Overexpression protein related activities photochemical fotorespiratÃria induced and whisper of contributing to a cytosolic apx submitted to high light
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2013 |
| Tipo de documento: | Dissertação |
| 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=11515 |
Resumo: | In tropical regions, where there is a high incidence of light, electrons can accumulate in the transport chain (PET) producing large quantities of H 2 O 2 and other ROS, which might generate photodamage and photoinhibition. To survive to these challenges, plants have developed several mechanisms to mitigate the excess energy in photosystems, besides having an efficient machinery for removal of excess H 2 O 2 , which includes cytosolic APX (cAPX). However, double - silenced rice plants for cAPX (OsAPX1/2) do not show large differences in morpho - phenotype when compared to non - transformed (NT), although OsAPX1/2 presents induction of expression on several proteins re lated to photosynthesis. The physiological implications of this induction, as well as its consequences for OsAPX1/2 resistance against stresses of high light (HL), are still poorly known. Aiming to clarify the role of cAPx in pho tosynthesis, OsAPX1/2 plant s were produced, subjected to 24 hours of HL (2 , 000 μ mol m - 2 s - 1 ) and studied for the expression and activity of proteins related to photosynthesis , ph otorespira tion and redox homeostasis . The amount of several PET proteins (Lhcb1, PsbO, Psb P, PsbQ, PSAC, P C, FNR and FDX) and Chl and Pheo were increased in OsAPX1/2 in normal growth conditions, however without causing changes in the in vivo photochemistry activity parameters (Fv /Fm and ΔFm/Fm'). In contrast, expression of proteins associated with Calvin - Benso n cycle (Rls, ativase RBC) and rubisco carboxylation activity ( in vivo and in vitro ) were not altered in mutants under normal growth conditions . In HL, the expression of proteins related to photosynthesis was strongly repressed in all genotypes , as well as gas exchange parameters and Fv/Fm, the latter being strong indication of photoinhibition. Moreover, proteins related to photorespiration showed increased expression/activity in response to HL in NT and maintenance of already high levels in OsAPX1/2. In OsAPX1/2 t h e expression and activity of chloroplastic Cu/Zn - SOD showed a similar response exhibited by photorespiration - related proteins, although the activity of thylakoid APX has been greatly reduced, meaning deficiency in water - water cycle. Taken togeth er, these data demonstrate that induction of expression of proteins related PET in OsAPX1/2 plants may represent a compensatory mechanism for maintaining the photosynthetic activity levels similar to NT. Moreover, in HL, it is possible that the increased e xpression of photorespiration - related proteins in OsAPX1/2 acts as alternative electron sink, compensating the deficiency in the water - water cycle from these plants |
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info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisOverexpression protein related activities photochemical fotorespiratÃria induced and whisper of contributing to a cytosolic apx submitted to high lightA superexpressÃo de proteÃnas relacionadas com atividades fotoquÃmica e fotorespiratÃria induzida por silenciamento das apx citosÃlicas contrubui para uma fotoinibiÃÃo similar a de arroz nÃo-transformado submetido à alta luz 2013-02-25Joaquim AlbenÃsio Gomes da Silveira03258009287http://lattes.cnpq.br/6073841207993010SÃrgio Luiz Ferreira da Silva70981027334http://lattes.cnpq.br/0173411400092352Luiz Ferreira Aguiar Ponte44364687391http://lattes.cnpq.br/9493961652075640Andrà Luis Coelho da Silva625 499 953 68http://lattes.cnpq.br/3701975151596050 01966920326http://lattes.cnpq.br/6315876505845931FabrÃcio EulÃlio Leite CarvalhoUniversidade Federal do CearÃPrograma de PÃs-GraduaÃÃo em BioquÃmicaUFCBRexcesso de irradiÃncia fotossÃntese fotossistemas metabolismo redox Oryza