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1.
Biotechnol Appl Biochem ; 66(4): 484-493, 2019 Jul.
Artigo em Inglês | MEDLINE | ID: mdl-26498482

RESUMO

Isoflavonoid representatives such as genistein and daidzein are highly potent anticancer, antibacterial, and antioxidant agents. It have been demonstrated that methylation of flavonoids enhanced the transporting ability, which lead to facilitated absorption and greatly increased bioavailability. In this paper, genetically engineered Escherichia coli was reconstructed by harboring E. coli K12-derived metK encoding S-adenosine-l-methionine (SAM) synthase (accession number: K02129) for enhancement of SAM as a precursor and Streptomyces avermitilis originated SaOMT2 (O-methyltransferase, accession number: NP_823558) for methylation of daidzein and genistein as preferred substrates. The formation of desired products via biotransformation including 4'-O-methyl-genistein and 4'-O-methyl-daidzein was confirmed individually by using chromatographical methods such as high-performance liquid chromatography, liquid chromatography/time-of-flight/mass spectrometry (LC-TOF-MS), and nuclear magnetic resonance (NMR), and NMR (1 H and 13 C). Furthermore, substrates concentration, incubation time, and media parameters were optimized using flask culture. Finally, the most fit conditions were applied for fed-batch fermentation with scale-up to 3 L (working volume) to obtain the maximum yield of the products including 164.25 µM (46.81 mg/L) and 382.50 µM (102.88 mg/L) for 4'-O-methyl genistein and 4'-O-methyl daidzein, respectively. In particular, potent inhibitory activities of those isoflavonoid methoxides against the growth of cancer line (B16F10, AGS, and HepG2) and human umbilical vein endothelial cells were investigated and demonstrated. Taken together, this research work described the production of isoflavonoid-4'-O-methoxides by E. coli engineering, improvement of production, characterization of produced compounds, and preliminary in vitro biological activities of the flavonoids being manufactured.


Assuntos
Antineoplásicos/metabolismo , Antineoplásicos/farmacologia , Escherichia coli/metabolismo , Isoflavonas/biossíntese , Isoflavonas/farmacologia , Engenharia Metabólica , Metanol/farmacologia , Antineoplásicos/química , Proliferação de Células/efeitos dos fármacos , Relação Dose-Resposta a Droga , Ensaios de Seleção de Medicamentos Antitumorais , Escherichia coli/química , Células Endoteliais da Veia Umbilical Humana/efeitos dos fármacos , Humanos , Isoflavonas/química , Metanol/química , Metanol/metabolismo , Estrutura Molecular , Relação Estrutura-Atividade , Células Tumorais Cultivadas
2.
World J Microbiol Biotechnol ; 31(4): 611-9, 2015 Apr.
Artigo em Inglês | MEDLINE | ID: mdl-25663173

RESUMO

Glycosyltransferase from Bacillus licheniformis DSM13 (YjiC) was used for enzymatic modification of emodin and aloe-emodin in vitro and in vivo. In order to increase the availability of UDP-glucose, three genes involved in the production of precursors of NDP-sugar in Escherichia coli BL21 (DE3) viz. D-glucose phosphate isomerase (pgi), D-glucose-6-phosphate dehydrogenase (zwf), and UDP-sugar hydrolase (ushA) were deleted and glucose-1-phosphate urididyltransferase (galU) gene was over expressed. To improve the yield of the products; substrate, time and media parameters were optimized, and the production was scaled up using a 3 L fermentor. The maximum yield of glycosylated products of emodin (emodin-O-ß-D-glucoside) and aloe-emodin (aloe-emodin-O-ß-D-glucoside) were approximately 144 µM (38 mg/L) and 168 µM (45 mg/L) respectively, representing almost 72 % and 84 % bioconversion of emodin and aloe-emodin when 200 µM of emodin and aloe-emodin were supplemented in the culture. Additionally, the emodin and aloe emodin major glycosylated products exhibited the highest stability at pH 8.0 and the stability of products was up to 70 °C and 60 °C respectively. Furthermore, the biological activities of emodin and its major glucoside (P1) were compared and their anti-cancer activities were assayed in several cancer cell lines. The results demonstrate that YjiC has the capacity to catalyze the glycosylation of these aromatic compounds and that glycosylation of anthraquinones enhances their aqueous solubility while retaining their biological activities.


