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1.
Proc Natl Acad Sci U S A ; 119(16): e2123299119, 2022 04 19.
Artigo em Inglês | MEDLINE | ID: mdl-35412884

RESUMO

Wheat is a widely grown food crop that suffers major yield losses due to attack by pests and pathogens. A better understanding of biotic stress responses in wheat is thus of major importance. The recently assembled bread wheat genome coupled with extensive transcriptomic resources provides unprecedented new opportunities to investigate responses to pathogen challenge. Here, we analyze gene coexpression networks to identify modules showing consistent induction in response to pathogen exposure. Within the top pathogen-induced modules, we identify multiple clusters of physically adjacent genes that correspond to six pathogen-induced biosynthetic pathways that share a common regulatory network. Functional analysis reveals that these pathways, all of which are encoded by biosynthetic gene clusters, produce various different classes of compounds­namely, flavonoids, diterpenes, and triterpenes, including the defense-related compound ellarinacin. Through comparative genomics, we also identify associations with the known rice phytoalexins momilactones, as well as with a defense-related gene cluster in the grass model plant Brachypodium distachyon. Our results significantly advance the understanding of chemical defenses in wheat and open up avenues for enhancing disease resistance in this agriculturally important crop. They also exemplify the power of transcriptional networks to discover the biosynthesis of chemical defenses in plants with large, complex genomes.


Assuntos
Vias Biossintéticas , Interações Hospedeiro-Patógeno , Doenças das Plantas , Triticum , Vias Biossintéticas/genética , Pão , Resistência à Doença/genética , Família Multigênica/genética , Doenças das Plantas/imunologia , Doenças das Plantas/microbiologia , Triticum/genética , Triticum/metabolismo , Triticum/microbiologia
2.
Chembiochem ; 23(6): e202100480, 2022 03 18.
Artigo em Inglês | MEDLINE | ID: mdl-34979058

RESUMO

4-Hydroxyphenylacetate 3-hydroxylase (4HPA3H), a flavin-dependent monooxygenase from E. coli that catalyzes the hydroxylation of monophenols to catechols, was modified by rational redesign to convert also more bulky substrates, especially phenolic natural products like phenylpropanoids, flavones or coumarins. Selected amino acid positions in the binding pocket of 4HPA3H were exchanged with residues from the homologous protein from Pseudomonas aeruginosa, yielding variants with improved conversion of spacious substrates such as the flavonoid naringenin or the alkaloid mimetic 2-hydroxycarbazole. Reactions were followed by an adapted Fe(III)-catechol chromogenic assay selective for the products. Especially substitution of the residue Y301 facilitated modulation of substrate specificity: introduction of nonaromatic but hydrophobic (iso)leucine resulted in the preference of the substrate ferulic acid (having a guaiacyl (guajacyl) moiety, part of the vanilloid motif) over unsubstituted monophenols. The in vivo (whole-cell biocatalysts) and in vitro (three-enzyme cascade) transformations of substrates by 4HPA3H and its optimized variants was strictly regiospecific and proceeded without generation of byproducts.


Assuntos
Oxigenases de Função Mista , Fenóis , Bactérias/metabolismo , Dinitrocresóis , Escherichia coli/metabolismo , Compostos Férricos , Flavinas/metabolismo , Hidroxilação , Cinética , Oxigenases de Função Mista/metabolismo , Fenóis/química
3.
Anal Biochem ; 445: 54-9, 2014 Jan 15.
Artigo em Inglês | MEDLINE | ID: mdl-24135656

RESUMO

A simple spectrophotometric microplate assay that allows quantification of the interaction between phospholipids and metal ions or other small cationic compounds has been developed. The assay is based on the competition of the phospholipids for the Fe(3+) ion in the purple-colored Fe(III)-γ-resorcylate complex and for other cations. To compare the binding affinities of several cation-phospholipid interactions, K0.5 values were derived from binding curves constructed by determination of the absorbance of the Fe(III)-γ-resorcylate at 490 nm as a function of the cation concentration. The assay was used to analyze the binding of lanthanide ions, calcium ions, and amines (hydrochlorides of ethanolamine, spermidine, and hexyltrimethylammonium chloride) to small unilamellar vesicles (SUVs) and mixed micelles containing anionic lipids such as phosphatidic acid and phosphatidyl-p-nitrophenol. The method was evaluated by fluorescence measurements with Eu(3+) ions as tracer. Lanthanide ions such as La(3+) and Ce(3+) ions showed K0.5 values smaller by one to two orders of magnitude compared with Ca(2+) ions. In the presence of increasing amounts of detergents such as Triton X-100, the method also reflected transitions from SUVs to micelles. The binding capacity for metal ions was higher for phospholipid-containing micelles than for the corresponding SUVs.


