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171.
Quercetinase (quercetin 2,3-dioxygenase, EC 1.13.11.24) is produced by various filamentous fungi when grown on rutin as the sole carbon and energy source. From a rutin based liquid culture of Penicillium olsonii, we purified a quercetinase with a specific activity of 175U mg(-1). The enzyme is a monomeric glycoprotein of approximately 55 kDa, containing 0.9+/-0.1 copper atoms per protein. Its substrate specificity is restricted to the flavonol family of flavonoids. It is completely inhibited by diethyldithiocarbamate at a concentration of 100 nM and 1H-2-benzyl-3-hydroxy-4-oxoquinolin is a competitive inhibitor with a K(I) of 4 microM. The cDNA poquer1 was cloned and sequenced. It encodes a 365 amino acids long enzyme with a strong sequence identity with the Aspergillus japonicus quercetinase (Q7SIC2). Like the enzyme from A. japonicus, only one of the two cupin domains of the Penicillium olsonii quercetinase is able to bind a metal atom. 相似文献
172.
Melhorn V Matsumi K Koiwai H Ikegami K Okamoto M Nambara E Bittner F Koshiba T 《Journal of plant research》2008,121(1):125-131
Abscisic acid (ABA) regulates stomatal closure in response to water loss. Here, we examined the competence of guard cells
to synthesize ABA, using two Arabidopsis ABA biosynthetic enzymes. 35S pro::AtNCED3-GFP and AAO3-GFP were introduced into guard cells of broad bean leaves. AtNCED3-GFP expression was detected at the chloroplasts, whereas green
fluorescent protein (GFP) and AAO3-GFP were in the cytosol. The stomatal aperture was decreased in AtNCED3-GFP- and AAO3-GFP-transformed guard cells. This indicated that ABA biosynthesis is stimulated by heterologous expression of AtNCED3 and Arabidopsis
aldehyde oxidase 3 (AAO3) proteins, which both seem to be regulatory enzymes for ABA biosynthesis in these cells. Furthermore,
stomatal closure by the expression of AtNCED3 and AAO3 suggested that the substrates of the enzymes are present and native
ABA-biosynthesis enzymes are active in guard cells.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.
V. Melhorn and K. Matsumi contributed equally to this work. 相似文献
173.
L. I. Akhmetov A. E. Filonov I. F. Puntus I. A. Kosheleva I. A. Nechaeva D. R. Yonge J. N. Petersen A. M. Boronin 《Microbiology》2008,77(1):23-32
The process of naphthalene degradation by indigenous, introduced, and transconjugant strains was studied in laboratory soil microcosms. Conjugation transfer of catabolic plasmids was demonstrated in naphthalene-contaminated soil. Both indigenous microorganisms and an introduced laboratory strain BS394 (pNF142::TnMod-OTc) served as donors of these plasmids. The indigenous bacterial degraders of naphthalene isolated from soil were identified as Pseudomonas putida and Pseudomonas fluorescens. The frequency of plasmid transfer in soil was 10?5–10?4 per donor cell. The activity of the key enzymes of naphthalene biodegradation in indigenous and transconjugant strains was studied. Transconjugant strains harboring indigenous catabolic plasmids possessed high salicylate hydroxylase and low catechol-2,3-dioxygenase activities, in contrast to indigenous degraders, which had a high level of catechol-2,3-dioxygenase activity and a low level of salicylate hydroxylase. Naphthalene degradation in batch culture in liquid mineral medium was shown to accelerate due to cooperation of the indigenous naphthalene degrader P. fluorescens AP1 and the transconjugant strain P. putida KT2442 harboring the indigenous catabolic plasmid pAP35. The role of conjugative transfer of naphthalene biodegradation plasmids in acceleration of naphthalene degradation was demonstrated in laboratory soil microcosms. 相似文献
174.
Sun Z Hans J Walter MH Matusova R Beekwilder J Verstappen FW Ming Z van Echtelt E Strack D Bisseling T Bouwmeester HJ 《Planta》2008,228(5):789-801
175.
A bacterial artificial chromosome (BAC) genomic approach reveals partial clustering of the furanocoumarin pathway genes in parsnip
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Sandro Roselli Alexandre Olry Sonia Vautrin Olivier Coriton Dave Ritchie Gianni Galati Nicolas Navrot Célia Krieger Guilhem Vialart Hélène Bergès Frédéric Bourgaud Alain Hehn 《The Plant journal : for cell and molecular biology》2017,89(6):1119-1132
Furanocoumarins are specialized metabolites that are involved in the defense of plants against phytophagous insects. The molecular and functional characterization of the genes involved in their biosynthetic pathway is only partially complete. Many recent reports have described gene clusters responsible for the biosynthesis of specialized metabolites in plants. To investigate possible co‐localization of the genes involved in the furanocoumarin pathway, we sequenced parsnip BAC clones spanning two different gene loci. We found that two genes previously identified in this pathway, CYP71AJ3 and CYP71AJ4, were located on the same BAC, whereas a third gene, PsPT1, belonged to a different BAC clone. Chromosome mapping using fluorescence in situ hybridization (FISH) indicated that PsPT1 and the CYP71AJ3‐CYP71AJ4 clusters are located on two different chromosomes. Sequencing the BAC clone harboring PsPT1 led to the identification of a gene encoding an Fe(II) α‐ketoglutarate‐dependent dioxygenase (PsDIOX) situated in the neighborhood of PsPT1 and confirmed the occurrence of a second gene cluster involved in the furanocoumarin pathway. This enzyme metabolizes p‐coumaroyl CoA, leading exclusively to the synthesis of umbelliferone, an important intermediate compound in furanocoumarin synthesis. This work provides an insight into the genomic organization of genes from the furanocoumarin biosynthesis pathway organized in more than one gene cluster. It also confirms that the screening of a genomic library and the sequencing of BAC clones represent a valuable tool to identify genes involved in biosynthetic pathways dedicated to specialized metabolite synthesis. 相似文献
176.
