Reliable identification of mycobacterial species by PCR-restriction enzyme analysis (PRA)-hsp65 in a reference laboratory and elaboration of a sequence-based extended algorithm of PRA-hsp65 patterns

Abstract Background Identification of nontuberculous mycobacteria (NTM) based on phenotypic tests is time-consuming, labor-intensive, expensive and often provides erroneous or inconclusive results. In the molecular method referred to as PRA-hsp65, a fragment of the hsp65 gene is amplified by PCR and then analyzed by restriction digest; this rapid approach offers the promise of accurate, cost-effective species identification. The aim of this study was to determine whether species identification of NTM using PRA-hsp65 is sufficiently reliable to serve as the routine methodology in a reference laboratory. Results A total of 434 NTM isolates were obtained from 5019 cultures submitted to the Institute Adolpho Lutz, Sao Paulo Brazil, between January 2000 and January 2001. Species identification was performed for all isolates using conventional phenotypic methods and PRA-hsp65. For isolates for which these methods gave discordant results, definitive species identification was obtained by sequencing a 441 bp fragment of hsp65. Phenotypic evaluation and PRA-hsp65 were concordant for 321 (74%) isolates. These assignments were presumed to be correct. For the remaining 113 discordant isolates, definitive identification was based on sequencing a 441 bp fragment of hsp65. PRA-hsp65 identified 30 isolates with hsp65 alleles representing 13 previously unreported PRA-hsp65 patterns. Overall, species identification by PRA-hsp65 was significantly more accurate than by phenotype methods (392 (90.3%) vs. 338 (77.9%), respectively; p < .0001, Fisher's test). Among the 333 isolates representing the most common pathogenic species, PRA-hsp65 provided an incorrect result for only 1.2%. Conclusion PRA-hsp65 is a rapid and highly reliable method and deserves consideration by any clinical microbiology laboratory charged with performing species identification of NTM.

Bioprocess and biotecnology: effect of xylanase from Aspergillus niger and Aspergillus flavus on pulp biobleaching and enzyme production using agroindustrial residues as substract

This study compares two xylanases produced by filamentous fungi such as A. niger and A. flavus using agroindustrial residues as substract and evaluated the effect of these enzymes on cellulose pulp biobleaching process. Wheat bran was the best carbon source for xylanase production by A. niger and A. flavus. The production of xylanase was 18 and 21% higher on wheat bran when we compare the xylanase production with xylan. At 50°C, the xylanase of A. niger retained over 85% activity with 2 h of incubation, and A. flavus had a half-life of more than 75 minutes. At 55°C, the xylanase produced by A. niger showed more stable than from A. flavus showing a half-life of more than 45 minutes. The xylanase activity of A. niger and A. flavus were somehow protected in the presence of glycerol 5% when compared to the control (without additives). On the biobleaching assay it was observed that the xylanase from A. flavus was more effective in comparison to A. niger. The kappa efficiency corresponded to 36.32 and 25.93, respectively. That is important to emphasize that the cellulase activity was either analyzed and significant levels were not detected, which explain why the viscosity was not significantly modified.

Platelet-derived exosomes induce endothelial cell apoptosis through peroxynitrite generation: experimental evidence for a novel mechanism of septic vascular dysfunction

Abstract Introduction Several studies link hematological dysfunction to severity of sepsis. Previously we showed that platelet-derived microparticles from septic patients induce vascular cell apoptosis through the NADPH oxidase-dependent release of superoxide. We sought to further characterize the microparticle-dependent vascular injury pathway. Methods During septic shock there is increased generation of thrombin, TNF-α and nitric oxide (NO). Human platelets were exposed for 1 hour to the NO donor diethylamine-NONOate (0.5 μM), lipopolysaccharide (LPS; 100 ng/ml), TNF-α (40 ng/ml), or thrombin (5 IU/ml). Microparticles were recovered through filtration and ultracentrifugation and analyzed by electron microscopy, flow cytometry or Western blotting for protein identification. Redox activity was characterized by lucigenin (5 μM) or coelenterazine (5 μM) luminescence and by 4,5-diaminofluorescein (10 mM) and 2',7'-dichlorofluorescein (10 mM) fluorescence. Endothelial cell apoptosis was detected by phosphatidylserine exposure and by measurement of caspase-3 activity with an enzyme-linked immunoassay. Results Size, morphology, high exposure of the tetraspanins CD9, CD63, and CD81, together with low phosphatidylserine, showed that platelets exposed to NONOate and LPS, but not to TNF-α or thrombin, generate microparticles similar to those recovered from septic patients, and characterize them as exosomes. Luminescence and fluorescence studies, and the use of specific inhibitors, revealed concomitant superoxide and NO generation. Western blots showed the presence of NO synthase II (but not isoforms I or III) and of the NADPH oxidase subunits p22phox, protein disulfide isomerase and Nox. Endothelial cells exposed to the exosomes underwent apoptosis and caspase-3 activation, which were inhibited by NO synthase inhibitors or by a superoxide dismutase mimetic and totally blocked by urate (1 mM), suggesting a role for the peroxynitrite radical. None of these redox properties and proapoptotic effects was evident in microparticles recovered from platelets exposed to thrombin or TNF-α. Conclusion We showed that, in sepsis, NO and bacterial elements are responsible for type-specific platelet-derived exosome generation. Those exosomes have an active role in vascular signaling as redox-active particles that can induce endothelial cell caspase-3 activation and apoptosis by generating superoxide, NO and peroxynitrite. Thus, exosomes must be considered for further developments in understanding and treating vascular dysfunction in sepsis.

