Reduction of laccase type 1 copper by 3,4-dihydroxyphenylalanine and other catechol derivatives

3,4-Dihydroxyphenylalanine (DOPA) is not a preferred substrate of Rhus vernicifera laccase, as rate constants for the anaerobic reduction of the type 1 cupric atom by L-DOPA (6.3 X 10(1) M-1 s-1), D-DOPA (2.6 X 10(1) M-1 s-1), and L-DOPA methyl ester (2.6 X 10(1) M-1 s-1) are considerably smaller than k1 (catechol) (7 X 10(2) M-1 s-1) and rate constants characteristic of numerous other nonphysiological organic substrates (25 degrees C, pH 7.0, I = 0.5 M). The reactions of DOPA derivatives with laccase are unique, however, in that a two-term rate law pertains: kobsd = k0 + k1[phenol]; k0(L-DOPA) = 7 X 10(-2) s-1. The reactivities of other catechol derivatives (pyrogallol, gallic acid, and methyl gallate) with laccase type 1 copper were also examined.     

cDNA cloning and mRNA expression of L-3,4-dihydroxyphenylalanine decarboxylase gene homologue from the silkworm,Bombyx mori

l-3,4-Dihydroxyphenylalanine decarboxylase (DDC) cDNA, from Bombyx mori that contains an open reading frame of 1437 bp encoding 478 amino acids, was cloned and characterized. Expression analyses of B. mori DDC mRNA by Northern and in situ hybridization indicated that expression of silkworm DDC expression is possibly controlled by neuropeptide hormones in tissue- and stage-specific manners.     

甘肃省甜瓜黄萎病的病原鉴定

【背景】2013年11月在甘肃省兰州市皋兰县的日光温室秋冬茬甜瓜种植棚发现黄萎症状的甜瓜植株,病株率约为1%。【目的】明确甜瓜黄萎病的病原。【方法】采用组织分离法进行病原菌分离;通过科赫氏法则(Koch’s法则)明确分出病菌的致病性;采用形态学和分子生物学方法对病原菌进行种类鉴定。【结果】分离得到轮枝菌属真菌8株,轮枝菌属真菌的病株分出率达100%;2个代表性菌株GLTG-2和GLTG-5(显微特征相似但菌落形态和生长速率不同),在温度18-24℃及昼/夜光周期为11.5 h/12.5 h的试验条件下,人工接种可引起甜瓜苗矮化、枯萎;接种后40 d,枯死株率分别为70%和40%;BLASTn分析结果显示,菌株GLTG-2的rDNA-ITS序列与Verticillium dahliae菌株MRHf7的序列相似性达99.78%,菌株GLTG-5的rDNA-ITS序列与V.dahliae菌株MRHf7和Vd414的序列相似性达100.00%。【结论】引起甜瓜黄萎病的病原菌被鉴定为大丽轮枝菌(V. dahliae),这是大丽轮枝菌引起甜瓜黄萎病在我国和亚洲地区的首次报道。     

Incorporation of L-tyrosine, L-phenylalanine and L-3,4-dihydroxyphenylalanine as single units into rat brain tubulin.

The product of the incorporation of [14C]tyrosine as single unit into a protein of the soluble fraction of rat brain homogenate was purified by following a procedure used to purify tubulin. Sodium dodecylsulphate-polyacrylamide gel electrophoresis of the purified material showed a single protein band containing all the radioactivity. Purification data indicate that this protein accounts for 10.2% of the total protein of the supernatant fraction. This is in good agreement with the amount found for tubulin by the [3H]colchicine-binding method (10.5% of the total protein). The incorporated [14C]-tyrosine was found in the alpha-subunit of tubulin. Protein labelled with [3H]colchicine and [14C]tyrosine was precipatated with vinblastine sulphate and the radioactivity of 3H and that of 14C were quantitatively recovered in the precipitate (98%). Sodium dodecylsulphate-polyacrylamide gel electrophoresis of the vinblastine precipitate showed that the 14C radioactivity moved with the tubulin band. Results obtained in experiments with phenylalanine and 3,4-dihydroxyphenylalanine were identical to those obtained for tyrosine. Bineing of colchicine did not interfere with the incorporation of tyrosine. About 30% of tubulin from rat brain supernatant fraction can incorporate tyrosine as single unit.     

