Electron acceptor specificity of ferredoxin (flavodoxin):NADP+ oxidoreductase from Escherichia coli

Wan, J.T.; Jarrett, J.T.; Arch. Biochem. Biophys. 406, 116-126 (2002)

 show all sequences of 1.18.1.2

Data extracted from this reference:

Inhibitors
Inhibitors Commentary Organism Structure
Ferredoxin inhibition of electron transfer at higher electron acceptor rate Escherichia coli
-
flavodoxinI/II inhibition of electron transfer at higher electron acceptor rate Escherichia coli
-
KM Value [mM]
KM Value [mM] KM Value Maximum [mM] Substrate Commentary Organism Structure
additional information
-
 additional information thermodynamics and kinetics, measurement of direct electron transfer by stopped-flow spectrophotometry Escherichia coli
-
0.004
-
 flavodoxin II pH 8.0, 25°C Escherichia coli
-
0.0076
-
 flavodoxin I pH 8.0, 25°C Escherichia coli
-
0.012
-
 Ferredoxin pH 8.0, 25°C Escherichia coli
-
Natural Substrates/ Products (Substrates)
Natural Substrates Organism Commentary (Nat. Sub.) Natural Products Commentary (Nat. Pro.) Organism (Nat. Pro.) Reversibility
oxidized ferredoxin + NADPH Escherichia coli
-
 reduced ferredoxin + NADP+
-
-
 r
oxidized flavodoxin I + NADPH Escherichia coli
-
 reduced flavodoxin I + NADP+
-
-
 r
Organism
Organism Primary Accession No. (UniProt) Commentary Textmining
Escherichia coli
-
-
-
Reaction
Reaction Commentary Organism
2 reduced ferredoxin + NADP+ + H+ = 2 oxidized ferredoxin + NADPH reaction mechanism Escherichia coli
Substrates and Products (Substrate)
Substrates Commentary Substrates Literature (Substrates) Organism Products Commentary (Products) Literature (Products) Organism (Products) Reversibility
More specificity for tightly bound electron acceptors, overview 657646 Escherichia coli ?
-
-
-
-
oxidized ferredoxin + NADPH
-
 657646 Escherichia coli reduced ferredoxin + NADP+
-
-
-
 r
oxidized ferredoxin + NADPH ferredoxin is the preferred electron acceptor 657646 Escherichia coli reduced ferredoxin + NADP+
-
-
-
 r
oxidized flavodoxin I + NADPH
-
 657646 Escherichia coli reduced flavodoxin I + NADP+
-
-
-
 r
oxidized flavodoxin II + NADPH
-
 657646 Escherichia coli reduced flavodoxin II + NADP+
-
-
-
 r
Temperature Optimum [°C]
Temperature Optimum [°C] Temperature Optimum Maximum [°C] Commentary Organism
25
-
 assay at Escherichia coli
Turnover Number [1/s]
Turnover Number Minimum [1/s] Turnover Number Maximum [1/s] Substrate Commentary Organism Structure
0.0039
-
 flavodoxin II pH 8.0, 25°C Escherichia coli
-
0.0042
-
 flavodoxin I pH 8.0, 25°C Escherichia coli
-
0.15
-
 Ferredoxin pH 8.0, 25°C Escherichia coli
-
pH Optimum
pH Optimum Minimum pH Optimum Maximum Commentary Organism
8
-
 assay at, steady-state kinetics Escherichia coli
Cofactor
Cofactor Commentary Organism Structure
FAD involved in electron transfer in the reaction Escherichia coli
NADP+
-
 Escherichia coli
NADPH
-
 Escherichia coli
Ki Value [mM]
Ki Value [mM] Ki Value maximum [mM] Inhibitor Commentary Organism Structure
0.05 0.1 Ferredoxin pH 8.0, 25°C Escherichia coli
-
0.05 0.1 flavodoxin I pH 8.0, 25°C Escherichia coli
-
0.05 0.1 flavodoxin II pH 8.0, 25°C Escherichia coli
-
Cofactor (protein specific)
Cofactor Commentary Organism Structure
FAD involved in electron transfer in the reaction Escherichia coli
NADP+
-
 Escherichia coli
NADPH
-
 Escherichia coli
Inhibitors (protein specific)
Inhibitors Commentary Organism Structure
Ferredoxin inhibition of electron transfer at higher electron acceptor rate Escherichia coli
-
flavodoxinI/II inhibition of electron transfer at higher electron acceptor rate Escherichia coli
-
Ki Value [mM] (protein specific)
Ki Value [mM] Ki Value maximum [mM] Inhibitor Commentary Organism Structure
