Atividade fotoquÃmica e proteÃÃo oxidativa em mudas de cajueiro expostas a seca e luminosidade elevada

Cristina Silva de Lima

Atividade fotoquÃmica e proteÃÃo oxidativa em mudas de cajueiro expostas a seca e luminosidade elevada

Detalhes bibliográficos
Autor(a) principal:	Cristina Silva de Lima
Data de Publicação:	2013
Tipo de documento:	Tese
Idioma:	por
Título da fonte:	Biblioteca Digital de Teses e Dissertações da UFC
Texto Completo:	http://www.teses.ufc.br/tde_busca/arquivo.php?codArquivo=10876
Resumo:	In this study were characterized biochemical and physiological mechanisms arising from photoinhibition that act in the modulation of photochemical activity and oxidative protection, helping to reduce photo oxidative damage in response to drought and high light stresses in cashew plants. The seedlings were obtained from seeds and grown in substrates by mixing sand and vermiculite (ratio 1:1) in plastic bags, with a volume of 2 liters. Drought stress was imposed by withholding the water supply to the plants (Â 20 days) in greenhouse conditions. For exposure to light treatments and recovery to the light effect, the plants were placed in a chamber with controlled conditions of relative humidity (60% Â5) and temperature (30ÂC Â2). The plants subjected to drought stress showed a marked decrease in photosynthesis when exposed to excess light (combination of drought with high luminosity), compared with those irrigated. This higher sensitivity of CO2 fixation to excess light on plants under drought was associated with a higher intensity of damage to the photochemical apparatus, as indicated by measures of effective quantum efficiency and apparent electron transport rate. The data show that the reduction of photosynthetic activity in response to excess light, has been attributed in part to process photoinhibition occurred under these conditions as shown by a drastic reduction in potential maximum quantum efficiency of PSII (given by Fv/Fm ratio). The results also suggest that the intense photoinhibition, triggered by excess light, may have assisted in photoprotection, because under these conditions there was no oxidative damage, as indicated by the absence of changes in H2O2 content and lipid peroxidation (TBARS content). This photochemistry protection, assigned to photoinhibition in this study, is enhanced due to non-occurrence of dissipation of excess energy through non-photochemical quenching (NPQ), because this mechanism did not show significant changes after long periods of exposure to excessive light. However, the energy dissipation through NPQ in response to short time of exposure to excessive light, observed here indicates that when the PSII activity is normal this mechanism is essential to the protection photochemistry. The role of photoinhibition for photo oxidative protection can be attributed to the effect of this process on reducing the activity of PSII and consequent lower photochemical activity, resulting in lower electron transfer. This suggestion is also reiterated in this study based on the reduction of the content of D1 protein, a major component of structural and functional PSII, and plastocyanin (PC), another major carrier of electrons. The modulation these proteins content may have contributed to restrict the formation of ROS and consequent oxidative damage under conditions inducing photo oxidatives stress such as drought associated with high luminosities, in this species.

