Metabolism of ferulic acid by a Penicillium sp.

Ferulic acid was metabolised by a Penicillium sp. (probably P. rubrum) by a novel route involving a preliminary demethylation to caffeic acid, followed by side-chain shortening to yield protocatechuic acid which was subsequently broken down via the ortho-fission pathway.Abbreviations used BAW = n-butanol, acetic acid, water [BAW]-(454:10:22) - BzAc = benzene, acetic acid, water [BzAc](125:72:3) - BzDA = benzene, dioxane, acetic acid [BzDA](90:25:4)     

Regulation of phenylpropanoid metabolism by exogenous precursors in axenic cultures of Sphagnum fallax

Sphagnum plantlets, cultivated in continuous-feed bioreactors, are characterised by high levels of free endogenous phenolics and a pronounced excretion of some phenolics into the effluent culture medium. The transfer of Sphagnum fallax, precultivated in continuous-feed bioreactors, to batch cultures resulted in an increased flux through phenylpropanoid metabolism and an accumulation of p-coumaric acid to 0.1 μM and of trans-sphagnum acid up to 0.5 μM in the external medium [³H]-labelled L-phenylalanine (7.7 GBq mol^?1) was rapidly taken up, resulting in an enhanced synthesis and excretion of p-coumaric and trans-sphagnum acid. Specific activities were 6.9 and 5.4 GBq mol^?1, respectively, for these cinnamic acids excreted into the external medium. Endogenous pools of trans-cinnamic and p-coumaric acid did not increase and no labelling could be detected in these compounds. Cell wall-bound activity amounted to ca 14% of the applied activity after 48 h of incubation, 59% of which was recovered in dioxane/2 M HCl extracts of the cell wall. Exogenously applied trans-cinnamic acid (0.1 mM) was taken up to 46% and resulted in a transient endogenous accumulation of trans-cinnamic acid, the level of free endogenous p-coumaric and trans-sphagnum acid was found to have decreased. The concentrations of p-coumaric and trans-sphagnum acid in the culture medium rose to 17 and 2.4 μM, respectively, after 48 h of incubation in 0.1 mMtrans-cinnamic acid. Exogenously applied p-coumaric acid (0.1 mM) was taken up to 79% from the incubation solution but not stored endogenously, as metabolic products trans-sphagnum acid and an unknown p-coumaric acid-conjugate accumulated in the external medium and endogenously. These results give evidence for the biosynthetical route from phenylalanine to sphagnum acid and a channelling of pathway intermediates by the enzymes L-phenylalanine ammonia-lyase (EC 4.3.1.5) and cinnamic acid 4-hydroxylase (EC 1.14.13.11).     

Biosynthesis of p-hydroxybenzoic acid in elicitor-treated carrot cell cultures

Carrot (Daucus carota L.) cells respond to treatment with fungal elicitors by synthesizing wallbound p-hydroxybenzoic acid (p-HBA). The biosynthetic pathway to p-HBA is still hypothetical. Tracer experiments with l-phenylalanine indicate the involvement of the general phenylpropanoid pathway. 3,4 (Methylenedioxy) innamic acid, an inhibitor of hydrocycinnamate CoA ligase, inhibits the accumulation of anthocyanins in carrot, while it does not interfere with p-HBA synthesis. Thus p-HBA biosynthesis does not appear to involve CoA thioesters. In the present report the sequence of enzymic reactions leading to p-HBA was investigated in vitro using protein preparations from cells treated with a fungal elicitor from Pythium aphanidermatum (Edson) Fitzp. The side-chain degradation from p-coumaric acid to p-HBA is not analogous to the -oxidation of fatty acids and involves p-hydroxybenzaldehyde as an intermediate. The final step from p-hydroxybenzaldehyde to p-HBA is catalyzed by an NAD-dependent p-hydroxybenzaldehyde dehydrogenase (EC 1.2.1.-). This reaction was characterized with regard to cofactor requirements, pH and temperature optima. The in-vitro formation of p-HBA from p-coumaric acid and the activity of the hydroxybenzaldehyde dehydrogenase are moderately elicitor-induced but to a much lesser extent than phenylalanine ammonialyase, which is the starting enzyme of the general phenylpropanoid pathway.Abbreviations HPLC high-performance liquid chromatography - MDCA 3,4-(methylenedioxy)-cinnamic acid - p-HBA p-hydroxybenzoic acid This work was supported by a grant from the Deutsche Forschungsgemeinschaft and a sholarship of the Land Baden-Württemberg (J.-P. S.).     