0.05 0.1 Ferredoxin pH 8.0, 25°C Escherichia coli
-
0.05 0.1 flavodoxin I pH 8.0, 25°C Escherichia coli
-
0.05 0.1 flavodoxin II pH 8.0, 25°C Escherichia coli
-
KM Value [mM] (protein specific)
KM Value [mM] KM Value Maximum [mM] Substrate Commentary Organism Structure
additional information
-
 additional information thermodynamics and kinetics, measurement of direct electron transfer by stopped-flow spectrophotometry Escherichia coli
-
0.004
-
 flavodoxin II pH 8.0, 25°C Escherichia coli
-
0.0076
-
 flavodoxin I pH 8.0, 25°C Escherichia coli
-
0.012
-
 Ferredoxin pH 8.0, 25°C Escherichia coli
-
Natural Substrates/ Products (Substrates) (protein specific)
Natural Substrates Organism Commentary (Nat. Sub.) Natural Products Commentary (Nat. Pro.) Organism (Nat. Pro.) Reversibility
oxidized ferredoxin + NADPH Escherichia coli
-
 reduced ferredoxin + NADP+
-
-
 r
oxidized flavodoxin I + NADPH Escherichia coli
-
 reduced flavodoxin I + NADP+
-
-
 r
Substrates and Products (Substrate) (protein specific)
Substrates Commentary Substrates Literature (Substrates) Organism Products Commentary (Products) Literature (Products) Organism (Products) Reversibility
More specificity for tightly bound electron acceptors, overview 657646 Escherichia coli ?
-
-
-
-
oxidized ferredoxin + NADPH
-
 657646 Escherichia coli reduced ferredoxin + NADP+
-
-
-
 r
oxidized ferredoxin + NADPH ferredoxin is the preferred electron acceptor 657646 Escherichia coli reduced ferredoxin + NADP+
-
-
-
 r
oxidized flavodoxin I + NADPH
-
 657646 Escherichia coli reduced flavodoxin I + NADP+
-
-
-
 r
oxidized flavodoxin II + NADPH
-
 657646 Escherichia coli reduced flavodoxin II + NADP+
-
-
-
 r
Temperature Optimum [°C] (protein specific)
Temperature Optimum [°C] Temperature Optimum Maximum [°C] Commentary Organism
25
-
 assay at Escherichia coli
Turnover Number [1/s] (protein specific)
Turnover Number Minimum [1/s] Turnover Number Maximum [1/s] Substrate Commentary Organism Structure
0.0039
-
 flavodoxin II pH 8.0, 25°C Escherichia coli
-
0.0042
-
 flavodoxin I pH 8.0, 25°C Escherichia coli
-
0.15
-
 Ferredoxin pH 8.0, 25°C Escherichia coli
-
pH Optimum (protein specific)
pH Optimum Minimum pH Optimum Maximum Commentary Organism
8
-
 assay at, steady-state kinetics Escherichia coli

See also following references to EC number 1.18.1.2 (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)
716461GrzybFerredoxin:NADP+ oxidoreductas ...Spinacia oleracea, Triticum aestivumPhytochemistry7214-202011------4-2--2-4-----2--6-----2--22-----2----42-2--2-----2--6-----2----22---
713638KomoriCrystallization and preliminar ...Bacillus subtilisActa Crystallogr. Sect. F66301-3032010---1---------2-----------------1------11-----------------------------11---
714174Kimata-ArigaElectron transfer of site-spec ...Zea maysBiochemistry4910013-100232010--1-4--11--1-2--1--1--2-1---1--1-----11-4----11--1---1-1--2-1---1----22---
714307PeregrinaRole of specific residues in c ...Anabaena sp.Biochim. Biophys. Acta17971638-16462010----6--1---1-3--------2-1---1--1------1-6----1---1--------2-1---1----11---
714333MuloChloroplast-targeted ferredoxi ...Arabidopsis thaliana, Triticum aestivum, Zea maysBiochim. Biophys. Acta1807927-9342010--------5--6-5-----4--93-------3-6----5-------7--10-----7--155-------6-610---
715756MoolnaThe physiological importance o ...Triticum aestivumJ. Exp. Bot.612669-26812010--------1--1-7-1---1--11---------1------------2--2--2--2--22-------2-12---
715910DumitMechanistic insights into ferr ...Zea maysJ. Mol. Biol.397814-8252010---------1-1-3---1----1--------1------1--------1-1--------1----------22---
716442Liu-Increase of the expression and ...Synechocystis sp.Photosynthetica48417-42020101-----1-1--1-2-----1--1------------1-------1--1--1-----1--1---------1111--