Metadados do item

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network_acronym_str	UFC
network_name_str	Biblioteca Digital de Teses e Dissertações da UFC
spelling	info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/doctoralThesisAtividade fotoquÃmica e proteÃÃo oxidativa em mudas de cajueiro expostas a seca e luminosidade elevadaPhotochemical activity and oxidative protection in cashew seedlings exposed to drought and high light2013-04-15Joaquim AlbenÃsio Gomes da Silveira03258009287http://lattes.cnpq.br/6073841207993010Marlos Alves Bezerra25972723387http://lattes.cnpq.br/4787543991573578SÃrgio Luiz Ferreira da Silva70981027334http://lattes.cnpq.br/0173411400092352VÃnia Marilande Ceccatto05001207819http://lattes.cnpq.br/7164184729889286Evandro Nascimento da Silva79243720325http://lattes.cnpq.br/6910997192569746 82169284320http://lattes.cnpq.br/3411332419982947Cristina Silva de LimaUniversidade Federal do CearÃPrograma de PÃs-GraduaÃÃo em BioquÃmicaUFCBREstresses abiÃticosEstresse fotoxidativoFotoproteÃÃo Anacardium occidentaleAbiotic stressPhoto oxidative stressPhotochemistryPhotoprotectionAnacardium occidentaleBIOQUIMICAIn this study were characterized biochemical and physiological mechanisms arising from photoinhibition that act in the modulation of photochemical activity and oxidative protection, helping to reduce photo oxidative damage in response to drought and high light stresses in cashew plants. The seedlings were obtained from seeds and grown in substrates by mixing sand and vermiculite (ratio 1:1) in plastic bags, with a volume of 2 liters. Drought stress was imposed by withholding the water supply to the plants (Â 20 days) in greenhouse conditions. For exposure to light treatments and recovery to the light effect, the plants were placed in a chamber with controlled conditions of relative humidity (60% Â5) and temperature (30ÂC Â2). The plants subjected to drought stress showed a marked decrease in photosynthesis when exposed to excess light (combination of drought with high luminosity), compared with those irrigated. This higher sensitivity of CO2 fixation to excess light on plants under drought was associated with a higher intensity of damage to the photochemical apparatus, as indicated by measures of effective quantum efficiency and apparent electron transport rate. The data show that the reduction of photosynthetic activity in response to excess light, has been attributed in part to process photoinhibition occurred under these conditions as shown by a drastic reduction in potential maximum quantum efficiency of PSII (given by Fv/Fm ratio). The results also suggest that the intense photoinhibition, triggered by excess light, may have assisted in photoprotection, because under these conditions there was no oxidative damage, as indicated by the absence of changes in H2O2 content and lipid peroxidation (TBARS content). This photochemistry protection, assigned to photoinhibition in this study, is enhanced due to non-occurrence of dissipation of excess energy through non-photochemical quenching (NPQ), because this mechanism did not show significant changes after long periods of exposure to excessive light. However, the energy dissipation through NPQ in response to short time of exposure to excessive light, observed here indicates that when the PSII activity is normal this mechanism is essential to the protection photochemistry. The role of photoinhibition for photo oxidative protection can be attributed to the effect of this process on reducing the activity of PSII and consequent lower photochemical activity, resulting in lower electron transfer. This suggestion is also reiterated in this study based on the reduction of the content of D1 protein, a major component of structural and functional PSII, and plastocyanin (PC), another major carrier of electrons. The modulation these proteins content may have contributed to restrict the formation of ROS and consequent oxidative damage under conditions inducing photo oxidatives stress such as drought associated with high luminosities, in this species.No presente estudo foram caracterizados mecanismos bioquÃmicos e fisiolÃgicos decorrentes da fotoinibiÃÃo e que atuam na modulaÃÃo da atividade fotoquÃmica e da proteÃÃo oxidativa, auxiliando na reduÃÃo de danos fotoxidativos, em reposta aos estresses de seca e luminosidade elevada em cajueiro. As mudas foram obtidas a partir de sementes e cultivadas em substrato composto pela mistura de areia e vermiculita (proporÃÃo 1:1) em sacos