Cloning and characterization of bifunctional enzyme farnesyl diphosphate/geranylgeranyl diphosphate synthase from Plasmodium falciparum

Abstract Background Isoprenoids are the most diverse and abundant group of natural products. In Plasmodium falciparum, isoprenoid synthesis proceeds through the methyl erythritol diphosphate pathway and the products are further metabolized by farnesyl diphosphate synthase (FPPS), turning this enzyme into a key branch point of the isoprenoid synthesis. Changes in FPPS activity could alter the flux of isoprenoid compounds downstream of FPPS and, hence, play a central role in the regulation of a number of essential functions in Plasmodium parasites. Methods The isolation and cloning of gene PF3D7_18400 was done by amplification from cDNA from mixed stage parasites of P. falciparum. After sequencing, the fragment was subcloned in pGEX2T for recombinant protein expression. To verify if the PF3D7_1128400 gene encodes a functional rPfFPPS protein, its catalytic activity was assessed using the substrate [4-14C] isopentenyl diphosphate and three different allylic substrates: dimethylallyl diphosphate, geranyl diphosphate or farnesyl diphosphate. The reaction products were identified by thin layer chromatography and reverse phase high-performance liquid chromatography. To confirm the product spectrum formed of rPfFPPS, isoprenic compounds were also identified by mass spectrometry. Apparent kinetic constants KM and Vmax for each substrate were determined by Michaelis–Menten; also, inhibition assays were performed using risedronate. Results The expressed protein of P. falciparum FPPS (rPfFPPS) catalyzes the synthesis of farnesyl diphosphate, as well as geranylgeranyl diphosphate, being therefore a bifunctional FPPS/geranylgeranyl diphosphate synthase (GGPPS) enzyme. The apparent KM values for the substrates dimethylallyl diphosphate, geranyl diphosphate and farnesyl diphosphate were, respectively, 68 ± 5 μM, 7.8 ± 1.3 μM and 2.06 ± 0.4 μM. The protein is expressed constitutively in all intra-erythrocytic stages of P. falciparum, demonstrated by using transgenic parasites with a haemagglutinin-tagged version of FPPS. Also, the present data demonstrate that the recombinant protein is inhibited by risedronate. Conclusions The rPfFPPS is a bifunctional FPPS/GGPPS enzyme and the structure of products FOH and GGOH were confirmed mass spectrometry. Plasmodial FPPS represents a potential target for the rational design of chemotherapeutic agents to treat malaria.

Functional characterisation of the non-essential protein kinases and phosphatases regulating Aspergillus nidulans hydrolytic enzyme production