716444SzymanskaFerredoxin:NADP+ oxidoreductas ...Spinacia oleraceaPhysiol. Plant.141289-2982010--------2----4--1--1---1-------1------1-------2------1-1---1---------11---
716762AlteFerredoxin:NADPH oxidoreductas ...Pisum sativumProc. Natl. Acad. Sci. USA10719260-192652010---1-1--3--1-3--------11----1----------1-1----3--1--------11----1----11---
716851LeiThe apicomplexan Cryptosporidi ...Cryptosporidium parvumProtein Sci.192073-20842010--1----41--1-6--1--2--211--311-1-----11------41--1---1-2--211--311---11-22
716852KomoriCrystal structure analysis of ...Bacillus subtilisProtein Sci.192279-22902010---17------1-1--------211---1--1------117--------1--------211---1---------
716976BenzA new concept for ferredoxin-N ...Arabidopsis thaliana, Nicotiana tabacum, Spinacia oleracea, Zea maysTrends Plant Sci.15608-61320102---1---8--8-6-----4--81-------4---2--4-1-----8--8-----4--81---------88---
696323PeregrinaProtein motifs involved in coe ...Anabaena sp.Biochemistry483109-31192009--1-6--11-----3--1-----2----11---------1--6----11-------1----2----11--------1111
696363CrobuPlasmodium falciparum ferredox ...Plasmodium falciparumBiochemistry489525-95332009--114-28-----3--1-----2----9----2----1-14--228-------1----2----9--------88
697907BalconiThe ferredoxin-NADP+ reductase ...Plasmodium falciparumFEBS J.2763825-38362009--1----41----5--1-----41---3---------1-------41------1----41---3--------44
697998IkedaFerredoxin-NADP reductase from ...Hydrogenobacter thermophilusFEMS Microbiol. Lett.297124-1302009--1----2--21-4--1---1-41-------1-----11------2--21---1--1-41--------------
698606YeomFerredoxin-NADP+ reductase fro ...Pseudomonas putidaJ. Bacteriol.1911472-147920096-1----24-----5--1---4-6----24---2---6-12------24-------1--4-6----24-----11-2323
698661YeomIn vitro and in vivo interacti ...Pseudomonas putidaJ. Biochem.145481-4912009--1----23--11-5--1-----91---8---------1-------23--11---1----91---8--------2323
698664SinghGuanidine hydrochloride- and u ...Toxoplasma gondiiJ. Biochem.145721-7312009--1---2---1--3--------1--------------1-----2----1---------1---------------
700751LintalaComparative analysis of leaf-t ...Arabidopsis thalianaPlant J.571103-11152009--------2----4-----1--------------------------4--------2-------------12---
684194MurakiCrystallization and preliminar ...Chlorobaculum tepidumActa Crystallogr. Sect. F64186-1892008--11------1--4--1-----11-------2-----121--------1----1----11--------------
685270WangX-ray crystallographic and sol ...Pseudomonas aeruginosaBiochemistry478080-80932008--11---------3--1-----2--------2-----121-------------1----2---------------
686826EwenThe endogenous adrenodoxin red ...Bos taurus, Homo sapiensFEMS Yeast Res.8432-4412008----------1--5--------2--------4------4---------1---------2---------------
689395GrzybTwo isoforms of ferredoxin:NAD ...Spinacia oleracea, Triticum aestivumPhotosynth. Res.9699-1122008--------6-7--6--1--22-4--------4-1----6-------8-7----2-34-6--------2------
696232GoniFlavodoxin-mediated electron t ...Anabaena sp.Biochemistry471207-12172008--1-9--102----4--1-----1----10---------1--9----102------1----1----10--------1010
700628MorsySubcellular localization of fe ...Arthrospira platensis, Cyanidium caldariumPhotosyn. Res.9573-8520082-----263-5--4--2---14-624---44-----2-------2-63-5----2--14-624---44--------
701121SinghToxoplasma gondii ferredoxin-N ...Toxoplasma gondiiProteins711879-18882008--1-------3--4--1-----11-------------1----------3----1----11--------------
701126MedinaDocking analysis of transient ...Anabaena sp.Proteins72848-8622008---1---------3-------------------------1----------------------------------