Assuntos
Complexos de Coordenação/química , Compostos Férricos/química , Fosfolipídeos/química , Espectrofotometria , Aminas/química , Ânions/química , Cálcio/química , Cátions/química , Európio/química , Cinética , Micelas , Nitrofenóis/química , Octoxinol/química , Lipossomas Unilamelares/química
4.
J Biotechnol ; 388: 72-82, 2024 Jun 10.
Artigo em Inglês | MEDLINE | ID: mdl-38616039

RESUMO

The 2-pyrone moiety is present in a wide range of structurally diverse natural products with various biological activities. The plant biosynthetic routes towards these compounds mainly depend on the activity of either type III polyketide synthase-like 2-pyrone synthases or hydroxylating 2-oxoglutarate dependent dioxygenases. In the present study, the substrate specificity of these enzymes is investigated by a systematic screening using both natural and artificial substrates with the aims of efficiently forming (new) products and understanding the underlying catalytic mechanisms. In this framework, we focused on the in vitro functional characterization of a 2-pyrone synthase Gh2PS2 from Gerbera x hybrida and two dioxygenases AtF6'H1 and AtF6'H2 from Arabidopsis thaliana using a set of twenty aromatic and aliphatic CoA esters as substrates. UHPLC-ESI-HRMSn based analyses of reaction intermediates and products revealed a broad substrate specificity of the enzymes, enabling the facile "green" synthesis of this important class of natural products and derivatives in a one-step/one-pot reaction in aqueous environment without the need for halogenated or metal reagents and protective groups. Using protein modeling and substrate docking we identified amino acid residues that seem to be important for the observed product scope.


Assuntos
Arabidopsis , Coenzima A , Ésteres , Pironas , Pironas/metabolismo , Pironas/química , Ésteres/química , Ésteres/metabolismo , Arabidopsis/enzimologia , Especificidade por Substrato , Coenzima A/metabolismo , Coenzima A/química , Simulação de Acoplamento Molecular , Produtos Biológicos/metabolismo , Produtos Biológicos/química , Dioxigenases/metabolismo , Dioxigenases/química
5.
Fungal Genet Biol ; 48(9): 921-7, 2011 Sep.
Artigo em Inglês | MEDLINE | ID: mdl-21683150

RESUMO

Armillaria ostoyae is a phytopathogen infecting coniferous trees. Fruiting bodies of this basidiomycete contain high phospholipase A(1) (PLA(1)) activity. In this paper, the role of phospholipid-deacylating activity, which was also detected in fruiting bodies of other basidiomycetes, in the fungal lipid metabolism is elucidated. For A. ostoyae the occurrence of PLA(1) activity is shown to be restricted to the late reproductive phase, correlating with the release of mature spores. Specific expression in the spore-producing tissue provides evidence for the involvement of PLA(1) in spore formation. Based on lipid analysis, the degradation of membrane phospholipids in this tissue can be ascribed mainly to PLA(1) activity because other enzymes such as phospholipases C and D, triglyceride lipase and phosphatidic acid phosphatase had only low activities. A concomitant increase in the concentration of fatty acids and their anabolites (di- and triglycerides), which are used as storage lipids in the developing fungal spore cells, was observed. Therefore, PLA(1) contributes to the formation of spores by providing membrane constituents as a source of fatty acids.


Assuntos
Armillaria/enzimologia , Armillaria/crescimento & desenvolvimento , Membrana Celular/metabolismo , Proteínas Fúngicas/metabolismo , Fosfolipases A/metabolismo , Fosfolipídeos/metabolismo , Esporos Fúngicos/metabolismo , Armillaria/genética , Armillaria/metabolismo , Transporte Biológico , Membrana Celular/genética , Ácidos Graxos/metabolismo , Proteínas Fúngicas/genética , Fosfolipases A/genética , Esporos Fúngicos/genética , Esporos Fúngicos/crescimento & desenvolvimento
6.
Anal Biochem ; 392(2): 169-73, 2009 Sep 15.
Artigo em Inglês | MEDLINE | ID: mdl-19497293

RESUMO

The ability of negatively charged phosphatidates to form complexes with Fe(3+) ions was used to design a simple spectrophotometric assay for the quantitative determination of phosphatidic acid (PA). In the reaction with the purple iron(III)-salicylate, PA extracts Fe(3+) ions and decreases the absorbance at 490 nm. Lower competition with salicylate for Fe(3+) ions was observed with single negatively charged phosphatidates such as phosphatidylglycerol (PG), whereas neutral phosphatidates such as phosphatidylcholine (PC) and phosphatidylethanolamine (PE) showed no influence on the absorbance of the iron(III) complex. The detection limit of the method on a microplate scale was 10 microM PA. Based on these results, an assay for determining the activity of phospholipase D (PLD) toward natural phospholipids such as PC, PE, and PG was developed. In contrast to other spectroscopic PLD assays, this method is able to determine PLD activity toward different lipids or even lipid mixtures.