plÃsticos, com volume de 2 L. O estresse hÃdrico foi aplicado pela suspenÃÃo da rega (Â20 dias) em condiÃÃes de casa de vegetaÃÃo. Para a exposiÃÃo aos tratamentos de luminosidade e de recuperaÃÃo ao efeito da luz, as plantas foram acondicionadas em cÃmara com condiÃÃes controladas de umidade relativa (60% Â5) e temperatura (30ÂC Â2). As plantas submetidas ao estresse hÃdrico apresentaram uma intensa reduÃÃo da fotossÃntese quando expostas ao excesso de luz (combinaÃÃo de seca com luminosidade elevada), se comparadas com aquelas irrigadas. Essa maior sensibilidade da fixaÃÃo de CO2 ao excesso de luz nas plantas sob seca foi relacionada com uma maior intensidade de danos no aparato fotoquÃmico, conforme indicado pelas medidas de eficiÃncia quÃntica efetiva e taxa aparente de transporte de elÃtrons. A reduÃÃo da atividade fotossintÃtica, em resposta ao excesso de luz, foi atribuÃda em parte ao processo de fotoinibiÃÃo ocorrido nessas condiÃÃes, conforme demonstrado pela drÃstica reduÃÃo da eficiÃncia quÃntica potencial mÃxima do PSII (dada pela relaÃÃo Fv/Fm). Os resultados sugerem tambÃm que a intensa fotoinibiÃÃo, desencadeada pelo excesso de luz, pode ter auxiliado na fotoproteÃÃo, pois nessas condiÃÃes nÃo ocorreu danos oxidativos, conforme indicado pela ausÃncia de mudanÃas no conteÃdo de H2O2 e na peroxidaÃÃo lipÃdica (conteÃdo de TBARS). Essa proteÃÃo fotoquÃmica, atribuÃda a fotoinibiÃÃo nesse estudo, Ã reforÃada devido a nÃo ocorrÃncia de dissipaÃÃo do excesso de energia por meio do quenching nÃo fotoquÃmico (NPQ), pois esse mecanismo nÃo apresentou mudanÃas significativas apÃs longos perÃodos de exposiÃÃo ao excesso de luz. No entanto, a dissipaÃÃo de energia por meio do NPQ em respostas a curtos perÃodos de exposiÃÃo ao excesso de luz, aqui observado, indica que quando a atividade do PSII estÃ normal esse mecanismo Ã essencial para a proteÃÃo fotoquÃmica. O papel da fotoinibiÃÃo para a proteÃÃo fotoxidativa pode ser atribuido ao efeito desse processo na reduÃÃo da atividade dos PSII e consequente menor atividade fotoquÃmica, o que resultaria na menor transferÃncia de elÃtrons. Essa sugestÃo Ã ainda reinterada no presente estudo com base na reduÃÃo do conteÃdo da proteina D1, um dos principais componentes estrutural e funcional do PSII, e da plastocianina (PC), outro importante carreador de elÃtrons. A modulaÃÃo do conteÃdo dessas proteÃnas pode ter contribuÃdo para restringir a formaÃÃo de EROs e consequente danos oxidativos sob condiÃÃes indutoras de estresse fotoxidativos, como a seca associada com luminosidades elevadas, nessa espÃcie.CoordenaÃÃo de AperfeiÃoamento de Pessoal de NÃvel Superiorhttp://www.teses.ufc.br/tde_busca/arquivo.php?codArquivo=10876application/pdfinfo:eu-repo/semantics/openAccessporreponame:Biblioteca Digital de Teses e Dissertações da UFCinstname:Universidade Federal do Cearáinstacron:UFC2019-01-21T11:24:01Zmail@mail.com -
dc.title.pt.fl_str_mv	Atividade fotoquÃmica e proteÃÃo oxidativa em mudas de cajueiro expostas a seca e luminosidade elevada
dc.title.alternative..fl_str_mv	Photochemical activity and oxidative protection in cashew seedlings exposed to drought and high light
title	Atividade fotoquÃmica e proteÃÃo oxidativa em mudas de cajueiro expostas a seca e luminosidade elevada
spellingShingle	Atividade fotoquÃmica e proteÃÃo oxidativa em mudas de cajueiro expostas a seca e luminosidade elevada Cristina Silva de Lima Estresses abiÃticos Estresse fotoxidativo FotoproteÃÃo Anacardium occidentale Abiotic stress Photo oxidative stress Photochemistry Photoprotection Anacardium occidentale BIOQUIMICA
title_short	Atividade fotoquÃmica e proteÃÃo oxidativa em mudas de cajueiro expostas a seca e luminosidade elevada
title_full	Atividade fotoquÃmica e proteÃÃo oxidativa em mudas de cajueiro expostas a seca e luminosidade elevada
title_fullStr	Atividade fotoquÃmica e proteÃÃo oxidativa em mudas de cajueiro expostas a seca e luminosidade elevada
title_full_unstemmed	Atividade fotoquÃmica e proteÃÃo oxidativa em mudas de cajueiro expostas a seca e luminosidade elevada
title_sort	Atividade fotoquÃmica e proteÃÃo oxidativa em mudas de cajueiro expostas a seca e luminosidade elevada
author	Cristina Silva de Lima
author_facet	Cristina Silva de Lima
author_role	author
dc.contributor.advisor1.fl_str_mv	Joaquim AlbenÃsio Gomes da Silveira
dc.contributor.advisor1ID.fl_str_mv	03258009287
dc.contributor.advisor1Lattes.fl_str_mv	http://lattes.cnpq.br/6073841207993010
dc.contributor.referee1.fl_str_mv	Marlos Alves Bezerra