sativairradiance excess photosynthesis photosystems redox metabolism Oryza sativaBIOQUIMICAIn tropical regions, where there is a high incidence of light, electrons can accumulate in the transport chain (PET) producing large quantities of H 2 O 2 and other ROS, which might generate photodamage and photoinhibition. To survive to these challenges, plants have developed several mechanisms to mitigate the excess energy in photosystems, besides having an efficient machinery for removal of excess H 2 O 2 , which includes cytosolic APX (cAPX). However, double - silenced rice plants for cAPX (OsAPX1/2) do not show large differences in morpho - phenotype when compared to non - transformed (NT), although OsAPX1/2 presents induction of expression on several proteins re lated to photosynthesis. The physiological implications of this induction, as well as its consequences for OsAPX1/2 resistance against stresses of high light (HL), are still poorly known. Aiming to clarify the role of cAPx in pho tosynthesis, OsAPX1/2 plant s were produced, subjected to 24 hours of HL (2 , 000 μ mol m - 2 s - 1 ) and studied for the expression and activity of proteins related to photosynthesis , ph otorespira tion and redox homeostasis . The amount of several PET proteins (Lhcb1, PsbO, Psb P, PsbQ, PSAC, P C, FNR and FDX) and Chl and Pheo were increased in OsAPX1/2 in normal growth conditions, however without causing changes in the in vivo photochemistry activity parameters (Fv /Fm and ΔFm/Fm'). In contrast, expression of proteins associated with Calvin - Benso n cycle (Rls, ativase RBC) and rubisco carboxylation activity ( in vivo and in vitro ) were not altered in mutants under normal growth conditions . In HL, the expression of proteins related to photosynthesis was strongly repressed in all genotypes , as well as gas exchange parameters and Fv/Fm, the latter being strong indication of photoinhibition. Moreover, proteins related to photorespiration showed increased expression/activity in response to HL in NT and maintenance of already high levels in OsAPX1/2. In OsAPX1/2 t h e expression and activity of chloroplastic Cu/Zn - SOD showed a similar response exhibited by photorespiration - related proteins, although the activity of thylakoid APX has been greatly reduced, meaning deficiency in water - water cycle. Taken togeth er, these data demonstrate that induction of expression of proteins related PET in OsAPX1/2 plants may represent a compensatory mechanism for maintaining the photosynthetic activity levels similar to NT. Moreover, in HL, it is possible that the increased e xpression of photorespiration - related proteins in OsAPX1/2 acts as alternative electron sink, compensating the deficiency in the water - water cycle from these plantsEm regiÃes tropicais, onde existe alta incidÃncia luminosa, os elÃtrons podem se acumular na cadeia transportadora (PET) produzindo grandes quantidades de H 2 O 2 e outras ROS, que podem gerar fotodano e fotoinibiÃÃo. Para sobreviver a esse desafio, plantas desenvolveram vÃrios mecanismos de atenuaÃÃo do excesso de energia nos fotossistemas, alÃm de contar com uma eficiente ma quinaria de remoÃÃo do excesso de H 2 O 2 , da qual fazem parte as APX citosÃlicas (cAPX). Entretanto, plantas duplamente silenciadas para as cAPX (OsAPX1/2) nÃo apresentam grandes diferenÃas morfo - fenotÃpicas quando comparadas Ãs nÃo transformadas (NT), embor a OsAPX1/2 apresente induÃÃo de expressÃo de diversas proteÃnas relacionadas com a fotossÃntese, comparadas com as NT. As implicaÃÃes fisiolÃgicas dessa induÃÃo, assim como suas consequÃncias para a resistÃncia de OsAPX1/2 contra estresses de alta luz (HL) , ainda sÃo pouco conhecidas. Objetivando clarificar o papel das cAPx na fotossÃntese, plantas de arroz OsAPX1/2 foram produzidas, submetidas a 24 horas de HL (2000 μ mol m - 2 s - 1 ) e estudadas quanto à expressÃo e atividade de proteÃnas relacionadas com a fotossÃntese, fotorespiraÃÃo e homeostase redox. A quantidade de diversas proteÃnas da PET (Lhcb1, PsbO, PsbP, PsbQ, PSAC, PC, e