671623TejeroCatalytic mechanism of hydride ...Anabaena sp.Arch. Biochem. Biophys.45979-902007----2--1-----2---1----------------------2----1----------------------------
674373Kimata-ArigaCloning and characterization o ...Plasmodium falciparumJ. Biochem.141421-4282007--11----11---6--1-----2--------4-----141------11-----1----2---------------
674889LeeCores and pH-dependent dynamic ...Zea maysJ. Biol. Chem.2825959-59672007-------------3---------1-----------------------------------1--------------
675438MilaniFerredoxin-NADP(+) reductase f ...Plasmodium falciparumJ. Mol. Biol.367501-5132007--11--141-2--3--1-----62-------12----111---1241-2----1----62--------------
676631RodriguezTransgenic tobacco plants over ...Pisum sativumPlant Physiol.143639-6492007-11-----2----5----------------------11--------2---------------------------
685098WangBiochemical and structural cha ...Pseudomonas aeruginosaBiochemistry4612198-122112007--1----------6--1-----3--------2-----12--------------1----3---------------
685845NascimentoCrystal structures of Leptospi ...Leptospira interrogansBMC Struct. Biol.7692007--11---1-----7--1-----21---1---2-----121-----1-------1----21---1----------
688312LeeMolecular characterization of ...Pseudomonas putidaJ. Microbiol. Biotechnol.171504-151220071-1---1---3--5--1-----31-------1---1-11----1----3----1----31--------------
689391TaltsDark inactivation of ferredoxi ...Helianthus annuusPhotosynth. Res.94109-1202007------1------3-----1--1--------2------2----1-----------1--1---------------
689530LintalaStructural and functional char ...Arabidopsis thalianaPlant J.491041-10522007----1---3-1--6-----1--1--------1------2-2-----6-2------2--2---------------
671116NascimentoCrystallization and preliminar ...Leptospira interrogansActa Crystallogr. Sect. F62662-6642006---1---------5--1----------------------1-------------1--------------------
672095Catalano-DupuyReduction of the pea ferredoxi ...Pisum sativumBiochemistry4513899-139092006----1--3-----3--------1----4------------1----3------------1----4----------
672139PandiniRoles of the species-specific ...Toxoplasma gondiiBiochemistry453563-35712006----2--4--2--2--------12---4------------2----4--2---------12---4----------
676836ThomasA second isoform of the ferred ...Synechocystis sp.Proc. Natl. Acad. Sci. USA10318368-183732006-------------1---------1-----------------------------------1--------------
659483CassanFerredoxin-NADP+ reductase. Ki ...Synechocystis sp.J. Biol. Chem.28025960-259722005--1----132-1-4--------21---11--2-----12------132-1--------21---11---------
671585AnuseviciusFAD semiquinone stability regu ...Anabaena sp.Arch. Biochem. Biophys.437144-1502005----1--------5--------20--------1------1-1-----------------20---------------
671963MaedaIdentification of the N- and C ...Zea maysBiochemistry4410644-106532005------1------4-----1---1-------------------1-----------1---1--------------
671974NoguesThe ferredoxin-NADP(H) reducta ...Rhodobacter capsulatusBiochemistry4411730-117402005-------------4---1-------------3------3-----------------------------------
673487GirardiniSchistosoma mansoni: ferredoxi ...Schistosoma mansoniExp. Parasitol.110157-1612005-------------4-1------------------------------------1---------------------
673522ShuklaGuanidinium chloride- and urea ...Mycobacterium tuberculosisFEBS J.2722216-22242005-------------1----1-----------------------------------1-------------------
677007BhattModulation of cooperativity in ...Mycobacterium tuberculosisProtein Sci.14980-9922005-------------1----1-----------------------------------1-------------------
677038MayoralStructural analysis of interac ...Anabaena sp.Proteins59592-6022005---11--------6-------------------------11---------------------------------