dc.contributor.referee1ID.fl_str_mv	25972723387
dc.contributor.referee1Lattes.fl_str_mv	http://lattes.cnpq.br/4787543991573578
dc.contributor.referee2.fl_str_mv	SÃrgio Luiz Ferreira da Silva
dc.contributor.referee2ID.fl_str_mv	70981027334
dc.contributor.referee2Lattes.fl_str_mv	http://lattes.cnpq.br/0173411400092352
dc.contributor.referee3.fl_str_mv	VÃnia Marilande Ceccatto
dc.contributor.referee3ID.fl_str_mv	05001207819
dc.contributor.referee3Lattes.fl_str_mv	http://lattes.cnpq.br/7164184729889286
dc.contributor.referee4.fl_str_mv	Evandro Nascimento da Silva
dc.contributor.referee4ID.fl_str_mv	79243720325
dc.contributor.referee4Lattes.fl_str_mv	http://lattes.cnpq.br/6910997192569746
dc.contributor.authorID.fl_str_mv	82169284320
dc.contributor.authorLattes.fl_str_mv	http://lattes.cnpq.br/3411332419982947
dc.contributor.author.fl_str_mv	Cristina Silva de Lima
contributor_str_mv	Joaquim AlbenÃsio Gomes da Silveira Marlos Alves Bezerra SÃrgio Luiz Ferreira da Silva VÃnia Marilande Ceccatto Evandro Nascimento da Silva
dc.subject.por.fl_str_mv	Estresses abiÃticos Estresse fotoxidativo FotoproteÃÃo Anacardium occidentale
topic	Estresses abiÃticos Estresse fotoxidativo FotoproteÃÃo Anacardium occidentale Abiotic stress Photo oxidative stress Photochemistry Photoprotection Anacardium occidentale BIOQUIMICA
dc.subject.eng.fl_str_mv	Abiotic stress Photo oxidative stress Photochemistry Photoprotection Anacardium occidentale
dc.subject.cnpq.fl_str_mv	BIOQUIMICA
dc.description.sponsorship.fl_txt_mv	CoordenaÃÃo de AperfeiÃoamento de Pessoal de NÃvel Superior
dc.description.abstract..fl_txt_mv	In this study were characterized biochemical and physiological mechanisms arising from photoinhibition that act in the modulation of photochemical activity and oxidative protection, helping to reduce photo oxidative damage in response to drought and high light stresses in cashew plants. The seedlings were obtained from seeds and grown in substrates by mixing sand and vermiculite (ratio 1:1) in plastic bags, with a volume of 2 liters. Drought stress was imposed by withholding the water supply to the plants (Â 20 days) in greenhouse conditions. For exposure to light treatments and recovery to the light effect, the plants were placed in a chamber with controlled conditions of relative humidity (60% Â5) and temperature (30ÂC Â2). The plants subjected to drought stress showed a marked decrease in photosynthesis when exposed to excess light (combination of drought with high luminosity), compared with those irrigated. This higher sensitivity of CO2 fixation to excess light on plants under drought was associated with a higher intensity of damage to the photochemical apparatus, as indicated by measures of effective quantum efficiency and apparent electron transport rate. The data show that the reduction of photosynthetic activity in response to excess light, has been attributed in part to process photoinhibition occurred under these conditions as shown by a drastic reduction in potential maximum quantum efficiency of PSII (given by Fv/Fm ratio). The results also suggest that the intense photoinhibition, triggered by excess light, may have assisted in photoprotection, because under these conditions there was no oxidative damage, as indicated by the absence of changes in H2O2 content and lipid peroxidation (TBARS content). This photochemistry protection, assigned to photoinhibition in this study, is enhanced due to non-occurrence of dissipation of excess energy through non-photochemical quenching (NPQ), because this mechanism did not show significant changes after long periods of exposure to excessive light. However, the energy dissipation through NPQ in response to short time of exposure to excessive light, observed here indicates that when the PSII activity is normal this mechanism is essential to the protection photochemistry. The role of photoinhibition for photo oxidative protection can be attributed to the effect of this process on reducing the activity of PSII and consequent lower photochemical activity, resulting in lower electron transfer. This suggestion is also reiterated in this study based on the reduction of the content of D1 protein, a major component of structural and functional PSII, and plastocyanin (PC), another major carrier of electrons. The modulation these proteins content may have contributed to restrict the formation of ROS and consequent oxidative damage under conditions inducing photo oxidatives stress such as drought associated with high luminosities, in this species.