FDX FNR), bem como teores de Chl e Pheo foram aum entadas em OsAPX1/2 em condiÃÃes normais de crescimento sem causar alteraÃÃes nos parÃmetros de atividade fotoquÃmica in vivo (Fv/Fm e Δ Fm/Fm'). Em contraste, as proteÃnas relacionadas com expressÃo ciclo de Calvin - Benson (Rls, ativase de Rbc) e a ativida de de carboxilaÃÃo da rubisco ( in vivo e in vitro ) nÃo foram alterados nos mutantes em condiÃÃes normais de crescimento. Em HL, a expressÃo de proteÃnas relacionadas com fotossÃntese foi fortemente reprimida em ambos os genÃtipos, assim como os parÃmetros de trocas gasosas e Fv/Fm, sendo esse Ãltimo forte indÃcio de fotoinibiÃÃo. Por outro lado, as proteÃnas relacionadas com a fotorespiraÃÃo, ou mostraram aumento na expressÃo/atividade em resposta à luz elevada (NT) ou manutenÃÃo de nÃveis jà elevados (OsAP X1/2) . A expressÃo e atividade de Cu/Zn - SOD de cloroplastos mostrou resposta similar a exibida pelas proteÃnas da fotorespiraÃÃo, embora a atividade de APX de tilacÃides tenha sido fortemente reduzida em OsAPX1/2, evidenciando deficiÃncia no ciclo Ãgua - Ãgu a. Tomados em conjunto, estes dados demonstram que a induÃÃo da expressÃo de proteÃnas relacionadas com o PET em OsAPX1/2 pode representar um mecanismo compensatÃrio para a manutenÃÃo da atividade fotossintÃtica aos nÃveis da NT. Por outro lado, sob HL, à possÃvel que o aumento da expressÃo de proteÃnas associadas com fotorespira ÃÃo em OsAPX1/2 atue como dissipador alternativo de elÃtrons, compensando a deficiÃncia no ciclo da Ãgua - Ãgua dessas plantasCoordenaÃÃo de AperfeiÃoamento de Pessoal de NÃvel Superiorhttp://www.teses.ufc.br/tde_busca/arquivo.php?codArquivo=11515application/pdfinfo:eu-repo/semantics/openAccessporreponame:Biblioteca Digital de Teses e Dissertações da UFCinstname:Universidade Federal do Cearáinstacron:UFC2019-01-21T11:25:07Zmail@mail.com - |
| dc.title.en.fl_str_mv |
Overexpression protein related activities photochemical fotorespiratÃria induced and whisper of contributing to a cytosolic apx submitted to high light |
| dc.title.alternative.pt.fl_str_mv |
A superexpressÃo de proteÃnas relacionadas com atividades fotoquÃmica e fotorespiratÃria induzida por silenciamento das apx citosÃlicas contrubui para uma fotoinibiÃÃo similar a de arroz nÃo-transformado submetido à alta luz |
| title |
Overexpression protein related activities photochemical fotorespiratÃria induced and whisper of contributing to a cytosolic apx submitted to high light |
| spellingShingle |
Overexpression protein related activities photochemical fotorespiratÃria induced and whisper of contributing to a cytosolic apx submitted to high light FabrÃcio EulÃlio Leite Carvalho excesso de irradiÃncia fotossÃntese fotossistemas metabolismo redox Oryza sativa irradiance excess photosynthesis photosystems redox metabolism Oryza sativa BIOQUIMICA |
| title_short |
Overexpression protein related activities photochemical fotorespiratÃria induced and whisper of contributing to a cytosolic apx submitted to high light |
| title_full |
Overexpression protein related activities photochemical fotorespiratÃria induced and whisper of contributing to a cytosolic apx submitted to high light |
| title_fullStr |
Overexpression protein related activities photochemical fotorespiratÃria induced and whisper of contributing to a cytosolic apx submitted to high light |
| title_full_unstemmed |
Overexpression protein related activities photochemical fotorespiratÃria induced and whisper of contributing to a cytosolic apx submitted to high light |
| title_sort |
Overexpression protein related activities photochemical fotorespiratÃria induced and whisper of contributing to a cytosolic apx submitted to high light |
| author |
FabrÃcio EulÃlio Leite Carvalho |
| author_facet |
FabrÃcio EulÃlio Leite Carvalho |
| 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 |
SÃrgio Luiz Ferreira da Silva |
| dc.contributor.referee1ID.fl_str_mv |
70981027334 |
| dc.contributor.referee1Lattes.fl_str_mv |
http://lattes.cnpq.br/0173411400092352 |