Abstract Background Despite recent advances in the understanding of lignocellulolytic enzyme regulation, less is known about how different carbon sources are sensed and the signaling cascades that result in the adaptation of cellular metabolism and hydrolase secretion. Therefore, the role played by non-essential protein kinases (NPK) and phosphatases (NPP) in the sensing of carbon and/or energetic status was investigated in the model filamentous fungus Aspergillus nidulans. Results Eleven NPKs and seven NPPs were identified as being involved in cellulase, and in some cases also hemicellulase, production in A. nidulans. The regulation of CreA-mediated carbon catabolite repression (CCR) in the parental strain was determined by fluorescence microscopy, utilising a CreA: GFP fusion protein. The sensing of phosphorylated glucose, via the RAS signalling pathway induced CreA repression, while carbon starvation resulted in derepression. Growth on cellulose represented carbon starvation and derepressing conditions. The involvement of the identified NPKs in the regulation of cellulose-induced responses and CreA derepression was assessed by genome-wide transcriptomics (GEO accession 47810). CreA:GFP localisation and the restoration of endocellulase activity via the introduction of the ∆creA mutation, was assessed in the NPK-deficient backgrounds. The absence of either the schA or snfA kinase dramatically reduced cellulose-induced transcriptional responses, including the expression of hydrolytic enzymes and transporters. The mechanism by which these two NPKs controlled gene transcription was identified, as the NPK-deficient mutants were not able to unlock CreA-mediated carbon catabolite repression under derepressing conditions, such as carbon starvation or growth on cellulose. Conclusions Collectively, this study identified multiple kinases and phosphatases involved in the sensing of carbon and/or energetic status, while demonstrating the overlapping, synergistic roles of schA and snfA in the regulation of CreA derepression and hydrolytic enzyme production in A. nidulans. The importance of a carbon starvation-induced signal for CreA derepression, permitting transcriptional activator binding, appeared paramount for hydrolase secretion.

A serological follow-up of toxocariasis patients after chemotherapy based on the detection of IgG, IgA, and IgE antibodies by enzyme-linked immunosorbent assay.

A serological follow-up study was carried out on 27 children (1–12 years old) with visceral and/or ocular toxocariasis, after treatment with thiabendazole. A total of 159 serum samples were collected in a period ranging from 22–116 months. Enzyme-linked immunosorbent assays (IgG, IgA, and IgE ELISA) were standardized, using excretory–secretory antigens obtained from the second-stage larvae of a Toxocara canis culture. The sensitivity found for the IgG, IgA, and IgE ELISA, as determined in visceral toxocariasis patients, was 100%, 47.8%, and 78.3%, respectively. Approximately 84% of the patients presented single or multiple parasitosis, as diagnosed by stool examination, yet such variables did not appear to affect the anti-Toxocara immune response. Titers of specific IgE antibody showed a significant decrease during the first year after treatment, followed by a decrease in the IgA titers in the second year, and in the IgG titers from the fourth year onwards. Sera from all patients presented high avidity IgG antibodies, indicating that they were in the chronic phase of the disease. Moreover, 1 year after treatment, the level of leukocytes, eosinophils, and anti-A isohemagglutinin in patients decreased significantly. The present data suggest that IgE antibodies plus eosinophil counts are helpful parameters for patient followup after chemotherapy.

High occurence of Entamoeba histolytica in the municipalities of Ariquemes and Monte Negro, state of Rondônia, Western Amazonia, Brazil

Introduction: Entamoeba histolytica infections were investigated in residents of the Ariquemes and Monte Negro municipalities in Rondônia State, Brazil. Methods: Stool samples of 216 individuals were processed by the spontaneous sedimentation method and analyzed by microscopy for detection of the E. histolytica/E. dispar complex, followed by the immunoassay method using an enzyme-linked immunosorbent assay-based kit for the E. histolytica stool antigen. Results: E. histolytica/E. dispar cysts were present in 61% (50/82) and 44% (59/134) of the samples from Ariquemes and Monte Negro respectively, with a significant difference in the occurrence of infection between the two populations [p < 0.05; χ2 = 5.2; odds ratio = 2.0 (1.1 - 3.6)]. The E. histolytica antigen detection rate was 36.6% (30/82) for stool samples from Ariquemes, and 19.4% (26/134) for stool taken from the residents of Monte Negro. The rate of the occurrence of amoebiasis was significantly higher in the population from Ariquemes [p < 0.05; χ2= 7.8; odds ratio = 2.4 (1.2 - 4.7)]. Discussion: Due to the high occurrence of E. histolytica infected residents diagnosed in the region and the unavailability in local clinics of a test to distinguish between the two Entamoeba species, physicians should consider treating E. histolytica/E.dispar infections. Conclusion: The results indicate that E. histolytica infection is highly endemic in the studied areas.