Targeted co-delivery of paclitaxel and anti P-gp shRNA by low molecular weight PEI decorated with L-3,4-dihydroxyphenylalanine

Co-delivery of small chemotherapeutic molecules and nucleic acid materials via targeted carriers has attracted great attention for treatment of resistant tumors and reducing adverse effects. In this study, a targeted carrier for co-delivery was prepared based on low-molecular weight polyethylenimine (LMW PEI). Paclitaxel (PTX) was covalently conjugated onto PEI via a succinate linker. The PEI conjugate was decorated with L-DOPA in order to target large neutral amino acid transporter-1 (LAT-1) that is over-expressed on various cancer cells. This PEI conjugate was complexed with human ABCB1 shRNA plasmid to down-regulate the expression of P-glycoprotein, as one of the major efflux pumps inducing resistance against chemotherapeutics. The formation of PEI conjugate enhanced the solubility of PTX and resulted in the condensation and protection of plasmid DNA in nanosized polyplexes. The results of targeted delivery into the cells demonstrated that PEI conjugate transferred the payloads to the cells over-expressing LAT-1 transporter, while the biological effects on the cells lacking the transporter was negligible. Also, shRNA-mediated down-regulation of P-gp led to the increase of toxic effects on the cells over-expressing P-gp. This study suggests a promising approach for co-delivery of small molecules and nucleic acid materials in a targeted manner for cancer therapy.     

Inhibition of polygalacturonase from Verticillium dahliae by a polygalacturonase inhibiting protein from cotton

An extracellular endo-polygalacturonase (PGase) [E.C. 3.2.1.15] was isolated from 18-day-old culture filtrates of Verticillium dahliae and partially purified using gel permeation chromatography. The band responsible for PGase activity was electrophoretically characterized as having a molecular mass of approximately 29 500 and an isoelectric point of 5.4. Kinetic studies indicate a Km of 3.3 mg ml(-1) and Vmax of 0.85 micromol reducing units min(-1) ml(-1) with polygalacturonic acid as substrate. Polygalacturonase inhibitor protein (PGIP) in cotton seedlings was induced by 5 mM salicylic acid and immunochemical analysis indicated high levels in the hypocotyl tissues. PGIP was purified from roots and stems using affinity chromatography with endo-PGase from Aspergillus niger as an immobilised ligand. The purified PGIP contained monomeric and dimeric molecules with molecular masses of 34 and 66 kDa respectively. Purified cotton PGIP inhibited endo-polygalacturonase from A. niger in a non-competitive or mixed manner with an inhibition constant. K(I) of 15 nM. The isolated V. dahliae PGase was, however, inhibited in a positive cooperative manner, indicative of allosteric interactions between the enzyme and the inhibitor protein. In addition to reducing the reaction rate, decreased substrate affinity may contribute to the accumulation of elicitor-active oligouronides.     

Determination of m- and p-O-methylated products of L-3,4-dihydroxyphenylalanine using high-performance liquid chromatography and electrochemical detection

In a study of in vitro and in vivo metabolism of L-3,4-dihydroxyphenylalanine (L-Dopa), two methods of high-performance liquid chromatography (HPLC) were used to separate the m- and p-O-methylated products. A reversed-phase column and an aqueous mobile phase by gradient elution were used; the elute was analyzed electrochemically with a single amperometric and dual coulometric electrode. The L-Dopa and its O-methylated products could be detected individually in the enzymatic methylation of rat liver homogenate and in patients with Parkinson's disease. Meta/para ratios of O-methylation are easily obtained by this method.     

Synthesis of tyrosine and 3,4-dihydroxyphenylalanine by Citrobacter freundii bacteria from lactic acid

A possibility of using lactic acid as a precursor for the synthesis of L-tyrosine and L-3,4-dihydroxyphenylalanine (DOPA) by Citrobacter freundii 62 and 63 was established. The synthesis of tyrosine from lactic acid occurs at a phenol concentration of less than 0.6%. The conditions were found which enable C. freundii 62 and 63 to synthesize from lactic acid tyrosine and DOPA with the yield of 35-38 g/l and 32-33 g/l, respectively.     

Oxidation of tyrosine residues in proteins by tyrosinase. Formation of protein-bonded 3,4-dihydroxyphenylalanine and 5-S-cysteinyl-3,4-dihydroxyphenylalanine.

