Olfactory response of <i>Trichogramma pretiosum</i> (Hymenoptera: Trichogrammatidae) to volatiles induced by transgenic maize

Nascimento, P. T.; Fadini, Marcos Antonio Matiello; Rocha, M. S.; Souza, C. S. F.; Melo, Júlio Onésio Ferreira; Pinho, Renzo Garcia Von; Valicente, F. H.

doi:10.1017/s0007485321000341

Cited by 7 publications

(4 citation statements)

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“…et al, 2021. As vantagens desse método de extração estão associadas ao seu baixo custo analítico, simplicidade, ausência de solventes e pela alta capacidade de adsorção de diferentes classes de compostos resultante dos diversos tipos de revestimentos das fibras SPME e podendo ser empregado para analisar matrizes complexas como acerola (GARCÍA et al, 2019), cagaita (RODRIGUES et al, 2021SILVA et al, 2019;SILVA et al, 2020;), callistemo (OLIVEIRA JÚNIOR, 2020, cambuí (GARCÍA et al, 2021), cerveja (PEREIRA et al 2021), grumixama (RAMOS et al, 2020RAMOS et al, 2021), kiwi (ASSUNÇÃO et al, 2020, manga (RAMOS, et al, 2021a, RAMOS et al, 2021b, milho (BOTTI et al, 2019;FRANZIN et al, 2020;NASCIMENTO, P. T. et al, 2021), pequi (SANTOS et al, 2020), pera do cerrado (MARIANO et al, 2020), soja (ROCHA. et al, 2019;BUENO et al, 2021), uva (MAZZINGHY, A. C. et al, 2021VIANA et al, 2018).…”

Section: Introductionunclassified

Análise comparativa do perfil de compostos orgânicos voláteis de pimenta rosa e de aroeira do sertão

Figueiredo

Bueno

Melo

et al. 2021

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A Schinus terebinthifolius Raddi, e Myracrodruon urundeuva Fr. Allem, são dois gêneros pertencentes à família das Anacardiáceas, sendo conhecidas respectivamente, como pimenta rosa, e aroeira do sertão. São nativas do Brasil, e amplamente disseminadas desde a caatinga no Nordeste, ao cerrado do Centro-Oeste e Sudeste. Ambas são amplamente conhecidas principalmente pelo uso medicinal no meio rural e indígena. A “pimenta rosa” e “aroeira do sertão” são usadas no tratamento de infecções cutâneas, urinárias, ginecológicos, e problemas respiratórios. O objetivo desse trabalho foi de investigar o perfil químico dos compostos orgânicos voláteis (COV’s) presentes na pimenta rosa e aroeira do sertão. Utilizou-se o método de microextração em fase sólida em modo headspace (HS-SPME), empregando a fibra, polidimetilsiloxano-divinilbenzeno (PDMS/DVB) para a extração dos COVs. Na extração dos compostos voláteis foram empregados 2g das sementes de cada amostra, previamente triturados em um moinho analítico, e colocados em frasco de headspace de 20 ml. A adsorção dos compostos foi realizada a uma temperatura de 60ºC, por 20 minutos, com a fibra PDMS/DVB exposta, após a extração, a dessorção foi realizada no injetor do cromatógrafo a gás acoplado à espectrometria de massas (CG-MS), onde a fibra ficou exposta por 5 minutos. A identificação dos COVs foi realizada por meio da comparação dos espectros de massa obtidos com os dados da biblioteca NIST. Foram encontrados 26 compostos orgânicos voláteis (COV’s) nas amostras de aroeira e pimenta rosa, classificados entre monoterpenos e sesquiterpenos, ácidos e cetonas. O β-pineno e o cariofileno foram identificados nas duas amostras. Na aroeira do sertão foi identificado 11 COV’s, sendo, o trans-geraniliacetona, limoneno, e o 1R-α-pineno, com maiores concentrações. Na pimenta rosa por sua vez, apresentaram as maiores concentrações respectivamente o 3-careno, β-guaieno e o isopseudocumenol, entre os 17 COV’s identificados.

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Section: Introductionunclassified

Análise comparativa do perfil de compostos orgânicos voláteis de pimenta rosa e de aroeira do sertão

Figueiredo

Bueno

Melo

et al. 2021

INTER

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“…This method, developed by Arthur and Pawliszyn (1990), uses the principle of "green chemistry", since it requires a small amount of sample and does not use organic solvents, and can be used direct extraction mode or in headspace mode (HS-SPME). A great advantage of HS-SPME is its high capacity for adsorption of different classes of compounds, duo to the diversity of applicable coatings of SPME fibers, and it can be used to analyze complex matrices such as acerola, cagaita, callistemon, cambuí, beer, grumixama, pequi, corn, as well as spices such as black pepper and pink pepper, species which will be analyzed in this work (Franzin et al, 2020;Figueiredo et al, 2021;Srinivasan, 2008;García et al, 2019;Rodrigues et al, 2021;Silva et al, 2019;Silva et al, 2020;Oliveira Júnior, 2020;García et al, 2021;Pereira et al 2021;Ramos et al, 2020;Assunção et al, 2020;Ramos, et al, 2021a;Ramos et al, 2021b;Botti et al, 2019;Nascimento et al, 2021a;Nascimento et al, 2021b;Santos et al, 2020;Mariano et al, 2020;Rocha et al, 2019;Bueno et al, 2021;Mazzinghy et al, 2021;Viana et al, 2018).…”