dc.description.abstract.por.fl_txt_mv	No presente estudo foram caracterizados mecanismos bioquÃmicos e fisiolÃgicos decorrentes da fotoinibiÃÃo e que atuam na modulaÃÃo da atividade fotoquÃmica e da proteÃÃo oxidativa, auxiliando na reduÃÃo de danos fotoxidativos, em reposta aos estresses de seca e luminosidade elevada em cajueiro. As mudas foram obtidas a partir de sementes e cultivadas em substrato composto pela mistura de areia e vermiculita (proporÃÃo 1:1) em sacos plÃsticos, com volume de 2 L. O estresse hÃdrico foi aplicado pela suspenÃÃo da rega (Â20 dias) em condiÃÃes de casa de vegetaÃÃo. Para a exposiÃÃo aos tratamentos de luminosidade e de recuperaÃÃo ao efeito da luz, as plantas foram acondicionadas em cÃmara com condiÃÃes controladas de umidade relativa (60% Â5) e temperatura (30ÂC Â2). As plantas submetidas ao estresse hÃdrico apresentaram uma intensa reduÃÃo da fotossÃntese quando expostas ao excesso de luz (combinaÃÃo de seca com luminosidade elevada), se comparadas com aquelas irrigadas. Essa maior sensibilidade da fixaÃÃo de CO2 ao excesso de luz nas plantas sob seca foi relacionada com uma maior intensidade de danos no aparato fotoquÃmico, conforme indicado pelas medidas de eficiÃncia quÃntica efetiva e taxa aparente de transporte de elÃtrons. A reduÃÃo da atividade fotossintÃtica, em resposta ao excesso de luz, foi atribuÃda em parte ao processo de fotoinibiÃÃo ocorrido nessas condiÃÃes, conforme demonstrado pela drÃstica reduÃÃo da eficiÃncia quÃntica potencial mÃxima do PSII (dada pela relaÃÃo Fv/Fm). Os resultados sugerem tambÃm que a intensa fotoinibiÃÃo, desencadeada pelo excesso de luz, pode ter auxiliado na fotoproteÃÃo, pois nessas condiÃÃes nÃo ocorreu danos oxidativos, conforme indicado pela ausÃncia de mudanÃas no conteÃdo de H2O2 e na peroxidaÃÃo lipÃdica (conteÃdo de TBARS). Essa proteÃÃo fotoquÃmica, atribuÃda a fotoinibiÃÃo nesse estudo, Ã reforÃada devido a nÃo ocorrÃncia de dissipaÃÃo do excesso de energia por meio do quenching nÃo fotoquÃmico (NPQ), pois esse mecanismo nÃo apresentou mudanÃas significativas apÃs longos perÃodos de exposiÃÃo ao excesso de luz. No entanto, a dissipaÃÃo de energia por meio do NPQ em respostas a curtos perÃodos de exposiÃÃo ao excesso de luz, aqui observado, indica que quando a atividade do PSII estÃ normal esse mecanismo Ã essencial para a proteÃÃo fotoquÃmica. O papel da fotoinibiÃÃo para a proteÃÃo fotoxidativa pode ser atribuido ao efeito desse processo na reduÃÃo da atividade dos PSII e consequente menor atividade fotoquÃmica, o que resultaria na menor transferÃncia de elÃtrons. Essa sugestÃo Ã ainda reinterada no presente estudo com base na reduÃÃo do conteÃdo da proteina D1, um dos principais componentes estrutural e funcional do PSII, e da plastocianina (PC), outro importante carreador de elÃtrons. A modulaÃÃo do conteÃdo dessas proteÃnas pode ter contribuÃdo para restringir a formaÃÃo de EROs e consequente danos oxidativos sob condiÃÃes indutoras de estresse fotoxidativos, como a seca associada com luminosidades elevadas, nessa espÃcie.