A simple and rapid method was developed for the determination of 3,4-dihydroxyphenylalanine (dopa) and 5-S-cysteinyl-3,4-dihydroxyphenylalanine (5-S-cysteinyldopa) in proteins with the use of high-pressure liquid chromatography. With this method, it is demonstrated that mushroom tyrosinase can catalyse hydroxylation of tyrosine residues in proteins to dopa and subsequent oxidation to dopaquinone residues. The dopaquinone residues in proteins combine with cysteine residues to form 5-S-cysteinyldopa in bovine serum albumin and yeast alcohol dehydrogenase, whereas dopa is the major product in bovine insulin, which lacks cysteine residues.     

The simple and rapid quantification method for L-3,4-dihydroxyphenylalanine (L-DOPA) from plant sprout using liquid chromatography-mass spectrometry

L-3,4-dihydroxyphenylalanine (L-DOPA) is one of the important secondary metabolites of plants and has been used for various purposes, such as in clinical treatment for Parkinson’s disease and dopamine-responsive dystonia. In plants, L-DOPA is a precursor of many alkaloids, catecholamines, and melanin; the L-DOPA synthesis pathway is similar to that in mammals. L-DOPA acts as an allelochemical, has an important role in several biological processes, such as stress response and metabolism, in plants. L-DOPA is widely used in the clinical treatment as well as a dietary supplement or psychotropic drug, understanding of biosynthesis of L-DOPA in plant could lead to a stable supply of L-DOPA. This paper describes an improved method for simple and rapid quantification of L-DOPA content using liquid chromatography-tandem mass spectrometry. The standard quantitative methods for L-DOPA require multiple purification steps or relatively large amounts of plant material. In our improved method, quantification of L-DOPA was possible with extract of one–two pieces of cotyledon without any partitioning or column for purification. The endogenous L-DOPA (approximately 4,000 µg g⁻¹ FW (fresh weight)) could be detected from the one pieces of cotyledon of the faba bean sprout using this method. This method was also effective for samples with low endogenous amounts of L-DOPA such as broccoli, Japanese white radish, pea, and red cabbage sprouts. Therefore, this improved method will allow to measurement of L-DOPA content easily and accurately from a small amount of plant tissue and contribute to understanding biosynthesis, catabolism, and transport of L-DOPA.     

Synthesis of tyrosine and 3,4-dihydroxyphenylalanine by bacteria Citrobacter freundii

Among facultative-anaerobic bacteria utilizing formic acid, a large number of strains having tyrosine phenol lyase were found. The enzyme can catalyze synthesis of tyrosine and 3,4-dihydroxy phenyl alanine (DOPA) from pyruvate, ammonium and, accordingly, phenol and pyrocatechol. These strains were identified as Citrobacter freundii. Cell suspensions of the most active strains synthesized up to 75 g/l tyrosine for 12 hr, up to 86 g/l tyrosine for 24 hr, and up to 29 g/l DOPA for 42 hr. A medium containing yeast autolysate grown on hydrocarbons can be recommended to produce cells having a high tyrosine phenol lyase activity.     

Upward movement of Verticillium dahliae from soil to olive plants detected by qPCR

Olive trees play an important role in cultural, ecological, environmental and social fields, constituting in large part the Mediterranean landscape. In Tuscany, an important economic activity is based on olive. Unfortunately, the Verticillium wilt affects this species and causes vascular disease. In the present study, a real-time quantitative PCR approach has been used to detect and quantify Verticillium dahliae in soil and in olive tree tissues both in micropropagated and in seedling olives. The minimum amounts of V. dahliae DNA sequences detected in soil were 11.4 fg which is equivalent to less than one fungal haploid genome. In micropropagated olive the pathogen was detected in the leaves after 43 days, showing a vertical upward movement of the fungus from the culture medium to stem and leaves. A similar fungal behaviour was observed in inoculated olive stem where after 15 days the fungal DNA was detected from symptomless stem tissue above 8 cm the inoculation site. The described molecular approach is expected to provide a more sensitive and less time-consuming alternative detection method for V. dahliae than plating assay procedures, which were traditionally proposed as an early diagnosis method for Verticillium wilt to farmers and tree nursery growers.     