Suppressive effect of low-level laser therapy on tracheal hyperresponsiveness and lung inflammation in rat subjected to intestinal ischemia and reperfusion

Intestinal ischemia and reperfusion (i-I/R) is an insult associated with acute respiratory distress syndrome (ARDS). It is not known if pro- and anti-inflammatory mediators in ARDS induced by i-I/R can be controlled by low-level laser therapy (LLLT). This study was designed to evaluate the effect of LLLT on tracheal cholinergic reactivity dysfunction and the release of inflammatory mediators from the lung after i-I/R. Anesthetized rats were subjected to superior mesenteric artery occlusion (45 min) and killed after clamp release and preestablished periods of intestinal reperfusion (30 min, 2 or 4 h). The LLLT (660 nm, 7.5 J/cm(2)) was carried out by irradiating the rats on the skin over the right upper bronchus for 15 and 30 min after initiating reperfusion and then euthanizing them 30 min, 2, or 4 h later. Lung edema was measured by the Evans blue extravasation technique, and pulmonary neutrophils were determined by myeloperoxidase (MPO) activity. Pulmonary tumor necrosis factor-α (TNF-α), interleukin-10 (IL-10), intercellular adhesion molecule-1 (ICAM-1), and isoform of NO synthase (iNOS) mRNA expression were analyzed by real-time PCR. TNF-α, IL-10, and iNOS proteins in the lung were measured by the enzyme-linked immunoassay technique. LLLT (660 nm, 7.5 J/cm(2)) restored the tracheal hyperresponsiveness and hyporesponsiveness in all the periods after intestinal reperfusion. Although LLLT reduced edema and MPO activity, it did not do so in all the postreperfusion periods. It was also observed with the ICAM-1 expression. In addition to reducing both TNF-α and iNOS, LLLT increased IL-10 in the lungs of animals subjected to i-I/R. The results indicate that LLLT can control the lung's inflammatory response and the airway reactivity dysfunction by simultaneously reducing both TNF-α and iNOS.

Renal GLUT1 reduction depends on angiotensin-converting enzyme inhibition in diabetic hypertensive rats

Aims: Angiotensin-converting enzyme (ACE) inhibitors are used in diabetic kidney disease to reduce systemic/intra-glomerular pressure. The objective of this study was to investigate whether reducing blood pressure (BP) could modulate renal glucose transporter expression, and urinary markers of diabetic nephropathy in diabetic hypertensive rats treated with ramipril or amlodipine. Main methods: Diabetes was induced in spontaneously-hypertensive rats (~210 g) by streptozotocin (50 mg/kg). Thirty days later, animals received ramipril 15 μg/kg/day (R, n =10), or amlodipine 10 mg/kg/day (A, n= 8,) or water (C, n = 10) by gavage. After 30-day treatment, body weight, glycaemia, urinary albumin and TGF-β1 (enzyme-linked immunosorbent assay) and BP (tail-cuff pressure method) were evaluated. Kidneys were removed for evaluation of renal cortex glucose transporters (Western blotting) and renal tissue ACE activity (fluorometric assay). Key findings: After treatments, body weight (p = 0.77) and glycaemia (p = 0.22) were similar among the groups. Systolic BP was similarly reduced (p < 0.001) in A and R vs. C (172.4 ± 3.2; 186.7 ± 3.7 and 202.2 ± 4.3 mm Hg; respectively). ACE activity (C: 0.903 ± 0.086; A: 0.654 ± 0.025, and R: 0.389 ± 0.057 mU/mg), albuminuria (C: 264.8 ± 15.4; A: 140.8 ± 13.5 and R: 102.8 ± 6.7 mg/24 h), and renal cortex GLUT1 content (C: 46.81 ± 4.54; A: 40.30 ± 5.39 and R: 26.89 ± 0.79 AU) decreased only in R (p < 0.001, p < 0.05 and p < 0.001; respectively). Significance:We concluded that the blockade of the renin–angiotensin systemwith ramipril reduced earlymarkers of diabetic nephropathy, a phenomenon that cannot be specifically related to decreased BP levels.

Modeling physiological processes in plankton on enzyme kinetic principles

[EN] Many ecologically important chemical transformations in the ocean are controlled by biochemical enzyme reactions in plankton. Nitrogenase regulates the transformation of N2 to ammonium in some cyanobacteria and serves as the entryway for N2 into the ocean biosphere. Nitrate reductase controls the reduction of NO3 to NO2 and hence new production in phytoplankton. The respiratory electron transfer system in all organisms links the carbon oxidation reactions of intermediary metabolism with the reduction of oxygen in respiration. Rubisco controls the fixation of CO2 into organic matter in phytoplankton and thus is the major entry point of carbon into the oceanic biosphere. In addition to these, there are the enzymes that control CO2 production, NH4 excretion and the fluxes of phosphate. Some of these enzymes have been recognized and researched by marine scientists in the last thirty years. However, until recently the kinetic principles of enzyme control have not been exploited to formulate accurate mathematical equations of the controlling physiological expressions. Were such expressions available they would increase our power to predict the rates of chemical transformations in the extracellular environment of microbial populations whether this extracellular environment is culture media or the ocean. Here we formulate from the principles of bisubstrate enzyme kinetics, mathematical expressions for the processes of NO3 reduction, O2 consumption, N2 fixation, total nitrogen uptake.