Assuntos
Ferro/química , Ácidos Fosfatídicos/análise , Fosfolipase D/análise , Espectrofotometria/métodos , Brassica/enzimologia , Ácidos Fosfatídicos/química , Ácidos Fosfatídicos/metabolismo , Fosfolipase D/metabolismo , Fosfolipídeos/química , Fosfolipídeos/metabolismo , Salicilatos/química , Glycine max
7.
Phytochemistry ; 70(3): 361-5, 2009 Feb.
Artigo em Inglês | MEDLINE | ID: mdl-19251290

RESUMO

Phospholipase D (PLD) catalyzes the hydrolysis and transesterification of glycerophospholipids at the terminal phosphodiester bond. In many plants, several isoforms of PLD have been identified without knowing their functional differences. In this paper, the specificities of two PLD isoenzymes from white cabbage (Brassica oleracea var. capitata) and two ones from opium poppy (Papaver somniferum L.), which were recombinantly produced in Escherichia coli, were compared in the hydrolysis of phospholipids with different head groups and in the transphosphatidylation of phosphatiylcholine with several acceptor alcohols. In a biphasic reaction system, consisting of buffer and diethyl ether, the highly homologous isoenzymes are able to hydrolyze phosphatidylcholine, -glycerol, -ethanolamine, -inositol and - with one exception - also phosphatidylserine but with different individual reaction rates. In transphosphatidylation of phosphatidylcholine, they show significant differences in the rates of head group exchange but with the same trend in the preference of acceptor alcohols (ethanolamine>glycerol>>l-serine). For l- and d-serine a stereoselectivity of PLD was observed. The results suggest a physiological relevance of the different hydrolytic and transphosphatidylation activities in plant PLD isoenzymes.


Assuntos
Isoenzimas/metabolismo , Fosfolipase D/metabolismo , Fosfolipídeos/metabolismo , Proteínas de Plantas/metabolismo , Brassica/enzimologia , Papaver/enzimologia , Especificidade por Substrato
8.
Chem Phys Lipids ; 152(2): 71-7, 2008 Apr.
Artigo em Inglês | MEDLINE | ID: mdl-18302938

RESUMO

A series of new phospholipids with polar head groups have been synthesized by enzymatic transphosphatidylation of 1,2-dioleoyl-sn-glycerophosphocholine and identified by 1H NMR and MALDI-TOF-MS. The acceptor alcohols were N- or C2-substituted derivatives of ethanolamine (diethanolamine, triethanolamine, serinol, Tris, BisTris). Phospholipases D from cabbage (PLDcab) and Streptomyces sp. (PLDStr) were compared with respect to product yield and purity as well as the initial rates in transphosphatidylation and competing hydrolysis. In all reactions, PLDStr showed a remarkably higher transphosphatidylation activity than PLDcab. However, higher yields of the phospholipids with diethanolamine, triethanolamine, and serinol were obtained by PLDcab because PLDStr resulted in the additional formation of diphosphatidyl derivatives. In the synthesis of the Tris and BisTris derivatives, PLD(Str) was much more appropriate because voluminous head group alcohols (>129A3) are poorly converted by PLDcab. With BisTris as acceptor alcohol two regioisomeric forms of phosphatidyl-BisTris were obtained.


Assuntos
Brassica/enzimologia , Fosfolipase D/química , Fosfolipídeos/química , Streptomyces/enzimologia , Álcoois/química , Cromatografia Líquida de Alta Pressão , Etanolaminas/química , Hidrólise , Cinética , Espectroscopia de Ressonância Magnética/métodos , Modelos Químicos , Propanolaminas , Propilenoglicóis/química , Espectrometria de Massas por Ionização e Dessorção a Laser Assistida por Matriz/métodos , Trometamina/análogos & derivados , Trometamina/química
9.
Curr Opin Chem Biol ; 17(2): 229-35, 2013 Apr.
Artigo em Inglês | MEDLINE | ID: mdl-23518239

RESUMO

Chemospecific and regiospecific modifications of natural products by methyl, prenyl, or C-glycosyl moieties are a challenging and cumbersome task in organic synthesis. Because of the availability of an increasing number of stable and selective transferases and cofactor regeneration processes, enzyme-assisted strategies turn out to be promising alternatives to classical synthesis. Two categories of alkylating enzymes become increasingly relevant for applications: firstly prenyltransferases and terpene synthases (including terpene cyclases), which are used in the production of terpenoids such as artemisinin, or meroterpenoids like alkylated phenolics and indoles, and secondly methyltransferases, which modify flavonoids and alkaloids to yield products with a specific methylation pattern such as 7-O-methylaromadendrin and scopolamine.