657462Perez-DoradoCrystallization and preliminar ...Rhodobacter capsulatusActa Crystallogr. Sect. D602332-23352004---1-------1-2--------1----------------1---------1--------1---------------
657696SeoPurification and characterizat ...Bacillus subtilisArch. Microbiol.18280-892004-------3--11-5--1---1-411--31--3------3------3--11---1--1-411--31---------
658076NoguesRole of the C-terminal tyrosin ...Anabaena sp., Pisum sativumBiochemistry436127-61372004--1-6--12-----6--12----4-2--132--6-----16-6----12-------1----4-2--132---------
658208AlivertiDomain exchange between isofor ...Spinacia oleraceaBiochim. Biophys. Acta169693-1012004--1-1--8---1-2--11-21-4-2-171--3-----13-1----8---1---1-21-4-2-171---------
658209CeccarelliFunctional plasticity and cata ...Anabaena sp., Azotobacter vinelandii, Chlamydomonas reinhardtii, Cyanophora paradoxa, Escherichia coli, Leptospira interrogans, Rhodobacter capsulatus, Spinacia oleraceaBiochim. Biophys. Acta1698155-1652004-------83--24-9---8-1--338---9---25------25------83--24-----1--338---9----------
659639GrzybEffect of cadmium on ferredoxi ...Spinacia oleraceaJ. Inorg. Biochem.981338-13462004------342-11-2--1--1--41---4---------------3-42-11---1-1--41---4----------
660065MedinaInteraction of ferredoxin-NADP ...Anabaena sp., Azotobacter vinelandii, Escherichia coli, Spinacia oleraceaPhotosynth. Res.79113-1312004---118---2--4-7---4----114-------8------8118-----2--4--------114--------------
660066KarplusStructural aspects of plant fe ...Anabaena variabilis, Capsicum annuum, Pisum sativum, Spinacia oleracea, Zea maysPhotosynth. Res.81303-3152004---5----8--5-6---5-8--105-------15------155------8--5-----8--105--------------
673607Thomsen-ZieglerA single in vivo-selected poin ...Toxoplasma gondiiFEBS Lett.576375-3802004---14--1-----5-------------2-----------14----1-----------------2----------
657824McLeanKinetic, spectroscopic and the ...Mycobacterium tuberculosisBiochem. J.372317-3272003--1---15---1-7--1-----411--41--3-----13----1-5---1---1----411--41---------
657970Gomez-LojeroInteraction of ferredoxin:NADP ...Synechococcus sp.Biochemistry4213800-138112003--------3--2-4--1-----61----1--2------2-------3--2---1----61----1---------
658617CarrilloOpen questions in ferredoxin-N ...Anabaena sp., Azotobacter vinelandii, Capsicum annuum, Cyanobacteria, Escherichia coli, Pisum sativum, Rhodobacter capsulatus, Spinacia oleracea, Zea maysEur. J. Biochem.2701900-191520037---2-4371-11-11---9-4--399--211---36---7--36-2--4-371-11-----4--399--211----------
658714TeshimaA ferredoxin Arg-Glu pair impo ...Equisetum arvenseFEBS Lett.546189-1942003----1--5---1-4--------2-1--41--1------1-1----5---1--------2-1--41---------
658718BittelThe oxidant-responsive diaphor ...Rhodobacter capsulatusFEBS Lett.553408-4122003--1----21-12-6--1-----41---21--3-----13------21-12---1----41---21---------
659284TejeroInvolvement of the pyrophospha ...Anabaena sp.J. Biol. Chem.27849203-492142003--1113--22-----4--11-11-3----261--3-----13113----22-------1-11-3----261---------
660068Grzyb-Effects of amino and thiol gro ...Spinacia oleraceaPhotosynthetica41627-6302003------11-----1--------1--------1------1----1-1------------1---------------
660092BojkoPlastoquinones are effectively ...Spinacia oleraceaPhytochemistry641055-106020032-----5-1--1-3--------2--------2---2--2----5--1--1--------2---------------
660268Decottignies-Role of positively charged res ...Chlamydomonas reinhardtiiPlant Physiol. Biochem.41637-6422003--1-4--5--4--1-1-1--1-211--41--2-1---12-4----5--4---1---1-211--41--1------
657646WanElectron acceptor specificity ...Escherichia coliArch. Biochem. Biophys.406116-1262002------24---2-4---1----5-1--31--33-----3----234---2--------5-1--31---------