| dc.contributor.referee2.fl_str_mv |
Luiz Ferreira Aguiar Ponte |
| dc.contributor.referee2ID.fl_str_mv |
44364687391 |
| dc.contributor.referee2Lattes.fl_str_mv |
http://lattes.cnpq.br/9493961652075640 |
| dc.contributor.referee3.fl_str_mv |
Andrà Luis Coelho da Silva |
| dc.contributor.referee3ID.fl_str_mv |
625 499 953 68 |
| dc.contributor.referee3Lattes.fl_str_mv |
http://lattes.cnpq.br/3701975151596050 |
| dc.contributor.authorID.fl_str_mv |
01966920326 |
| dc.contributor.authorLattes.fl_str_mv |
http://lattes.cnpq.br/6315876505845931 |
| dc.contributor.author.fl_str_mv |
FabrÃcio EulÃlio Leite Carvalho |
| contributor_str_mv |
Joaquim AlbenÃsio Gomes da Silveira SÃrgio Luiz Ferreira da Silva Luiz Ferreira Aguiar Ponte Andrà Luis Coelho da Silva |
| dc.subject.por.fl_str_mv |
excesso de irradiÃncia fotossÃntese fotossistemas metabolismo redox Oryza sativa |
| topic |
excesso de irradiÃncia fotossÃntese fotossistemas metabolismo redox Oryza sativa irradiance excess photosynthesis photosystems redox metabolism Oryza sativa BIOQUIMICA |
| dc.subject.eng.fl_str_mv |
irradiance excess photosynthesis photosystems redox metabolism Oryza sativa |
| dc.subject.cnpq.fl_str_mv |
BIOQUIMICA |
| dc.description.sponsorship.fl_txt_mv |
CoordenaÃÃo de AperfeiÃoamento de Pessoal de NÃvel Superior |
| dc.description.abstract.por.fl_txt_mv |
In tropical regions, where there is a high incidence of light, electrons can accumulate in the transport chain (PET) producing large quantities of H 2 O 2 and other ROS, which might generate photodamage and photoinhibition. To survive to these challenges, plants have developed several mechanisms to mitigate the excess energy in photosystems, besides having an efficient machinery for removal of excess H 2 O 2 , which includes cytosolic APX (cAPX). However, double - silenced rice plants for cAPX (OsAPX1/2) do not show large differences in morpho - phenotype when compared to non - transformed (NT), although OsAPX1/2 presents induction of expression on several proteins re lated to photosynthesis. The physiological implications of this induction, as well as its consequences for OsAPX1/2 resistance against stresses of high light (HL), are still poorly known. Aiming to clarify the role of cAPx in pho tosynthesis, OsAPX1/2 plant s were produced, subjected to 24 hours of HL (2 , 000 μ mol m - 2 s - 1 ) and studied for the expression and activity of proteins related to photosynthesis , ph otorespira tion and redox homeostasis . The amount of several PET proteins (Lhcb1, PsbO, Psb P, PsbQ, PSAC, P C, FNR and FDX) and Chl and Pheo were increased in OsAPX1/2 in normal growth conditions, however without causing changes in the in vivo photochemistry activity parameters (Fv /Fm and ΔFm/Fm'). In contrast, expression of proteins associated with Calvin - Benso n cycle (Rls, ativase RBC) and rubisco carboxylation activity ( in vivo and in vitro ) were not altered in mutants under normal growth conditions . In HL, the expression of proteins related to photosynthesis was strongly repressed in all genotypes , as well as gas exchange parameters and Fv/Fm, the latter being strong indication of photoinhibition. Moreover, proteins related to photorespiration showed increased expression/activity in response to HL in NT and maintenance of already high levels in OsAPX1/2. In OsAPX1/2 t h e expression and activity of chloroplastic Cu/Zn - SOD showed a similar response exhibited by photorespiration - related proteins, although the activity of thylakoid APX has been greatly reduced, meaning deficiency in water - water cycle. Taken togeth er, these data demonstrate that induction of expression of proteins related PET in OsAPX1/2 plants may represent a compensatory mechanism for maintaining the photosynthetic activity levels similar to NT. Moreover, in HL, it is possible that the increased e xpression of photorespiration - related proteins in OsAPX1/2 acts as alternative electron sink, compensating the deficiency in the water - water cycle from these plants Em regiÃes tropicais, onde existe alta