Assuntos
Alquil e Aril Transferases/química , Alquil e Aril Transferases/metabolismo , Metiltransferases/química , Metiltransferases/metabolismo , Alquilação , Proteínas de Plantas/química , Proteínas de Plantas/metabolismo , Plantas/enzimologia
10.
Chem Phys Lipids ; 165(7): 787-93, 2012 Oct.
Artigo em Inglês | MEDLINE | ID: mdl-23059117

RESUMO

Cardiolipin (CL) and related diphosphatidyl lipids are hardly accessible because of the complexity of their chemical synthesis. In the present paper, the transphosphatidylation reaction catalyzed by phospholipase D (PLD) from Streptomyces sp. has been proven as an alternative enzyme-assisted strategy for the synthesis of new CL analogs. The formation of this type of compounds from phosphatidylcholine was compared for a series of N- and C2-substituted ethanolamine derivatives as well as non-charged alcohols such as glycerol and ethylene glycol. The rapid exchange of the choline head group by ethanolamine derivatives having a low molecular volume (diethanolamine and serinol) gave rise to an efficient production of the corresponding CL analogs. In contrast, the yields were comparably low in the reaction with bulky nitrogenous acceptor alcohols (triethanolamine, tris(hydroxymethyl)aminomethane, tetrakis(hydroxyethyl)ammonium) or the non-charged alcohols. Therefore, a strong dependence of the conversion of the monophosphatidyl to the diphosphatidyl compound on steric parameters and the head group charge was concluded. The enzyme-assisted strategy was used for the preparation of purified diphosphatidyldiethanolamine and diphosphatidylserinol.


Assuntos
Cardiolipinas/química , Fosfatidiletanolaminas/síntese química , Fosfatidilserinas/síntese química , Fosfolipase D/química , Catálise , Estrutura Molecular , Fosfatidiletanolaminas/química , Fosfatidilserinas/química , Espectrometria de Massas por Ionização por Electrospray , Espectroscopia de Infravermelho com Transformada de Fourier , Streptomyces/enzimologia
11.
New Phytol ; 177(1): 114-127, 2008.
Artigo em Inglês | MEDLINE | ID: mdl-17995915

RESUMO

In potato 12-hydroxyjasmonic acid (12-OH-JA) is a tuber-inducing compound. Here, it is demonstrated that 12-OH-JA, as well as its sulfated and glucosylated derivatives, are constituents of various organs of many plant species. All accumulate differentially and usually to much higher concentrations than jasmonic acid (JA). In wounded tomato leaves, 12-OH-JA and its sulfated, as well as glucosylated, derivative accumulate after JA, and their diminished accumulation in wounded leaves of the JA-deficient mutants spr2 and acx1 and also a JA-deficient 35S::AOCantisense line suggest their JA-dependent formation. To elucidate how signaling properties of JA/JAME (jasmonic acid methyl ester) are affected by hydroxylation and sulfation, germination and root growth were recorded in the presence of the different jasmonates, indicating that 12-OH-JA and 12-hydroxyjasmonic acid sulfate (12-HSO(4)-JA) were not bioactive. Expression analyses for 29 genes showed that expression of wound-inducible genes such as those coding for PROTEINASE INHIBITOR2, POLYPHENOL OXIDASE, THREONINE DEAMINASE or ARGINASE was induced by JAME and less induced or even down-regulated by 12-OH-JA and 12-HSO(4)-JA. Almost all genes coding for enzymes in JA biosynthesis were up-regulated by JAME but down-regulated by 12-OH-JA and 12-HSO(4)-JA. The data suggest that wound-induced metabolic conversion of JA/JAME into 12-OH-JA alters expression pattern of genes including a switch off in JA signaling for a subset of genes.


Assuntos
Ciclopentanos/química , Ciclopentanos/metabolismo , Oxilipinas/química , Oxilipinas/metabolismo , Transdução de Sinais/fisiologia , Ciclopentanos/farmacologia , Germinação/efeitos dos fármacos , Hidroxilação , Solanum lycopersicum/genética , Solanum lycopersicum/metabolismo , Estrutura Molecular , Oxilipinas/farmacologia , Proteínas de Plantas , Raízes de Plantas/efeitos dos fármacos , Sementes/efeitos dos fármacos , Fatores de Tempo
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