Entwicklung einer Enzymimmunoelektrode zur Bestimmung von Atrazin in Wasser

ZusammenfassungIn der vorliegenden Arbeit ist eine Enzymimmunoelektrode zur Bestimmung von Atrazin in Wasser entwickelt worden. Die Motivation war, einen Immunoassay zu entwickeln, der ohne die speziellen Geräte, wie einen EIA-Reader, durchgeführt werden konnte. Dafür müssen drei Änderungen vorgenommen werden. Es muß das Detektorsystem EIA-Reader zur Meßwerterfassung ersetzt werden, und damit muß die nur im EIA-Reader verwendbare Mikrotiterplatte ausgetauscht werden. Als drittes muß der Immunoassay dem neuen Detektorsystem angepaßt werden. Eine pH-Elektrode wurde anstelle des EIA-Readers benutzt. Als Enzym, das eine pH-Änderung induziert, wurde Lactamase ausgewählt. Als Festphase wurden anstelle der Mikrotiterplatte Polystyrolmikropartikel (PSMP) verwendet. Die Entwicklung der Enzymimmunoelektrode erfolgte in drei Schritten: Entwicklung des Immunoassays für Atrazin unter Verwendung von Lactamase, Übertragung auf die Festphase PSMP und Einsatz der pH-Elektrode als Detektorsystem. Zuerst wurden Tracer mit dem Enzym Lactamase hergestellt. Als Haptene wurden 2-Chlor-4-(isopropylamino)-6-[(1-carboxypent-5-yl)amino]-s-Triazin (iPr/Cl/C6), Di-Chloratrazin und Di-Chlorsimazin verwendet. Es wurden unterschiedliche Testmittelpunkte im Immunoassay erreicht, (iPr/Cl/C6 I50 = 1.22µg/L; Dichloratrazin I50 = 0.27µg/L; Di-Chlorsimazin I50 = 0.12µg/L). Aufgrund der nur mäßigen Stabilität der Tracer unter Verwendung der Di-Chlorderivate wurde auf deren Verwendung bei der Entwicklung der Immunoelektrode verzichtet.Im zweiten Schritt erfolgte die Übertragung auf PSMP. Die Verwendung der PSMP hatte außer einer Verbesserung des Testmittelpunktes auf 1.00µg/L noch den Vorteil, daß die benötigten Mengen an Antikörper verringert werden konnten.Danach wurde die pH-Elektrode als Signalwandler zur Bestimmung des Atrazins eingesetzt. Unter Verwendung der pH-Elektrode konnte der bisher niedrigste Testmittelpunkt (I50 = 0.005µg/L) zur Bestimmung von Atrazin erreicht werden.

Isolierung, Reinigung und Expression zentraler Enzyme der Biosynthese des pflanzlichen Antiarrhythmikums Ajmalin