Biodegradation of commercial linear alkyl benzenes byNocardia amarae

Laboratory degradation studies of two indigeneously produced linear alkyl benzenes byNocardia amarae MB-11 isolated from soil showed an overall degradation of linear alkyl benzenes isomers to the extent of 57–70%. Degradation of 2-phenyl isomers of linear alkyl benzenes was complete and faster than that of other phenyl position (C3–C7) isomers which were degraded to the extent of 40–72% only. Length of alkyl side chains (C₁₀–C₁₄) had little or no impact on the degradation pattern. Major metabolities detected were 2-, 3-and 4-phenyl butyric acids, phenyl acetic acid and cis, cis-muconic acid. Minor metabolites weretrans-cinnamic acid, 4-phenyl 3-butenoic acid and 3-phenyl pentanoic acid along with two unidentified hydroxy acids. On the basis of the formation pattern of these metabolities, three catabolic pathways of linear alkyl benzenes isomers inNocardia amarae MB-11 were postulated. All the phenyl position (C2–C7) isomers of C₁₀, C₁₂, and C₁₄ linear alkyl benzenes along with 3-phenyl and 5-phenyl isomers of C₁₁ and C₁₃ linear alkyl benzenes were degraded viacis,cis-muconic acid pathway. Other phenyl position isomers of C₁₁ and C₁₃ linear alkyl benzenes with phenyl substitution at even number carbon atoms were principally degraded via phenyl acetic acid pathway whiletrans-cinnamic acid formation provided a minor pathway     

Allelochemical effects on net nitrate uptake and plasma membrane H+-ATPase activity in maize seedlings

Seven-day-old maize seedlings grown in a nitrogen-free hydroponic culture were exposed for 48 h to 0, 100 and 300 μM trans-cinnamic, p-coumaric, ferulic, caffeic acids, umbelliferone and 200 μM KNO₃. Net nitrate uptake was affected by trans-cinnamic, ferulic and p-coumaric acids in a concentration-dependent manner, and trans-cinnamic acid appeared to be the strongest inhibitor. Conversely, at low concentrations, caffeic acid stimulated net nitrate uptake while umbelliferone did not influence it. After 24 h of treatment, plasma membrane H⁺-ATPase activity significantly decreased in a concentration-dependent manner in response to trans-cinnamic, ferulic and p-coumaric acids, while umbelliferone and caffeic acid had no effect on H⁺-ATPase activity.     

True fractional calcium absorption is decreased after Roux-en-Y gastric bypass surgery

Objective: Roux‐en‐Y gastric bypass (RYGB) is considered to be the gold standard alternative treatment for severe obesity. Weight loss after RYGB results primarily from decreased food intake. Inadequate calcium (Ca) intake and metabolic bone disease can occur after gastric bypass. To our knowledge, whether malabsorption of Ca contributes to an altered Ca metabolism in the RYGB patient has not been addressed previously. Research Methods and Procedures: We recruited 25 extremely obese women in order to study true fractional Ca absorption (TFCA) before and 6 months after RYGB surgery, using a dual stable isotope method (⁴²Ca and ⁴³Ca) and test load of Ca (200 mg). Hormones regulating Ca absorption and markers of bone turnover were also measured. Results: In 21 women (BMI 52.7 ± 8.3 kg/m², age 43.9 ± 10.4 years) who successfully completed the study, TFCA decreased from 0.36 ± 0.08 to 0.24 ± 0.09 (p < 0.001) after RYGB. Bone turnover markers increased significantly (p < 0.01). TFCA correlated with estradiol levels (r = 0.512, p < 0.02) and tended to correlate with 1,25 (OH)₂D (r = 0.427, p < 0.06) at final measurement. Stepwise linear regression indicated that estradiol explained 62% of the variance for TFCA at 6 months post‐surgery (p < 0.01). Discussion: TFCA decreases (0.12 ± 0.08) after RYGB surgery but remains within normal range. Although only some patients were estimated to have low Ca absorption after surgery, all of the patients showed a dramatic increase in markers of bone resorption. The alteration in Ca metabolism after RYGB‐induced weight loss appears to be regulated primarily by estradiol levels and might ultimately affect bone mass.     