description	In this study were characterized biochemical and physiological mechanisms arising from photoinhibition that act in the modulation of photochemical activity and oxidative protection, helping to reduce photo oxidative damage in response to drought and high light stresses in cashew plants. The seedlings were obtained from seeds and grown in substrates by mixing sand and vermiculite (ratio 1:1) in plastic bags, with a volume of 2 liters. Drought stress was imposed by withholding the water supply to the plants (Â 20 days) in greenhouse conditions. For exposure to light treatments and recovery to the light effect, the plants were placed in a chamber with controlled conditions of relative humidity (60% Â5) and temperature (30ÂC Â2). The plants subjected to drought stress showed a marked decrease in photosynthesis when exposed to excess light (combination of drought with high luminosity), compared with those irrigated. This higher sensitivity of CO2 fixation to excess light on plants under drought was associated with a higher intensity of damage to the photochemical apparatus, as indicated by measures of effective quantum efficiency and apparent electron transport rate. The data show that the reduction of photosynthetic activity in response to excess light, has been attributed in part to process photoinhibition occurred under these conditions as shown by a drastic reduction in potential maximum quantum efficiency of PSII (given by Fv/Fm ratio). The results also suggest that the intense photoinhibition, triggered by excess light, may have assisted in photoprotection, because under these conditions there was no oxidative damage, as indicated by the absence of changes in H2O2 content and lipid peroxidation (TBARS content). This photochemistry protection, assigned to photoinhibition in this study, is enhanced due to non-occurrence of dissipation of excess energy through non-photochemical quenching (NPQ), because this mechanism did not show significant changes after long periods of exposure to excessive light. However, the energy dissipation through NPQ in response to short time of exposure to excessive light, observed here indicates that when the PSII activity is normal this mechanism is essential to the protection photochemistry. The role of photoinhibition for photo oxidative protection can be attributed to the effect of this process on reducing the activity of PSII and consequent lower photochemical activity, resulting in lower electron transfer. This suggestion is also reiterated in this study based on the reduction of the content of D1 protein, a major component of structural and functional PSII, and plastocyanin (PC), another major carrier of electrons. The modulation these proteins content may have contributed to restrict the formation of ROS and consequent oxidative damage under conditions inducing photo oxidatives stress such as drought associated with high luminosities, in this species.
publishDate	2013
dc.date.issued.fl_str_mv	2013-04-15
dc.type.status.fl_str_mv	info:eu-repo/semantics/publishedVersion
dc.type.driver.fl_str_mv	info:eu-repo/semantics/doctoralThesis
status_str	publishedVersion
format	doctoralThesis
dc.identifier.uri.fl_str_mv	http://www.teses.ufc.br/tde_busca/arquivo.php?codArquivo=10876
url	http://www.teses.ufc.br/tde_busca/arquivo.php?codArquivo=10876
dc.language.iso.fl_str_mv	por
language	por
dc.rights.driver.fl_str_mv	info:eu-repo/semantics/openAccess
eu_rights_str_mv	openAccess
dc.format.none.fl_str_mv	application/pdf
dc.publisher.none.fl_str_mv	Universidade Federal do CearÃ
dc.publisher.program.fl_str_mv	Programa de PÃs-GraduaÃÃo em BioquÃmica
dc.publisher.initials.fl_str_mv	UFC
dc.publisher.country.fl_str_mv	BR
publisher.none.fl_str_mv	Universidade Federal do CearÃ
dc.source.none.fl_str_mv	reponame:Biblioteca Digital de Teses e Dissertações da UFC instname:Universidade Federal do Ceará instacron:UFC
reponame_str	Biblioteca Digital de Teses e Dissertações da UFC
collection	Biblioteca Digital de Teses e Dissertações da UFC
instname_str	Universidade Federal do Ceará
instacron_str	UFC
institution	UFC
repository.name.fl_str_mv	-
repository.mail.fl_str_mv	mail@mail.com
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Atividade fotoquÃmica e proteÃÃo oxidativa em mudas de cajueiro expostas a seca e luminosidade elevada

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