Assuntos
Antraquinonas/metabolismo , Emodina/metabolismo , Escherichia coli/genética , Escherichia coli/metabolismo , Engenharia Metabólica , Aloe/metabolismo , Glicosilação
3.
Glycoconj J ; 31(8): 563-72, 2014 Nov.
Artigo em Inglês | MEDLINE | ID: mdl-25069899

RESUMO

Mupirocin is a commercially available antibiotic that acts on bacterial isoleucyl-tRNA synthetase, thereby inhibiting protein synthesis and preventing bacterial infection. An in vitro glycosylation approach was applied to synthesize glycoside derivatives of mupirocin using different NDP-sugars and glycosyltransferase from Bacillus licheniformis. Ultra pressure liquid chromatography-photo diode array analyses of the reaction mixtures revealed the generation of product peak(s). The results were further supported by high-resolution quadruple time of flight electrospray ionization mass spectrometry analyses. The product purified from the reaction mixture with UDP-D-glucose was subjected to NMR analysis, and the structure was determined to be mupirocin 6-O-ß-D-glucoside. Other glycoside analogs of mupirocin were determined based on high-resolution mass analyses. Antibacterial activity assays against Staphylococcus aureus demonstrated complete loss of antibacterial activity after glucosylation of mupirocin at the 6-hydroxyl position.


Assuntos
Antibacterianos/metabolismo , Glicosiltransferases/metabolismo , Mupirocina/metabolismo , Administração Tópica , Antibacterianos/química , Antibacterianos/farmacologia , Biocatálise/efeitos dos fármacos , Cromatografia Líquida de Alta Pressão , Glucosídeos/metabolismo , Glicoconjugados/metabolismo , Glicosilação/efeitos dos fármacos , Glicosiltransferases/isolamento & purificação , Concentração de Íons de Hidrogênio , Testes de Sensibilidade Microbiana , Mupirocina/química , Mupirocina/farmacologia , Espectroscopia de Prótons por Ressonância Magnética , Espectrometria de Massas por Ionização por Electrospray , Fatores de Tempo
4.
Appl Environ Microbiol ; 75(22): 7291-3, 2009 Nov.
Artigo em Inglês | MEDLINE | ID: mdl-19767465

RESUMO

Putative hopanoid genes from Streptomyces peucetius were introduced into Escherichia coli to improve the production of squalene, an industrially important compound. High expression of hopA and hopB (encoding squalene/phytoene synthases) together with hopD (encoding farnesyl diphosphate synthase) yielded 4.1 mg/liter of squalene. This level was elevated to 11.8 mg/liter when there was also increased expression of dxs and idi, E. coli genes encoding 1-deoxy-d-xylulose 5-phosphate synthase and isopentenyl diphosphate isomerase.


Assuntos
Biotecnologia , Escherichia coli/genética , Regulação Bacteriana da Expressão Gênica , Esqualeno/metabolismo , Streptomyces/genética , Alquil e Aril Transferases/genética , Alquil e Aril Transferases/metabolismo , Proteínas de Bactérias/genética , Proteínas de Bactérias/metabolismo , Isomerases de Ligação Dupla Carbono-Carbono/genética , Isomerases de Ligação Dupla Carbono-Carbono/metabolismo , Escherichia coli/enzimologia , Escherichia coli/metabolismo , Proteínas de Escherichia coli/genética , Proteínas de Escherichia coli/metabolismo , Farnesil-Difosfato Farnesiltransferase/genética , Farnesil-Difosfato Farnesiltransferase/metabolismo , Geranil-Geranildifosfato Geranil-Geraniltransferase , Geraniltranstransferase/genética , Geraniltranstransferase/metabolismo , Hemiterpenos , Dados de Sequência Molecular , Esqualeno/química , Esqualeno/isolamento & purificação , Transferases/genética , Transferases/metabolismo
5.
Biotechnol Lett ; 31(4): 565-9, 2009 Apr.
Artigo em Inglês | MEDLINE | ID: mdl-19116691

RESUMO

Squalene-hopene cyclase, which catalyzes the complex cyclization of squalene to the pentacyclic triterpene, hopene, is a key enzyme in the biosynthesis of hopanoids. The deduced amino acid sequence of the Streptomyces peucetius gene (spterp25) had significant similarity to other prokaryotic squalene-hopene cyclases. Like other triterpene cyclases, the S. peucetius squalene-hopene cyclase contains eight so-called QW-motifs with an aspartate-rich domain. The 2,025-bp squalene-hopene cyclase-encoding gene was expressed in Escherichia coli BL21(DE3)pLySs, and the in vitro activity of the recombinant cyclase was demonstrated using purified membrane protein. The cyclization product hopene was identified by gas chromatography/mass spectrometry (GC/MS).