Morphological,physiological and enzymatic characteristics of cephalosporin acylase-producing Arthrobacter strain 45-8A

A bacterial strain producing cephalosporin acylases was isolated from soil. The morphological and physiological properties of this strain suggest that it belongs to the genus Arthrobacter, and the isolate was therefore designated Arthrobacter strain 45-8A. Substrate specificity of the enzyme was examined. The enzyme can convert both cephalosporin C and 7-(4-carboxylbutan-amino)cephalosporanic acid to 7-aminocephalosporanic acid. An interesting feature of the acylases is their temperature-dependent regulation. Activity of acylases was detected in strain 45-8A grown at temperature below 30 °C, but was not observed at higher temperature. Arthrobacter strain 45-8A did not exhibit -lactamase activity, even though its resistance to cephalosporin C was very strong (>2000 g/ml). This is quite beneficial for its application in the manufacture of 7-aminocephalosporanic acd.Abbreviations used NBHAB 2-Nitro-5-(6-bromohexanoylamino)-benzoic acid - NIPAB 2-Nitro-5-phenylacetaminobenzoic acid - CPC cephalosporin C - GL-7ACA 7-(4-carboxybutanamino)cephalosporanic acid - 6-APA aminopenicillanic acid - 7-ACA 7-aminocephalosporanic acid - PDAB p-Dimethylaminobenzaldehyde     

Studies on plant growth-regulating substances XXV. The plant growth-regulating activity of cinnamic acids

Effects of ring substitution on the plant growth-regulating activities of trans- and cis-cinnamic acids have been investigated in the wheat cylinder, pea segment and pea curvature tests. Most of the cis- acids were shown to be active. Substitution of fluorine, chlorine or bromine into the ring of cis-cinnamic acid in most cases increased the activity. The results are discussed in relation to mode of action and chemical structure/biological activity relationships: 4-chlorobenzoic acid is shown to act as a competitive antagonist towards 4-chloro-cis-cinnamic acid.     

Chromogenic analogues of penicillin dihydroF and penicillin K for the continuous spectrophotometric determination of aliphatic penicillin acylase activity

The synthesis of 2-nitro-5-[(hexanoyl)-amino]-benzoic acid and 2-nitro-5-[(octanoyl)-amino]-benzoic acid as chromogenic substrates for the determination of aliphatic penicillin acylase activity is described. During enzymatic hydrolysis, the released chromophore, 2-nitro-5-amino-benzoic acid, was detected at 405 nm. Penicillin acylase from Streptomyces lavendulae had an appreciable activity towards these substrates, which can then be used to detect penicillin acylases able to cleave hexanoyl and octanoyl residues off synthetic amides as well as penicillin dihydroF and penicillin K, their natural analogues.     

Enzyme inhibition by p-cresol and lacticacid in lipase-mediated synthesis of p-cresyl acetate and stearoyl lactic acid: a kinetic study

A detailed kinetic study was carried out to investigate the porcine pancreatic lipase-catalysed esterification reactions of p-cresol–acetic acid and lactic acid–stearic acid. The kinetic data were in agreement with a Ping Pong Bi–Bi mechanism being followed by the enzyme, where inhibition is indicated in the presence of p-cresol and lactic acid in the respective reactions. Mathematical analyses of experimentally observed initial rates yielded various kinetic parameters, K _m(p-cresol) = 0.1, K _{m(acetic acid)} = 0.54, K _{m(lactic acid)} = 0.059 M, K _{m(stearic acid)} = 0.04 M, V _{max(p-cresol–acetic acid)} = 13.2(h^–1), V _{max(lactic acid–stearic acid)} = 0.00163 M/h, K _i(p-cresol) = 0.59 and K _{i(lactic acid)} = 0.079 M. The K _m and K _i values of p-cresol and lactic acid observed in the respective reactions showed both the competitive nature of binding between the substrates p-cresol and acetic acid on the one hand and lactic acid and stearic acid on the other and the inhibitory nature of p-cresol and lactic acid.     