658608FischerMycobacterium tuberculosis Fpr ...Mycobacterium tuberculosisEur. J. Biochem.2693005-30132002--1----9--1--6--1---1-321--42--5-----15------9--1----1--1-321--42---------
658611FaroProbing the role of glutamic a ...Anabaena sp.Eur. J. Biochem.2694938-49472002--113-126---1-4---1----511--251--1-----1113--1-26---1--------511--251---------
658706JarrettThermal inactivation of reduce ...Escherichia coliFEBS Lett.529237-2422002-1---1-11--2-4--1-----5111231-11----1-1--1---11--2---1----5111231-1-------
659694HermosoMechanism of coenzyme recognit ...Anabaena sp.J. Mol. Biol.3191133-11422002---1---------3---1----1--------2------21------------------1---------------
660140NakajimaThe complete purification and ...Synechococcus elongatusPlant Cell Physiol.43484-4932002--1--1-------1-111--2121113-1--2-----12--1----------11--2121113-1---------
285541DorowskiCrystal structure of paprika f ...Capsicum annuumJ. Biol. Chem.2769253-92632001--11------2--6-----------------------1-1--------2-------------------------
285542AlivertiBiochemical and crystallograph ...Spinacia oleracea, Zea maysBiochemistry4014501-145082001---1---2-----6-----1--3----------------1-----2---------1--3---------------
285550ZieglerCrystal structures of adrenodo ...Bos taurusBiochemistry3910986-109952000---1---------4-----------------1------11----------------------------------
285551MayoralStructural basis of the cataly ...Anabaena sp.Proteins3860-692000---12--------3-------------------------12---------------------------------
285547Sagara Y.; WatanabecDNA cloning, overproduction a ...Rattus norvegicusBiochim. Biophys. Acta1434284-2951999--1----1--2--5-----1--1--------1-----11------1--2------1--1---------------
285543Martinez-JulvezRole of Arg100 and Arg 264 fro ...Anabaena sp.Biochemistry3717680-176911998---12--1-----4-------------------------12----1----------------------------
285552Sridhar PrasadThe crystal structure of NADPH ...Azotobacter vinelandiiProtein Sci.72541-25491998---1-------1-6--------1----------------1---------1--------1---------------
285545HurleyStructure-function relationshi ...Anabaena sp.Biochemistry3611100-111171997-------1--1--4-----2-------------------------1--1------2------------------
285548Martinez-JulvezOverexpression in E. coli of t ...Anabaena sp.Biochim. Biophys. Acta1297200-2061996-------1--1--3--------------1--1------1------1--1---------------1---------
285549WarburtonStructural and functional char ...Bos taurusBiochim. Biophys. Acta124639-461995-------21-1--4-------------------------------21-1-------------------------
285553Bruns C.M.; Karplus P.A.Refined crystal structure of s ...Spinacia oleraceaJ. Mol. Biol.247125-1451995---1---------2-------------------------1----------------------------------
285554AlivertiInvolvement of serine 96 in th ...Spinacia oleraceaBiochemistry348371-83791995----2--------2--------------------------2---------------------------------
285544BowsherThe purification and propertie ...Pisum sativumProtein Expr. Purif.4512-5181993-------31-2--1-----11-------1--1------1------31-2------11-------1---------
285546SerraOne step purification of plant ...Pisum sativumProtein Expr. Purif.4539-5461993--1----1--1--5------1-2--------1-----11------1--1-------1-2---------------
285555Kuban R.J.; MargCrystallization of bovine adre ...Bos taurusJ. Mol. Biol.234245-2481993---1----2----2-----1-------------------1------2--------1------------------
285475YamazakiCrystallization and comparativ ...Ovis ariesComp. Biochem. Physiol. B9693-1001990--------1-22-6-----11-3--------1------1-------1-22-----11-3---------------
285479AlivertiExpression in Escherichia coli ...Spinacia oleraceaEur. J. Biochem.191551-5551990--1----2--2--3------2----------------1-------2--2-------2-----------------