Zusammenfassung In der vorliegenden Arbeit wurden im Zuge derAjmalinbiosynthese in Rauvolfia serpentina die NADPH2abhängigen Reduktionsschritte des Alkaloids Vomilenin zu 17O Acetylnorajmalin genauer untersucht.Dabei konnte erstmals die exakte Reaktionsreihenfolgeaufgedeckt und die daran beteiligten Enzyme ausPflanzenzellsuspensionskulturen isoliert und aufgereinigtwerden. Die ausgearbeiteten, optimierten Reinigungsprotokolleführten in wenigen Stufen gezielt zu den voneinandergetrennten Reduktase Fraktionen. Durch die Trennung derReduktase Aktivitäten war der Grundstein gelegt, dasZwischenprodukt der Reaktion anzureichern und mitverschiedenen analytischen Verfahren als 2?-(R)-1.2Dihydrovomilenin zu identifizieren. Die daraufhin vergebenenBezeichnungen Vomilenin Reduktase (EC.1.5.1.32) und 1.2Dihydrovomilenin Reduktase (EC.1.3.1.73) zielen auf dasumzusetzende Substrat ab.Für die Vomilenin Reduktase konnte eine 4 stufige Reinigungüber (NH4)2SO4 Fällung, Anionen-austauschchromatographie mitSOURCE 30Q, Hydrophobe Interaktionschromatographie an SOURCE15Phe und Affinitätschromatographie mit 2’,5’ ADP Sepharoseausgearbeitet werden. Hierbei konnte die 1.2Dihydrovomilenin Reduktase schon nach dem erstensäulenchromatogra-phischen Schritt (S 30Q) abgetrenntwerden. Das am Ende der Proteinreinigung angefertigte SDSGel zeigte nur noch 3 Banden, von denen die beiden bei ca.40 und 43 kDa gelegenen Banden mit dem Aktivitätsverlaufder Vomilenin Reduktase korrelierten. Diese wurden einempartiellen Verdau mit der Endoproteinase LysC unterworfen,wobei jeweils 2 Spaltpeptide erhalten werden konnten.Die 1.2 Dihydrovomilenin Reduktase Reinigung umfaßte 6Reinigungsschritte mit (NH4)2SO4-Fällung, SOURCE 30QAnionenaustauschchromatographie, HydroxylapatitChromatographie, 2’,5’ ADP Sepharose-Chromatographie,Anionenaustausch an DEAE Sepharose und abschließen-denAnionenaustausch über MonoQ. Die resultierendeProteinfraktion wies eine ca. 200 fache Anreicherung an 1.2Dihydrovomilenin Reduktase auf. Auch hierbei wurde die nachSDS Gelelek-trophorese als 1.2 Dihydrovomilenin Reduktasebestimmte Proteinbande (bei ca. 48 kDa) sequen-ziert. Eskonnten vier Peptidfragmente erhalten werden, die ebenso wiedie sequenzierten Peptidstücke der 40 und 43 kDa Bande einehohe Homologie zu Oxidoreduktasen, im einzelnen zuCinnamoylalcohol- und Mannitol Dehydrogenasen, aufwiesen.Um die Identität der sequenzierten Proteinbanden zubestätigen, wurde über „reverse genetics“ die jeweilscodierende cDNA eruiert. Dafür wurden - ausgehend von denPeptidstücken der Mikro-sequenzierung - degenerierte Primerentwickelt und über PCR Teilbereiche der cDNA amplifiziert.Diese konnten für eine radioaktive Durchmusterung einerRauvolfia cDNA Bank herangezogen werden. Alternativ botallein die Kenntnis der spezifischen Nukleotidabfolge dieMöglichkeit der Gewinnung von 5’ und 3’ Ende derVollängenklone durch RACE PCR.Nach Abschluß dieser Arbeiten konnten für die 40 und 48 kDaBande je ein Vollängenklon und für die 43 kDa Bande 2Vollängenklone (Isoformen) gefunden werden. SämtlicheVollängenklone besitzen einen offenen Leserahmen, der durchnicht zu translatierende Bereiche am 5’ und 3‘ Endeeingefaßt wird. Um die entsprechenden Proteine produzierenzu können, mußten die dafür codierenden cDNA Bereiche dereinzelnen Klone in ein geeignetes Vektor Wirt-System(Expressionssystem) eingebracht werden.Nach erfolgreicher Umklonierung wurde die Expression durchIPTG Zugabe kontrolliert und Proteinrohextrakte aus denBakterienstämmen isoliert. Als Substrate wurden Vomilenin,das strukturisomere Alkaloid Perakin und aufgrund derHomologien zu Cinnamoylalcohol und Mannitol Dehydrogenasen Zimtaldehyd, Dihydrozimtaldehyd und D(-)Fructose getestet. In allen E. coli Stämmen konnte ein unspezifischesReduktionspotential nachgewiesen werden, ohne daß jedochVomilenin reduziert wurde. Die Testung der 1.2Dihydrovomilenin Reduktase Klone mußte wegen Substratmangelentfallen.Die weitere Charakterisierung der pflanzlichen Enzymeerbrachte eine enorm hohe Substratspezifität mit einer sichauf Rauvolfia beschränkenden taxonomischen Verbreitung.Die Molekulargewichtsbestimmung für die Vomilenin Reduktaseergab nach Größenausschluß-chromatographie an Superdex 75ein Gewicht von etwa 43 kDa. Das ebenfalls über Superdex 75ermittelte Molekulargewicht für die 1.2 DihydrovomileninReduktase lag bei ca. 49.8 kDa. Weiterhin wurde eine Metallionenabhängigkeit für dieVomilenin Reduktase aufgezeigt und die Cofaktorspezifitätsowie die pH und Temperatur Optima für beide Reduktasenbestimmt.