Effects of Culture Conditions on Production of trans-Cinnamic Acid from Alkylbenzenes by Soil Microorganisms

The production of trans-cinnamic acid from various alkylbenzenes by soil microorganisms was studied intensively by use of a co-oxidation technique. The microorganisms were grown on n-paraffins, and they did not use aromatic compounds as a carbon source when the preferred substrate was present in the medium. The effects of cell population, co-oxidation time, and type and mode of addition of the alkylbenzenes on the yield of trans-cinnamic acid were investigated. Yields (5 g/liter) of a product consisting of trans-cinnamic acid (88 to 100%) and 5-phenylvaleric acid (0 to 12%) were obtained when the proper conditions were chosen. Of a variety of microorganisms studied, a soil isolate closely related to Cellulomonas galba was found to be best for the production of trans-cinnamic acid.     

Rapid clonal propagation of three mulberries,Morus cathayana HemsL,M. lhou Koiz. andM. serrata Roxb., through in vitro culture of apical shoot buds and nodal explants from mature trees

High-frequency bud break and multiple shoots were induced in apical shoot buds and nodal explants ofMorus cathayana, M. lhou andM. serrata on Murashige and Skoog (MS) medium containing 0.5–1.0 mg/l 6-benzylaminopurine (BAP). Addition of gibberellic acid (0.4 mg/l) along with BAP induced faster bud break both in apical shoot buds and nodal explants and also enhanced the frequency of bud break in all three species. Shoot culture initiation was greatly influenced by explant type, explant age and explanting season. The shoots were successfully rooted on half-strength MS medium containing a combination of indole-3-acetic acid, indole-3-butyric acid and indole-3-propionic acid, each at 1.0 mg/l. The plantlets were successfully acclimated and eventually established in soil.Abbreviations BAP 6-Benzylaminopurine - GA ₃ Gibberellic acid - IAA Indole-3-acetic acid - IBA Indole-3-butyric acid - IPA Indole-3-propionic acid - Kn Kinetin - MS Murashige and Skoog (1962) medium - NAA 1-Naphthalene acetic acid     

Decolorization of 1-aminoanthraquinone-2-sulfonic acid by Sphingomonas xenophaga

Sphingomonas xenophaga QYY from sludge samples could effectively decolorize 1-aminoanthraquinone-2-sulfonic acid (ASA-2), one kind of anthraquinone dye intermediate, under aerobic conditions. More than 98% of ASA-2 could be removed within 120 h at the dye concentration from 200 mg l⁻¹ to 1,000 mg l⁻¹ due to oxidative degradation. The strain converted ASA-2 to 2-(2′-hydroxy-3′-amino-4′-sulfo-benzoyl)-benzoic acid, 2-(2′-amino-3′-sulfo-6′-hydroxy-benzoyl)-benzoic acid, o-phthalic acid and 2-amino-3-hydroxy-benzenesulfonic acid, which were identified using HPLC-MS and NMR. A possible initial decolorization pathway was proposed according to these metabolites. The decolorization of ASA-2 by cells in the basal salt medium was induced by ASA-2, and was due to soluble cytosolic enzymes. Combined initial decolorization pathway and the analysis of decolorization enzyme(s), the major enzyme responsible for ASA-2 decolorization was a NADH-dependent oxygenase.     

