norway spruce gene encoding CCR in antisense orientation under the control of the maize ubiquitin promoter Picea abies
Inhibitors (protein specific)
Inhibitors Commentary Organism Structure
additional information the transcript abundance of CCR can be reduced by 35% in transgenic Norway spruce plants expressing antisense CCR. Down-regulation of CCR results in up to 8% lower lignin content and the apparent contribution of H-lignin to the total lignin decreases. The kappa number of small-scale Kraft pulps is reduced in one CCR down-regulated line Picea abies
-
Localization (protein specific)
Localization Commentary Organism GeneOntology No. Textmining
additional information cambial sap Picea abies
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-

See also following references to EC number 1.2.1.44 (sorted by year of publication):
No.1st authorPub
Med		titleorganimsjournalvolumepagesyearActivating CompoundApplicationCloned(Commentary)Crystallization (Commentary)EngineeringGeneral StabilityInhibitorsKM Value [mM]LocalizationMetals/IonsMolecular Weight [Da]Natural Substrates/ Products (Substrates)Organic Solvent StabilityOrganismOxidation StabilityPosttranslational ModificationPurification (Commentary)ReactionRenatured (Commentary)Source TissueSpecific Activity [micromol/min/mg]Storage StabilitySubstrates and Products (Substrate)SubunitsTemperature Optimum [°C]Temperature Range [°C]Temperature Stability [°C]Turnover Number [1/s]pH OptimumpH RangepH StabilityCofactorKi Value [mM]pI ValueIC50 ValueActivating Compound (protein specific)Application (protein specific)Cloned(Commentary) (protein specific)Cofactor (protein specific)Crystallization (Commentary) (protein specific)Engineering (protein specific)General Stability (protein specific)IC50 Value (protein specific)Inhibitors (protein specific)Ki Value [mM] (protein specific)KM Value [mM] (protein specific)Localization (protein specific)Metals/Ions (protein specific)Molecular Weight [Da] (protein specific)Natural Substrates/ Products (Substrates) (protein specific)Organic Solvent Stability (protein specific)Oxidation Stability (protein specific)Posttranslational Modification (protein specific)Purification (Commentary) (protein specific)Renatured (Commentary) (protein specific)Source Tissue (protein specific)Specific Activity [micromol/min/mg] (protein specific)Storage Stability (protein specific)Substrates and Products (Substrate) (protein specific)Subunits (protein specific)Temperature Optimum [°C] (protein specific)Temperature Range [°C] (protein specific)Temperature Stability [°C] (protein specific)Turnover Number [1/s] (protein specific)pH Optimum (protein specific)pH Range (protein specific)pH Stability (protein specific)pI Value (protein specific)ExpressionGeneral InformationGeneral Information (protein specific)Expression (protein specific)KCat/KM [mM/s]KCat/KM [mM/s] (protein specific)
712994HuIsolation and characterization ...Isatis tinctoriaMol. Biol. Rep.382075-20832010--1-------11-2-----3--1--------1-----11---------11-----3--1---------------
700489Escamilla-TrevinoSwitchgrass (Panicum virgatum) ...Panicum virgatumNew Phytol.185143-1552009--1---28--210-5--1--5--10-1--81----2---2-----4-8--212---2-10--12-2--82--2------
694669RalphIdentification of the structur ...Arabidopsis thaliana, Nicotiana tabacum, Populus trichocarpaPlant J.53368-3792008-3--3--------7-----1----------------3---3--------------1------------------
694775Mir DerikvandRedirection of the phenylpropa ...Arabidopsis thalianaPlanta227943-9562008----1--------4-----2--------------------1--------------2------------------
695222WadenbaeckLignin biosynthesis in transge ...Picea abiesTransgenic Res.17379-3922008-11---1-1----4----------------------11-----1--1---------------------------
693407MaCharacterization of a cinnamoy ...Triticum aestivumJ. Exp. Bot.582011-20212007111---14-----3--1--5--41-----------111-----1-4-------1-5--41--------------
694626LepleDownregulation of cinnamoyl-co ...Populus trichocarpaPlant Cell193669-36912007-11---1-1----2-----1----------------11-----1--1--------1------------------