Root-colonizing Fungi from Oilseed Rape and their Inhibition of Verticillium dahliae

Root-colonizing fungi obtained from thoroughly washed root segments of symptomless young oilseed rape plants growing in field soil were examined for their inhibitory effect on the wilt fungus, Verticillium dahliae Kleb. The isolated fungi that were possible to identify belonged to the different genera Trichoderma , Gliocladium , Mortierella , Fusarium and Alternaria . Oilseed rape seedlings from seeds exposed to both sporulating and nonsporulating fungal isolates were shown to be colonized by their hyphae in gnotobiotic conditions and the emergence/root growth was significantly affected in their presence. Inoculation with a few isolates not only covered the root surface but also seemed to extensively colonize the inner root cortical tissues partly by producing characteristic structures in the roots. All of these suppressed the pathogen in in vitro assays but the mode of suppression in most cases did not seem to be due to production of antifungal substances. In nonsterile field soil, several of the isolates conferred protection against V. dahliae by delaying symptom development. None of the isolates was shown to increase wilt symptoms. In addition to protection, two isolates, yet to be identified, also showed increased shoot dry weight compared with that of healthy controls. A majority of the isolates showed proteolytic activity whereas only three produced chitinolytic enzymes.
Results for the isolates obtained by the method selected for this study could be considered as a starting point for evaluating antagonists capable of both competing for root colonization and preventing root infection, with the final aim being to achieve successful biological control of the wilt fungus.     

Purification and characterization of 3,4-dihydroxyphenylalanine decarboxyase from pig kidney.

A procedure for 3,4-dihydroxyphenylalanine decarboxylase from pig kkdney purification is described in detail. The preparation has no detectable impurity on electrophoresis and on ultracentrifugation and authors. However two significant differences are observed: a different stimulation of activity by added pyridoxal 5'-phosphate and a nearly complete decarboxylation of L-3,4-dihydroxyphenylalanine in absence of added coenzyme. Absorption, fluorescence and circular dichroism properties of the coenzyme-apoenzyme interaction are also described. The results are consistent with the existence of at least four coenzyme-apoenzyme complexes, three of them active.     

Effect of L-3,4-dihydroxyphenylalanine, ornithine and γγ-aminobutyric acid on winter wheat resistance to grain aphid

The association between the concentrations of L-3,4-dihydroxyphenylalanine (L-DOPA), ornithine, and γ-aminobutyric acid (GABA) in winter wheat cultivars with their antibiotic resistance to the grain aphid Sitobion avenae (F.) (Hom., Aphididae) was studied. The antibiosis was measured under field conditions using the intrinsic rate of natural increase ( r _m ). The content of the studied non-protein amino acids was estimated in flag leaf at the beginning of anthesis growth stage. Highly significant negative correlations were found between the r _m values and concentrations of L-DOPA (r = −0.937) and ornithine (r = −0.907), but not with GABA (r = −0.363). The contribution of these allelochemicals to the resistance of the plants to insects is discussed.     

Clinical Characteristics and Outcomes of Rare Fungal Keratitis Caused by Verticillium dahliae

Mycopathologia - To observe clinical characteristics and treatment outcomes of fungal keratitis caused by Verticillium dahliae. Clinical data of 7 patients diagnosed as fungal keratitis...     

Involvement of UDP-glucose pyrophosphorylase from Verticillium dahliae in cell morphogenesis,stress responses,and host infection

UDP-glucose pyrophosphorylase (UGP, EC 2.7.7.9) is an essential enzyme involved in carbohydrate metabolism. In Saccharomyces cerevisiae and other fungi, the UGP gene is indispensable for normal cell development, polysaccharide synthesis, and stress response. However, the function of the UGP homolog in plant pathogenic fungi has been rarely explored during pathogenesis. In this study, we characterize a UGP homolog named VdUGP from Verticillium dahliae, a soil-borne fungus that causes plant vascular wilt. In comparison with wild-type strain V07DF2 and complementation strains, the VdUGP knocked down mutant 24C9 exhibited sensitivity to sodium dodecyl sulfate (perturbing membrane integrity) and high sodium chloride concentration (high osmotic pressure stress). More than 25 % of the conidia of the mutant developed into short and swollen hypha and formed hyperbranching and compact colonies. The mutant exhibited decreased virulence on cotton and tobacco seedlings. Further investigation determined that the germination of the mutant spores was significantly delayed compared with the wild-type strain on the host roots. RNA-seq analysis revealed that a considerable number of genes encoding secreted proteins and carbohydrate-active enzymes were significantly downregulated in the mutant at an early stage of infection compared with those of the wild-type strain. RNA-seq data indicated that mutation affected many Kyoto Encyclopedia of Genes and Genomes (KEGG) pathways both in the pathogen and in the inoculated plants at the infection stage. These alterations of the mutant in cultural phenotypes, virulence, and gene expression profiles clearly indicated that VdUGP played important roles in fungal cell morphogenesis, stress responses, and host infection.