p-香豆酸对西洋参的化感作用及生理机制

西洋参(Panax quinquefolium L.)栽培中存在严重的连作障碍现象,前期发现p-香豆酸在以滤纸片为基质的条件下,能够显著抑制西洋参胚根的生长。为了明确p-香豆酸在土壤基质中对种胚的化感活性以及对成株西洋参生长的作用及生理机制,以自然土壤为基质,观察p-香豆酸作用后种胚的生长情况;采用室内水培试验,观察p-香豆酸作用下2年生西洋参种根从出苗至结果期的生长及部分生理指标的变化。种胚生长实验在土壤中分别添加0.0024、0.012、0.06、0.3、1.5、7.5 mg/g的p-香豆酸,处理7 d后测定西洋参种胚的胚根长和胚芽长。水培试验中全营养液中分别添加0.012 mg/mL、0.06 mg/mL、0.3 mg/mL p-香豆酸,处理后每隔5 d测定植株叶片展开情况、株高、冠幅等生长指标;于展叶期(10 d)、现蕾期(20 d)、结果期(30 d)测定地上部分及新生须根的生物量,同时测定新生须根苯丙氨酸解氨酶(PAL)活力;叶片完全展开后测定植株净光合速率(Pn)、表观电子传递速率(ETR)和最大光化学效率(Fv/Fm)等光合特性参数。结果表明,土壤中添加0.0024-7.5 mg/g p-香豆酸西洋参胚根长度降低28.52%-100%,胚芽长度降低1.09%-100%,并呈现一定的剂量抑制效应。实验浓度内的p-香豆酸可显著抑制西洋参植株地上部分生长,推迟展叶期;结果期地上部生物量比对照降低17.17%-54.55%(P < 0.05,Dunnett-t test);同时,叶片的Pn、ETR受到抑制(P < 0.05),但Fv/Fm不变;对须根的影响主要表现为0.06 mg/mL p-香豆酸处理组在展叶期PAL酶活力提高69.05%,之后PAL活力和生物量均比对照下降,浓度增加至0.3 mg/mL时整个培养期内PAL酶活力和生物量均低于对照。由此推论,根系环境中的p-香豆酸在自然土壤中对西洋参种胚具有显著抑制其生长的化感作用;对成株西洋参的作用主要为抑制地上部分生长,并通过降低成株西洋参叶片光合能力,从而表现出明显的化感作用,0.06 mg/mL p-香豆酸诱导须根PAL酶活力先升高再降低并最终降低生物量的结果也表明p-香豆酸是西洋参根系生长的胁迫因素。结果证实p-香豆酸对西洋参种胚和成株的生长均具有自毒作用,其抑制生长的生理机制在于抑制叶片的光合作用。     

Immunocytochemical localization of phenolic compounds in pollen walls using antibodies againstp-coumaric acid coupled to bovine serum albumin

Summary Two different antibodies against bovine serum albumin (BSA)-p-coumaric acid-conjugates were produced and used to localize phenolic compounds in exines of pollen from different species,p-Coumaric acid (pC) was coupled to BSA either via the carboxy group (BSA-pC) or directly to the aromatic ring system (BSA-azopC). The polyclonal antibodies raised in rabbits were characterized by ELISA with homologous and heterologous antigens using turkey ovalbumin as carrier protein. The results showed that the two immune sera directed against BSA-pC and BSA-azo-pC, respectively, were specific forp-coumaric acid and structurally similar compounds. Only a very poor binding by acetic acid-ovalbumin-conjugates and no binding by turkey ovalbumin was detectable. The antibodies reacted with partially purified pollen walls and with highly purified exines. The intensity of the immune reaction was proved to be dependent upon the pollen source and the preparation of the pollen walls. Using light and electron microscopy, it was shown for the first time that, in the exines ofCucurbita maxima, antibody binding was predominantly observed in the region of the germ pore apertures, the outer foot layers, and in the micro- and macrospines. We conclude from this and other earlier published data that phenols are important structural compounds of sporopollenin.Abbrevations AA acetic acid - BA benzoic acid - BSA bovine serum albumin - BSA-azo-pC p-coumaric acid coupled in meta position to BSA by a diazo reaction - BSA-azo-pC I immune serum against BSA-azo-pC - BSA-pC p-coumaric acid coupled to BSA via the COOH-group - BSA-pC I immune serum against BSA-pC - FA ferulic acid - OVA ovalbunin from turkey - pC p-coumaric acid - pHY p-hydroxybenzoic acid - SA sinapic acid - SYA syringic acid - TAT TBS-azide-Tween-buffer - TFA trifluoroacetic acid - VA vanillic acid     

Somatic embryogenesis and plant regeneration from callus cultures of Aconitum heterophyllum Wall

Plants were obtained via somatic embryogenesis in callus derived from in vitro raised leaf and petiole explants of Aconitum heterophyllum Wall. Callus was induced on a Murashige-Skoog medium supplemented with either 2,4-dichlorophenoxy acetic acid (2,4-d 1 mg l^-1) and kinetin (KN 0.5 mg l^-1) with coconut water (CW 10% v/v) or naphthalene acetic acid (NAA 5 mg l^-1) and benzylaminopurine (BAP 1 mg l^-1). Somatic embryos appeared after 2–3 months or 2 subculture passages when 2,4-d or NAA induced source of the callus was transferred to a MS medium containing BAP (1 mg l^-1) and NAA (0.1 mg l^-1). For successful plantlet formation, the somatic embryos were transferred to a medium containing 1/4 strength MS nutrient with indole-3-butyric acid (IBA 1 mg l^-1). Alternatively, the somatic embryos were dipped in a concentrated solution of IBA for 5 min and placed on a hormone free medium. Complete plantlets were formed after 4 weeks and were transferred successfully to soil.CIMAP Publication No. 1020.     