Section: Introductionmentioning

confidence: 99%

Profile of the volatile organic compounds of pink pepper and black pepper

et al. 2021

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Black pepper (Piper nigrum L.) and pink pepper (Schinus terebinthifolius Raddi) are two plant-based spices, which despite having a common popular name, have a botanical family and distinct centers of origin. Its fruits are known worldwide in cuisine as condiments; in addition, the extraction of essential oil from these species is interesting from a pharmacological and industrial perspective. In this sense, the present study aimed to analyze the chemical profile of volatile organic compounds (VOC's) present in black pepper and pink pepper. The solid phase microextraction method in headspace mode (HS-SPME) was used, using the fiber, polydimethylsiloxane-divinylbenzene (PDMS/DVB) for the extraction of VOCs. In the extraction of volatile compounds, 2g of the seeds of each sample were used, previously ground in an analytical mill, and placed in a 20 ml headspace flask. The adsorption of the compounds was carried out at a temperature of 60ºC, for 20 minutes, with the exposed PDMS/DVB fiber, after extraction, the desorption was carried out in the gas chromatograph injector coupled to mass spectrometry (CG-MS), where the fiber was exposed for 5 minutes. The identification of VOCs was performed by comparing the mass spectra obtained with data from the NIST library. Thirty-six volatile organic compounds (VOCs) were identified and quantified among pink pepper and black pepper seed samples. Of which 16 were found in black pepper, and 20 in pink pepper. These compounds are divided into monoterpenes, sesquitepenes, and other classes such as alkaloids and sesquiterpenoids. The volatile organic compounds found in higher concentrations in black pepper were Carnegine with 36.32 %, beyerene (30.84%), alpha-gurjunene (6.10%) and 1R,4S,7S,11R-2, 2,4,8-Tetramethyltricyclo [5.3.1.0 (4.11)] undec-8-ene also with 6.10%. In pink pepper, the compounds with the highest concentrations were, phyllocladene (36.16%), 3-carene (12.49%), and 1R,4S,7S,11R-2,2,4,8-tetramethyltricyclo [ 5.3.1.0 (4.11)] undec-8-ene (12.43%).

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“…Solid-phase microextraction (SPME) is a technique that has been substantially successful in profiling volatile compounds with a low economic and environmental burden [ 30 , 31 ]. SPME consists of the analyte partitioning between the sample and an extracting microcomponent, constituting a polymeric phase that can be solid or liquid that involves a fused silica fiber [ 32 ]. Relatively to the advantages of this technique, it is noteworthy that it does not demand sophisticated analytical tools, in addition to organic solvents dispensing and enabling the reuse of the extraction fibers [ 33 , 34 , 35 , 36 ].…”

Section: Introductionmentioning

confidence: 99%

Profile of Myracrodruon urundeuva Volatile Compounds Ease of Extraction and Biodegradability and In Silico Evaluation of Their Interactions with COX-1 and iNOS

et al. 2022

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Myracrodruon urundeuva Fr. Allem. (Anacardiaceae) is a tree popularly known as the “aroeira-do-sertão”, native to the caatinga and cerrado biomes, with a natural dispersion ranging from the Northeast, Midwest, to Southeast Brazil. Its wood is highly valued and overexploited, due to its characteristics such as durability and resistance to decaying. The diversity of chemical constituents in aroeira seed has shown biological properties against microorganisms and helminths. As such, this work aimed to identify the profile of volatile compounds present in aroeira seeds. Headspace solid phase microextraction was employed (HS-SPME) using semi-polar polydimethylsiloxane-divinylbenzene fiber (PDMS/DVB) for the extraction of VOCs. 22 volatile organic compounds were identified: nine monoterpenes and eight sesquiterpenes, in addition to six compounds belonging to different chemical classes such as fatty acids, terpenoids, salicylates and others. Those that stood out were p-mentha-1,4, 4(8)-diene, 3-carene (found in all samples), caryophyllene and cis-geranylacetone. A virtual docking analysis suggested that around 65% of the VOCs molar content from the aroeiras seeds present moderate a strong ability to bind to cyclooxygenase I (COX-I) active site, oxide nitric synthase (iNOS) active site (iNOSas) or to iNOS cofactor site (iNOScs), corroborating an anti-inflamatory potential. A pharmacophoric descriptor analysis allowed to infer the more determinant characteristics of these compounds’ conferring affinity to each site. Taken together, our results illustrate the high applicability for the integrated use of SPME, in silico virtual screening and chemoinformatics tools at the profiling of the biotechnological and pharmaceutical potential of natural sources.

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Olfactory response of Trichogramma pretiosum (Hymenoptera: Trichogrammatidae) to volatiles induced by transgenic maize

Cited by 7 publications

References 58 publications

Análise comparativa do perfil de compostos orgânicos voláteis de pimenta rosa e de aroeira do sertão

Análise comparativa do perfil de compostos orgânicos voláteis de pimenta rosa e de aroeira do sertão

Profile of the volatile organic compounds of pink pepper and black pepper

Profile of Myracrodruon urundeuva Volatile Compounds Ease of Extraction and Biodegradability and In Silico Evaluation of Their Interactions with COX-1 and iNOS

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