Assuntos
Proteínas de Bactérias/genética , Proteínas de Bactérias/metabolismo , Transferases Intramoleculares/genética , Transferases Intramoleculares/metabolismo , Streptomyces/enzimologia , Motivos de Aminoácidos , Sequência de Aminoácidos , Proteínas de Bactérias/isolamento & purificação , Clonagem Molecular , DNA Bacteriano/química , DNA Bacteriano/genética , Escherichia coli/genética , Cromatografia Gasosa-Espectrometria de Massas , Transferases Intramoleculares/isolamento & purificação , Dados de Sequência Molecular , Estrutura Molecular , Proteínas Recombinantes/genética , Proteínas Recombinantes/isolamento & purificação , Proteínas Recombinantes/metabolismo , Análise de Sequência de DNA , Homologia de Sequência de Aminoácidos , Esqualeno/metabolismo , Triterpenos/metabolismo
6.
Mol Cells ; 26(4): 362-7, 2008 Oct 31.
Artigo em Inglês | MEDLINE | ID: mdl-18612244

RESUMO

We identified a 1,134-bp putative type III polyketide synthase from the sequence analysis of Streptomyces peucetius ATCC 27952, named Sp-RppA, which is characterized as 1,3,6,8-tetrahydroxynaphthalene synthase and shares 33% identity with SCO1206 from S. coelicolor A3(2) and 32% identity with RppA from S. griseus. The 1,3,6,8-tetrahydroxynaphthalene synthase is known to catalyze the sequential decarboxylative condensation, intramolecular cyclization, and aromatization of an oligoketide derived from five units of malonyl-CoA to give 1,3,6,8-tetrahydroxynaphthalene, which spontaneously oxidizes to form 2,5,7-trihydroxy-1,4-naphthoquinone (flaviolin). In this study, we report the in vivo expression and in vitro synthesis of flaviolin from purified gene product (Sp-RppA).


Assuntos
Aciltransferases/isolamento & purificação , Streptomyces/enzimologia , Aciltransferases/química , Sequência de Aminoácidos , Cromatografia Líquida de Alta Pressão , Eletroforese em Gel de Poliacrilamida , Dados de Sequência Molecular , Naftóis/química , Naftoquinonas/química , Fenótipo , Alinhamento de Sequência , Análise de Sequência de Proteína , Espectrometria de Massas por Ionização por Electrospray
7.
J Microbiol Biotechnol ; 18(7): 1216-20, 2008 Jul.
Artigo em Inglês | MEDLINE | ID: mdl-18667848

RESUMO

Sequence analysis of the metabolically rich genome of Streptomyces peucetius ATCC 27952 revealed a 2,199 bp sesquiterpene alcohol (germacradienol) synthase-encoding gene from the germacradienol synthase/terpene cyclase gene cluster. The gene was named spterp13, and its putative function is as a germacradienol synthase/terpene cyclase. The amino acid sequence of Spterp13 shows 66% identity with SAV2163 (GeoA) from S. avermitilis MA- 4680 and 65% identity with SCO6073 from S. coelicolor A3(2), which produces germacradienol/geosmin. The fulllength recombinant protein was heterologously expressed as a his-tagged fusion protein in Escherichia coli, purified, and shown to catalyze the Mg2+-dependent conversion of farnesyl diphosphate to the germacradienol, which was verified by gas chromatography/mass spectrometry.


Assuntos
Proteínas de Bactérias/química , Proteínas de Bactérias/genética , Clonagem Molecular , Naftóis/metabolismo , Streptomyces/enzimologia , Sequência de Aminoácidos , Proteínas de Bactérias/isolamento & purificação , Proteínas de Bactérias/metabolismo , Escherichia coli/genética , Escherichia coli/metabolismo , Expressão Gênica , Dados de Sequência Molecular , Peso Molecular , Filogenia , Proteínas Recombinantes/química , Proteínas Recombinantes/genética , Proteínas Recombinantes/isolamento & purificação , Proteínas Recombinantes/metabolismo , Alinhamento de Sequência , Streptomyces/química , Streptomyces/classificação , Streptomyces/genética
8.
J Microbiol Biotechnol ; 26(3): 441-51, 2016 Mar.
Artigo em Inglês | MEDLINE | ID: mdl-26643964

RESUMO

Squalene is a linear triterpene formed via the MVA or MEP biosynthetic pathway and is widely distributed in bacteria, fungi, algae, plants, and animals. Metabolically, squalene is used not only as a precursor in the synthesis of complex secondary metabolites such as sterols, hormones, and vitamins, but also as a carbon source in aerobic and anaerobic fermentation in microorganisms. Owing to the increasing roles of squalene as an antioxidant, anticancer, and anti-inflammatory agent, the demand for this chemical is highly urgent. As a result, with the exception of traditional methods of the isolation of squalene from animals (shark liver oil) and plants, biotechnological methods using microorganisms as producers have afforded increased yield and productivity, but a reduction in progress. In this paper, we first review the biosynthetic routes of squalene and its typical derivatives, particularly the squalene synthase route. Second, typical biotechnological methods for the enhanced production of squalene using microbial cell factories are summarized and classified. Finally, the outline and discussion of the novel trend in the production of squalene with several updated events to 2015 are presented.