Isolation of 1-O-trans-p-Coumaroyl-r{beta}-D-glucopyranose from Sweet Potato Roots and Examination of Its Role in Chlorogenic Acid Biosynthesis

1-O-trans-p-Coumaroyl-rß-D-glucopyranose (p-coumaroyl-D-glucose)was isolated from slices of sweet potato root which had beenincubated with trans-cinnamic acid. Pre-loaded trans-cinnamicacid efficiently trapped the radioactivity from L-[U-¹⁴C]-phenylalanineand reduced its incorporation into chlorogenic acid by 75% ofcontrol values in disks of sweet potato root. In the root diskssupplied with trans-[3-¹⁴C]-cinnamic acid, the radioactivitywas transferred first to trans-cinnamoyl- D-glucose, then top-coumaroyl-D-glucose, and subsequently to chlorogenic acidand isochlorogenic acid. These results support our earlier propositionthat p-coumaroyl-D-glucose is involved in the biosynthesis ofchlorogenic acid as an intermediate adjacent in the pathwayto trans-cinnamoyl-D-glucose in sweet potato roots. (Received April 11, 1988; Accepted August 9, 1988)     

Bioanalysis of p-trifluoromethylmandelic acid and Mosher's acid by chiral gas chromatography and fluorine nuclear magnetic resonance to study chiral inversion: application to rat urine samples

Methods for the nuclear magnetic resonance and gas chromatographic analysis of the enantiomers of p-trifluoromethylmandelic acid (p-TFM) and Mosher's acid (α-methoxy-α-(trifluoromethyl)phenylacetic acid) present in rat urine samples are described. Gas chromartography was performed using cyclodextrin capillary columns with both compounds analysed following derivatisation with methanolic HCl. Nuclear magnetic resonance was performed directly on the untreated urine samples following addition of beta-cyclodextrin. The methods were suitable for the determination of the individual enantiomers of the analytes in urine. Analysis of the rat urine samples indicated that the p-TFM had undergone a unidirectional enantiomeric interconversion in vivo, while the enantiomers of Mosher's acid were excreted unchanged.     

Characterization of Fluoroglycofen Ethyl Degradation by Strain <Emphasis Type="Italic">Mycobacterium phocaicum</Emphasis> MBWY-1

A fluoroglycofen ethyl-degrading bacterium, MBWY-1, was isolated from the soil of an herbicide factory. This isolated strain was identified as Mycobacterium phocaicum based on analysis of its 16S rRNA gene sequence and its morphological, physiological, and biochemical properties. The strain was able to utilize fluoroglycofen ethyl as its sole source of carbon for growth and could degrade 100 mg l⁻¹ of fluoroglycofen ethyl to a non-detectable level within 72 h. The optimum temperature and pH for fluoroglycofen ethyl degradation by strain MBWY-1 were 30°C and 7.0, respectively. Five metabolites produced during the degradation of fluoroglycofen ethyl and were identified by mass spectrometry as {5-[2-chloro-4-(trifluoromethyl) phenoxy]-2-nitrophenylacyl} hydroxyacetic acid, acifluorfen, 5-[2-chloro-4-(trifluoromethyl) phenoxy]-2-nitrobenzoate, 5-[2-chloro-4-(trifluoromethyl) phenoxy]-2-hydroxyl, and 3-chloro-4-hydroxyl benzotrifluoride. Identification of the metabolites allowed to propose the degradation pathway of fluoroglycofen ethyl by strain MBWY-1. The inoculation of strain MBWY-1 into soil treated with fluoroglycofen ethyl resulted in a higher fluoroglycofen ethyl degradation rate than in uninoculated soil regardless of whether the soil was sterilized or nonsterilized.