285501MorigasakiPurification and characterizat ...Raphanus sativusPlant Physiol.93896-9011990------12--1--1-----1--1-----1--3------3----1-2--1------1--1-----1---------
285502HirasawaCharacterization of a ferredox ...Phaseolus vulgarisArch. Biochem. Biophys.276251-2581990-------1--3--4-----12-1--------1------1------1--3------12-1---------------
285530WalkerComparison of the kinetics of ...Anabaena sp.Arch. Biochem. Biophys.28176-831990-------------5-----------------1------1-----------------------------------
285532GaddaStructure-function relationshi ...Spinacia oleraceaJ. Biol. Chem.26511955-119591990----------2--3--------1-------------------------2---------1---------------
285535Berzborn-The 'additional' CF0II of the ...Spinacia oleraceaZ. Naturforsch. C45772-7841990-------------1------------------------------------------------------------
285539ShinProteolytic degradation of fer ...Spinacia oleraceaArch. Biochem. Biophys.27997-1031990--------1-1--2-----1--------------------------1-1------1------------------
285534PueyoPreparation and properties of ...Anabaena variabilisEur. J. Biochem.183539-5441989-------1--1--6-------------4---1------1------1--1--------------4----------
285481SchererFerredoxin-NADP+ oxidoreductas ...Anabaena variabilisArch. Biochem. Biophys.267228-2351988------111-2--5-----------------------------1-11-2-------------------------
285482Möller-Zinkhan-Membrane-bound NADPH dehydroge ...Desulfobacter postgateiArch. Microbiol.150145-1541988-------------1-------11----------------------------------11---------------
285503LevyInteraction of NADPH and triaz ...Spinacia oleraceaBiochim. Biophys. Acta955236-2421988------1------2-----1-----------------------1-----------1------------------
285504Zanetti-Structural studies on the inte ...Spinacia oleraceaBiochemistry273753-37591988-------------1---1--------------------------------------------------------
285506SanchoPurification and properties of ...Anabaena variabilisArch. Biochem. Biophys.260200-2071988-------1--1--6--------1----3---1------1------1--1---------1----3----------
285480HanukogluIsolation of a cDNA for adreno ...Bos taurusEur. J. Biochem.169449-4551987-------------4-----2--1--------------------------------2--1---------------
285505SpanoPurification, properties, and ...Euglena gracilisBiochim. Biophys. Acta894484-4981987-------11----5-----1--41-------1------1------11--------1--41--------------
285483ArmstrongInhibition of ferredoxin: NADP ...Spinacia oleraceaBiochem. Biophys. Res. Commun.141578-5831986------1------3--------1--------------------1--------------1---------------
285484SerranoLocalization and quantitative ...Anabaena sp.Plant Physiol.82499-5021986--------3----5--------1-----------------------3-----------1---------------
285485MatthijsRemoval of ferredoxin:NADP+ ox ...Spinacia oleraceaJ. Biol. Chem.26112154-121581986----------1--2----------------------------------1-------------------------
285507GnanaiahIsolation and characterization ...Sus scrofaJ. Biol. Chem.26112649-126541986-------12-21-3-----2113--------1------1------12-21-----2113---------------
285508SerranoCharacterization of cyanobacte ...Anabaena sp.Anal. Biochem.154441-4481986-------1--2--3------1--1---------------------1--2-------1--1--------------
285536BatieAssociation of ferredoxin-NADP ...Spinacia oleraceaJ. Biol. Chem.26111214-112231986------2------2-----------------------------2------------------------------
285486HoslerHeparin inhibition of ferredox ...Spinacia oleraceaArch. Biochem. Biophys.236473-4781985------1-1----3-----------------------------1--1---------------------------
285509ApleyRapid procedure for the prepar ...Spinacia oleraceaAnal. Biochem.150145-1541985--------2-1--2-----11-------------------------2-1------11-------