The chemotaxis of two pseudomonads,Pseudomonas putida AZ (Naph+) and P. putida AZ (Naph–), differing in their ability to metabolize naphthalene was studied by the known capillary method of Adler and the densitometric method devised in our laboratory. The migration of P. putida AZ (Naph+) cells toward increasing levels of naphthalene was accompanied by the formation of a migrating front of converted naphthalene. P. putida AZ (Naph–) cells also exhibited positive chemotaxis to naphthalene, but they did not form the front of converted naphthalene. The analysis of experimental data in terms of a kinetic model of bacterial chemotaxis showed that the densitometric method is a potential tool for studying bacterial chemotaxis to hydrophobic organic substances. 相似文献
177.
Zhongxin Ma Ashley A. Holland Ilana Szlamkowicz Vasileios Anagnostopoulos Maria Luiza Caldas Nogueira Jonathan D. Caranto Victor L. Davidson 《The Journal of biological chemistry》2022,298(3)
The hemerythrin-like protein from Mycobacterium kansasii (Mka HLP) is a member of a distinct class of oxo-bridged diiron proteins that are found only in mycobacterial species that cause respiratory disorders in humans. Because it had been shown to exhibit weak catalase activity and a change in absorbance on exposure to nitric oxide (NO), the reactivity of Mka HLP toward NO was examined under a variety of conditions. Under anaerobic conditions, we found that NO was converted to nitrite (NO2−) via an intermediate, which absorbed light at 520 nm. Under aerobic conditions NO was converted to nitrate (NO3−). In each of these two cases, the maximum amount of nitrite or nitrate formed was at best stoichiometric with the concentration of Mka HLP. When incubated with NO and H2O2, we observed NO peroxidase activity yielding nitrite and water as reaction products. Steady-state kinetic analysis of NO consumption during this reaction yielded a Km for NO of 0.44 μM and a kcat/Km of 2.3 × 105 M−1s−1. This high affinity for NO is consistent with a physiological role for Mka HLP in deterring nitrosative stress. This is the first example of a peroxidase that uses an oxo-bridged diiron center and a rare example of a peroxidase utilizing NO as an electron donor and cosubstrate. This activity provides a mechanism by which the infectious Mycobacterium may combat against the cocktail of NO and superoxide (O2•−) generated by macrophages to defend against bacteria, as well as to produce NO2− to adapt to hypoxic conditions. 相似文献
178.
Involvement of naphthalene dioxygenase in indole-3-acetic acid biosynthesis by Pseudomonas putida 总被引:1,自引:0,他引:1
Mordukhova EA Sokolov SL Kochetkov VV Kosheleva IA Zelenkova NF Boronin AM 《FEMS microbiology letters》2000,190(2):279-285
Two variants of plant growth-promoting strain Pseudomonas putida BS1380 harboring the naphthalene degradative plasmid pBS2 and the recombinant plasmid pNAU64 that contains the genes encoding for naphthalene dioxygenase were constructed by conjugation. The ability of this strain to produce phytohormone indole-3-acetic acid from different carbon sources was studied. Indole-3-acetic acid synthesis by these transconjugants was 15-30 times as much in contrast to a wild-type strain with glucose as the sole carbon source. No difference was observed in other carbon or nitrogen sources. It is suggested that naphthalene dioxygenase is involved in the conversion of indole-3-pyruvic acid to indole-3-acetic acid. 相似文献
179.
Khaled M. Khleifat Muhamad O. Al-limoun Khalid Y. Alsharafa Haitham Qaralleh Amjad A. Al Tarawneh 《Bioremediation Journal》2019,23(1):22-31
The substrate range of 2,4-dinitrotoluene (DNT) dioxygenase was investigated by measuring substrate-dependent O2 uptake and maximum growth (expressed in A600) on substrate-containing minimal medium. The control for each strain had no added particular substrate. The following aromatic compounds: catechol, α-naphthalene acetic acid, β-dimethylaminobenzaldehyde, 3,4-dinitrosalicylic acid, p-nitrophenol, naphthanol, o-anisic acid, salicylic acid, toluene, and benzoic acid, were tried as possible substrates. Considering all substrates used, only p-nitrophenol showed zero oxygen uptake rate and zero growth. This indicates that it was rather unlikely that p-nitrophenol is a substrate analog for 2,4-DNT. Catechol was clearly used as a sole carbon source by both wild-type Escherichia. coli (JM103) and the dnt transformant (JS39). Using α-naphthalene acetic acid and β-dimethylaminobenzaldehyde as substrates resulted in DNT dioxygenase oxygen uptake rates of 11.8 and 14?μM/hr/mg protein, respectively. However, using both compounds as a carbon source, JS39 had twice the growth rate of E. coli JM103. For the remaining six substrates tested (3, 4-dinitrosalicylic acid, p-nitrophenol, o-anisic acid, salicylic acid, toluene, and benzoic acid), there appeared to be growth advantages for JS39 (even though the growth in the presence of substrate was less than the controls) suggesting a situation similar to that described for α-naphthalene and β-dimethylaminobenzaldehyde above. Combining results from our assay with respirometry and growth-based experiments will allow a better understanding of the biochemical consequences of these interactions. These results suggest that DNT dioxygenase gene, dntA carried by JS39, and those potential genes for substrates-degraded enzyme(s) system could have a common root. 相似文献
180.