Screening of Filamentous Fungi to Identify Biocatalysts for Lupeol Biotransformation

Carvalho, Tiago; Polizeli, Aline Moraes; Turatti, Izabel Cristina Casanova; Severiano, Marcela E.; Carvalho, Carlos Egydio de; Ambrósio, Sérgio Ricardo; Crotti, Antônio Eduardo Miller; Figueiredo, Uir Santana de; Vieira, Paulo C.; Furtado, Niege Araçari Jacometti Cardoso

doi:10.3390/molecules15096140

Cited by 31 publications

(16 citation statements)

References 41 publications

(39 reference statements)

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“…20 For lupeol and diploptene, spectral data contributed significantly to their characterization through detection of molecular ions (m/z 426 and m/z 410, respectively) and base peaks (m/z 191 and m/z 218, respectively). 21,22 Besides these, other characteristic fragments are shown in figure 7. Paula et al 14 In the mass spectra of kaur-16-ene, it was observed a molecular ion peak (m/z 272), compatible with the molecular formula C20H32.…”

Section: Resultsmentioning

confidence: 99%

Chemical Constituents of Non-Polar Fractions Obtained from Cnidoscolus quercifolius Pohl (Euphorbiaceae), a Medicinal Plant Native from the Brazilian Caatinga Biome

Oliveira-Júnior¹,

Ferraz²,

Oliveira³

et al. 2019

Rev. Virtual Quim.

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http://rvq.sbq.org.br Constituintes Químicos de Frações Não-Polares Obtidas de Cnidoscolus quercifolius Pohl (Euphorbiaceae), uma Planta Medicinal Nativa do Bioma Caatinga Brasileiro Resumo: Cnidoscolus quercifoliusPohl é uma planta medicinal do Brasil, nativa do bioma Caatinga, que apresenta diversas propriedades farmacológicas. Nesse estudo, nós descrevemos a identificação de compostos de frações não-polares obtidas das folhas (Hex-Le) e cascas do caule (Hex-Sb) da espécie. As análises químicas foram realizadas por CG-EM. Os constituintes químicos foram identificados com base nos dados espectrais obtidos e por comparação com os dados da literatura. O perfil de fragmentação dos principais compostos identificados também foi proposto e é igualmente apresentado nesse trabalho. Hidrocarbonetos (46,84 %), triterpenos (32,60 %) e derivados de carotenoides (0,83 %) foram considerados os constituintes majoritários de Hex-Le. Em contraste, hidrocarbonetos (41,89 %), diterpenos (12,83 %) e triterpenos (7,0 %) foram encontrados em Hex-Sb. Quatro diterpenos (deidroabietano, sandaracopimaradieno, caur-16-eno e 13-metil-17-norcaur-15-eno) e um triterpeno (diplopteno) são relatados pela primeira vez no gênero Cnidoscolus.

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Section: Resultsmentioning

confidence: 99%

Chemical Constituents of Non-Polar Fractions Obtained from Cnidoscolus quercifolius Pohl (Euphorbiaceae), a Medicinal Plant Native from the Brazilian Caatinga Biome

Oliveira-Júnior¹,

Ferraz²,

Oliveira³

et al. 2019

Rev. Virtual Quim.

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“…Modification of the triterpenoid structure may produce potentially new and interesting derivatives. Synthetic approaches can be used, but biotransformation processes have been used in order to target positions which are more difficult to functionalize using chemical methods (Carvalho et al 2010).…”

Section: R=hmentioning

confidence: 99%

Terpenoid biotransformations by Mucor species

et al. 2013

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Terpenoids are natural products of great interest due to their widespread use in agrochemicals, drugs, fragrances, flavouring and pigments. Biocatalysts are increasingly being used in the search for new derivatives with improved properties especially to obtain structurally novel leads for new drugs which are difficult to obtain using conventional organic chemical methods. This review, covering up to the end of 2012, reports on the application of Mucor species as catalysts in terpenoid biotransformation to obtain new drug targets, enhance pharmacological activity or decrease the unwanted effects of starting material.

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“…Research on production of bioactive compounds through fungi biotransformation had been a hot point in biomedicine field [8][9][10][11][12]. However, to our knowledge, there were very few reports on screening of microorganism of highly efficient biotransformation of dioscin to diosgenin and no reports on direct biotransformation of RDZ, which was simple and more practical.…”

Section: Introductionmentioning

confidence: 99%

Direct Biotransformation of Dioscin into Diosgenin in Rhizome of Dioscorea zingiberensis by Penicillium dioscin

Dong

Lei

et al. 2014

Indian J Microbiol

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Diosgenin is an important precursor for synthesis of more than 200 steroidal hormone medicines. Rhizome of Dioscorea zingiberensis C. H. Wright (RDZ) contained the highest content of diosgenin in Dioscorea plant species. Diosgenin is traditionally extracted by acid hydrolysis from RDZ. However, the acid hydrolysis process produces massive wastewater which caused serious environment pollution. In this study, diosgenin extraction by direct biotransformation with Penicillium dioscin was investigated. The spawn cultivation conditions were optimized as: Czapeks liquid culture medium without sugar and agar (1,000 ml) ? 6.0 g dioscin/ 6.0 g DL, 30°C, 36 h; solid fermentation of RDZ: mycelia/ RDZ of 0.05 g/kg, 30°C, 50 h; the yield of diosgenin was over 90 %. Spawn cultivation was crucial for the direct biotransformation. In the spawn cultivation, amount and ratio of dioscin/DL were the key factors to promote biotransformation activity of P. dioscin. This biotransformation method was environment-friendly, simple and energy saving, and might be a potential substitute for acid hydrolysis in diosgenin extraction industry.

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Screening of Filamentous Fungi to Identify Biocatalysts for Lupeol Biotransformation

Cited by 31 publications

References 41 publications

Chemical Constituents of Non-Polar Fractions Obtained from Cnidoscolus quercifolius Pohl (Euphorbiaceae), a Medicinal Plant Native from the Brazilian Caatinga Biome

Chemical Constituents of Non-Polar Fractions Obtained from Cnidoscolus quercifolius Pohl (Euphorbiaceae), a Medicinal Plant Native from the Brazilian Caatinga Biome

Terpenoid biotransformations by Mucor species

Direct Biotransformation of Dioscin into Diosgenin in Rhizome of Dioscorea zingiberensis by Penicillium dioscin

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