S?ntese de novas fosforilidrazonas heteroc?clicas para controle de pat?genos p?s-colheita de mam?o (Carica papaya L.). / Synthesis of new Heterocyclic phosphorylhydrazones to control Post-Harvest pathogens in papaya (Carica papaya L.).

Barboza, Henriqueta Talita Guimar?es

04 March 2010

Submitted by Sandra Pereira (srpereira@ufrrj.br) on 2017-05-12T14:19:07Z No. of bitstreams: 1 2010 - Henriqueta Talita Guimar?es Barboza.pdf: 10302674 bytes, checksum: 6daf4f88308c3c733615f0772d6db594 (MD5) / Made available in DSpace on 2017-05-12T14:19:07Z (GMT). No. of bitstreams: 1 2010 - Henriqueta Talita Guimar?es Barboza.pdf: 10302674 bytes, checksum: 6daf4f88308c3c733615f0772d6db594 (MD5) Previous issue date: 2010-03-04 / Twelve heterocyclic dialkylphosphorylhydrazones compounds were synthesized in this work. Dialkylphosphorylhydrazones were obtained through 3 steps of reaction. The first step consists on the synthesis of different dialkylphosphonates obtained by reaction of triethyl phosphate (PCl3) with 3 mols of the corresponding alcohol. The second step occurs by the reaction with dialkylphosphonates synthesized and hydrazine, producing dialkylphosphorylhydrazines. The third and last step is the condensation reaction of these dialkylphosphorylhydrazines with different heterocycle substituted aromatic aldehydes. The analysis of the 1H NMR spectra allowed to observe the stereoisomers E and Z, with the formation of E diastereisomer preferencially. All the compounds were characterized by 1H, 13C and 31P NMR, IR and mass spectroscopy. Tests in vitro with, Alternaria sp., Colletotrichum sp., Fusarium sp. e Fusarium solani, known as patogenic in papaya (Carica papaya L.) were performed in order to confirm if the compounds showed fungicide activity. The substance 6 B was the one with the best performance in the inhibition of all fungal growths. Finally, tests with acetylcholinesterase enzyme indicated that all substances did not inhibit this enzyme. Figure 2 - General structures of dialkylphosphoryhidrazones synthesized. R ? Ethyl; propyl; isopropyl e isobuthyl. X = O, Y, Z e W = CH; X = S, Y, Z e W = CH; X = NH, Y, Z e W = CH; X = NH, Y= CH, Z=CH e W = N; X = CH, Y= N, Z=CH e W = N; / Neste trabalho foram sintetizadas doze (12) novas dialquilfosforilidrazonas heteroc?clicas. Esses compostos foram obtidos utilizando-se tr?s etapas de rea??o. A primeira etapa consiste na s?ntese de diferentes fosfonatos de dialquila, obtidos por meio da rea??o do tricloreto de f?sforo (PCl3) com tr?s mols do ?lcool correspondente. A segunda etapa ocorre por meio da rea??o dos fosfonatos de dialquila sintetizados com a hidrazina, formando as dialquilfosforilidrazinas. A terceira e ?ltima etapa ? a condensa??o destas dialquilfosforilidrazinas com diferentes alde?dos heteroc?clicos. A an?lise dos espectros de RMN-1H indica a forma??o de diastereois?meros, E e Z, com predomin?ncia do diastereis?meros E. Todos os compostos obtidos foram caracterizados por RMN de H1 e C13 e P31, IV, an?lises de massas. Em seguida foram realizados testes in vitro para verificar se os mesmos possuem atividade fungicida sobre os fungos Alternaria sp., Colletotrichum sp., Fusarium sp. e Fusarium solani, conhecidos por serem pat?genos da cultura de mam?o (Carica papaya L.). O composto 6 B foi o que apresentou o melhor efeito fungicida sobre o crescimento de todos os fungos. Finalmente foram realizados testes com a enzima acetilcolinesterase a fim de observar a toxicidade dos compostos sintetizados frente a esta enzima. Figura 1- Estrututa gen?rica das dialquilfosforilidrazonas heteroc?clicas sintetizadas. R ? Etil; propil; isopropil e isobutil. X = O, Y, Z e W = CH; X = S, Y, Z e W = CH; X = NH, Y, Z e W = CH; X = NH, Y= CH, Z=CH e W = N; X = CH, Y= N, Z=CH e W = N.

organophosphorus hydrazones

dialkylphosphorilhydrazones

biological activity

fungicide activity

Carica papaya L

papaya

hidrazonas

organofosforados

dialquilfosforilidrazonas

atividade fungicida

Carica papaya L.

mam?o

Ci?ncias Exatas e da Terra