675132van der RestDown-regulation of cinnamoyl-C ...Solanum lycopersicumJ. Exp. Bot.571399-14112006--1-------11-4--1--3--6----51--1-----22---------22---2-6--12----52---------
676522LaskarThe Arabidopsis cinnamoyl CoA ...Arabidopsis thalianaPlant J.48674-6862006-----------1-4--------1--------2------2----------1--------1---------------
676843KawasakiCinnamoyl-CoA reductase, a key ...Oryza sativaProc. Natl. Acad. Sci. USA103230-23520062-1-----1--1-3--------2-1---1--1---2-11-------1--1--------2-1---1---------
672472MaBiochemical characterization o ...Triticum aestivumBiol. Chem.386553-5602005--1----5--21-3--1--3--6--------1-----11------5--21---1-3--6---------------
673861ThummaPolymorphisms in cinnamoyl CoA ...Eucalyptus sp.Genetics1711257-12652005--------1--1-7--------1--------2------2-------1--1--------1---------------
676451LiClarification of cinnamoyl co- ...Populus tremuloidesPlant Cell Physiol.461073-10822005--1---44---1-1--1--15-6----411-16----11----464---1---1-15-6----411--------
676643BaltasKinetic and inhibition studies ...Arabidopsis thalianaPlant Physiol. Biochem.43746-7532005--1---53--11-3--1-----4-1--31--110----11----5103--11---1----4-1--31---------
656624LarsenMolecular cloning and characte ...Hordeum vulgare, Solanum tuberosumJ. Plant Physiol.161105-1122004-------------5-----6-----------------------------------6------------------
657109Larsen-Cloning and characterization o ...Lolium perennePlant Sci.166569-5812004--1----------1-----1---1-------------1-----------------1---1--------------
656926Ruelland-Cellular and subcellular local ...Saccharum officinarum, Zea maysPhysiol. Plant.11793-992003--------2----2-----4--------------------------2--------4------------------
288238PinconSimultaneous down-regulation o ...Nicotiana tabacumPlant Physiol.126145-1552001------1------3-----------------------------1------------------------------
288239LauvergeatTwo cinnamoyl-CoA reductase (C ...Arabidopsis thalianaPhytochemistry571187-11952001--1----6--2--7--1--3--4----6---------1-------6--2----1-3--4----6----------
288237RalphNMR characterization of altere ...Nicotiana tabacumProc. Natl. Acad. Sci. USA9512803-128081998------1------3--------1--------------------1--------------1---------------
288240PichonCloning and characterization o ...Zea maysPlant Mol. Biol.38671-6761998--1----------3-----1--1--------------1-----------------1--1---------------
288235Goffner-Purification and characterizat ...Eucalyptus gunniiColloq. Inst. Natl. Rech. Agron.69329-3301995----------1--1--1--1--4-----1-------------------1----1-1--4-----1---------
288236Goffner-Cinnamoyl-CoA reductase and ci ...Eucalyptus gunniiColloq. Inst. Natl. Rech. Agron.69331-3321995--1----------1-----1--1--------------1-----------------1--1---------------
288231Grima-Pettenati-Stimulation of lignification i ...Vigna mungoPlant Sci.61179-1881989-----------1-1-----2--2--------1------1----------1-----2--2---------------
288232Rolfs-Cell-suspension culture of Ara ...Arachis hypogaeaPlanta172238-2441987-------------1-----1--1--------1------1----------------1--1---------------
288228SarniPurification and properties of ...Populus x canadensisEur. J. Biochem.139259-26519843----236--1--2--1--211411---11-1---3--1--2-3-6--1----1-211411---11--------
288233LuderitzEnzymic synthesis of lignin pr ...Glycine max, Picea abiesEur. J. Biochem.119115-1241981-----4-21-2--5--2--32182----1--2------2--4---21-2----2-32182----1---------
288230WengenmayerEnzymic synthesis of lignin pr ...Glycine maxEur. J. Biochem.65529-5361976-----249--1--3--1--211611---1111------1--2-4-9--1----1-211611---111-------
288234GrossReduction of coenzyme A thioes ...Forsythia suspensaFEBS Lett.54259-2621975-------2-111-1--1--1--8-----1--1------1------2-111---1-1--8-----1---------
389601Rhodes-Enzymes involved in the reduct ...Brassica napus var. napobrassicaPhytochemistry141235-12401975-------------1--1--1--1-1------1------1--------------1-1--1-1-------------