Assuntos
Bactérias/metabolismo , Fungos/metabolismo , Microbiologia Industrial/tendências , Esqualeno/metabolismo , Bactérias/genética , Vias Biossintéticas , Fungos/genética , Esqualeno/química
9.
Enzyme Microb Technol ; 86: 103-16, 2016 May.
Artigo em Inglês | MEDLINE | ID: mdl-26992799

RESUMO

Among the natural products, flavonoids have been particularly attractive, highly studied and become one of the most important promising agent to treat cancer, oxidant stress, pathogenic bacteria, inflammations, cardio-vascular dysfunctions, etc. Despite many promising roles of flavonoids, expectations have not been fulfilled when studies were extended to the in vivo condition, particularly in humans. Instability and very low oral bioavailability of dietary flavonoids are the reasons behind this. Researches have demonstrated that the methylation of these flavonoids could increase their promise as pharmaceutical agents leading to novel applications. Methylation of the flavonoids via theirs free hydroxyl groups or C atom dramatically increases their metabolic stability and enhances the membrane transport, leading to facilitated absorption and highly increased oral bioavailability. In this paper, we concentrated on analysis of flavonoid methoxides including O- and C-methoxide derivatives in aspect of structure, bioactivities and description of almost all up-to-date O- and C-methyltransferases' enzymatic characteristics. Furthermore, modern biological approaches for synthesis and production of flavonoid methoxides using metabolic engineering and synthetic biology have been focused and updated up to 2015. This review will give a handful information regarding the methylation of flavonoids, methyltransferases and biotechnological synthesis of the same.


Assuntos
Flavonoides/química , Flavonoides/farmacologia , Disponibilidade Biológica , Biotecnologia , Flavonoides/farmacocinética , Humanos , Metilação , Metiltransferases/metabolismo , Relação Estrutura-Atividade
10.
J Microbiol Biotechnol ; 25(5): 658-61, 2015 May.
Artigo em Inglês | MEDLINE | ID: mdl-25406531

RESUMO

Genes encoding enzymes with sequence similarity to hopanoids biosynthetic enzymes of other organisms were cloned from the hopanoid (hop) gene cluster of Streptomyces peucetius ATCC 27952 and transformed into Streptomyces venezuelae YJ028. The cloned fragments contained four genes, all transcribed in one direction. These genes encode polypeptides that resemble polyprenyl diphosphate synthase (hopD), squalene-phytoene synthases (hopAB), and squalenehopene cyclase (hopE). These enzymes are sufficient for the formation of the pentacyclic triterpenoid lipid, hopene. The formation of hopene was verified by gas chromatography/ mass spectrometry.


Assuntos
Genes Bacterianos/genética , Família Multigênica/genética , Streptomyces/genética , Triterpenos/metabolismo , Clonagem Molecular , Proteínas Recombinantes/genética , Proteínas Recombinantes/metabolismo , Streptomyces/metabolismo
11.
Microbiol Res ; 174: 9-16, 2015 May.
Artigo em Inglês | MEDLINE | ID: mdl-25946324

RESUMO

Pradimicins are potent antifungal antibiotics with effective inhibitory effects against HIV-1. Pradimicin A consists of an unusual dihydrobenzo[α]naphthacenequinone aglycone substituted with a combination of D-alanine and two sugar moieties. Detailed genetic studies revealed most steps in pradimicin A biosynthesis, but the glycosylation mechanism remained inconclusive. The biosynthetic gene cluster of pradimicin A contains two putative glycosyltransferases, pdmQ and pdmS. However, the exact involvement of each gene in biosynthesis and the particular steps required for precise structural modification was unknown. In this study, the exact role of each gene was evaluated by insertional inactivation and complementation studies. Analysis of the metabolite from both of the disruption mutants revealed abolishment of pradimicin A and complementation resulted in the recovery of production. After deletion of pdmQ, pradimicin B was found to accumulate, whereas deletion of pdmS resulted in the accumulation of aglycone of pradimicin. Together, these results suggest that pdmS is responsible for the attachment of thomosamine to form pradimicin B which in turn is glycosylated by pdmQ to form pradimicin A. These results allowed us to deduce the exact order of terminal tailoring by glycosylation and provided insight into the mechanism of pradimicin A biosynthesis.


Assuntos
Actinobacteria/enzimologia , Actinobacteria/metabolismo , Antraciclinas/metabolismo , Anti-Infecciosos/metabolismo , Vias Biossintéticas/genética , Glicosiltransferases/metabolismo , Actinobacteria/genética , Deleção de Genes , Teste de Complementação Genética , Glicosilação , Glicosiltransferases/genética , Mutagênese Insercional
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