incidÃncia luminosa, os elÃtrons podem se acumular na cadeia transportadora (PET) produzindo grandes quantidades de H 2 O 2 e outras ROS, que podem gerar fotodano e fotoinibiÃÃo. Para sobreviver a esse desafio, plantas desenvolveram vÃrios mecanismos de atenuaÃÃo do excesso de energia nos fotossistemas, alÃm de contar com uma eficiente ma quinaria de remoÃÃo do excesso de H 2 O 2 , da qual fazem parte as APX citosÃlicas (cAPX). Entretanto, plantas duplamente silenciadas para as cAPX (OsAPX1/2) nÃo apresentam grandes diferenÃas morfo - fenotÃpicas quando comparadas Ãs nÃo transformadas (NT), embor a OsAPX1/2 apresente induÃÃo de expressÃo de diversas proteÃnas relacionadas com a fotossÃntese, comparadas com as NT. As implicaÃÃes fisiolÃgicas dessa induÃÃo, assim como suas consequÃncias para a resistÃncia de OsAPX1/2 contra estresses de alta luz (HL) , ainda sÃo pouco conhecidas. Objetivando clarificar o papel das cAPx na fotossÃntese, plantas de arroz OsAPX1/2 foram produzidas, submetidas a 24 horas de HL (2000 μ mol m - 2 s - 1 ) e estudadas quanto à expressÃo e atividade de proteÃnas relacionadas com a fotossÃntese, fotorespiraÃÃo e homeostase redox. A quantidade de diversas proteÃnas da PET (Lhcb1, PsbO, PsbP, PsbQ, PSAC, PC, e FDX FNR), bem como teores de Chl e Pheo foram aum entadas em OsAPX1/2 em condiÃÃes normais de crescimento sem causar alteraÃÃes nos parÃmetros de atividade fotoquÃmica in vivo (Fv/Fm e Δ Fm/Fm'). Em contraste, as proteÃnas relacionadas com expressÃo ciclo de Calvin - Benson (Rls, ativase de Rbc) e a ativida de de carboxilaÃÃo da rubisco ( in vivo e in vitro ) nÃo foram alterados nos mutantes em condiÃÃes normais de crescimento. Em HL, a expressÃo de proteÃnas relacionadas com fotossÃntese foi fortemente reprimida em ambos os genÃtipos, assim como os parÃmetros de trocas gasosas e Fv/Fm, sendo esse Ãltimo forte indÃcio de fotoinibiÃÃo. Por outro lado, as proteÃnas relacionadas com a fotorespiraÃÃo, ou mostraram aumento na expressÃo/atividade em resposta à luz elevada (NT) ou manutenÃÃo de nÃveis jà elevados (OsAP X1/2) . A expressÃo e atividade de Cu/Zn - SOD de cloroplastos mostrou resposta similar a exibida pelas proteÃnas da fotorespiraÃÃo, embora a atividade de APX de tilacÃides tenha sido fortemente reduzida em OsAPX1/2, evidenciando deficiÃncia no ciclo Ãgua - Ãgu a. Tomados em conjunto, estes dados demonstram que a induÃÃo da expressÃo de proteÃnas relacionadas com o PET em OsAPX1/2 pode representar um mecanismo compensatÃrio para a manutenÃÃo da atividade fotossintÃtica aos nÃveis da NT. Por outro lado, sob HL, à possÃvel que o aumento da expressÃo de proteÃnas associadas com fotorespira ÃÃo em OsAPX1/2 atue como dissipador alternativo de elÃtrons, compensando a deficiÃncia no ciclo da Ãgua - Ãgua dessas plantas |
| description |
In tropical regions, where there is a high incidence of light, electrons can accumulate in the transport chain (PET) producing large quantities of H 2 O 2 and other ROS, which might generate photodamage and photoinhibition. To survive to these challenges, plants have developed several mechanisms to mitigate the excess energy in photosystems, besides having an efficient machinery for removal of excess H 2 O 2 , which includes cytosolic APX (cAPX). However, double - silenced rice plants for cAPX (OsAPX1/2) do not show large differences in morpho - phenotype when compared to non - transformed (NT), although OsAPX1/2 presents induction of expression on several proteins re lated to photosynthesis. The physiological implications of this induction, as well as its consequences for OsAPX1/2 resistance against stresses of high light (HL), are still poorly known. Aiming to clarify the role of cAPx in pho tosynthesis, OsAPX1/2 plant s were produced, subjected to 24 hours of HL (2 , 000 μ mol m - 2 s - 1 ) and studied for the expression and activity of proteins related to photosynthesis , ph otorespira tion and redox homeostasis . The amount of several PET proteins (Lhcb1, PsbO, Psb P, PsbQ, PSAC, P C, FNR and FDX) and Chl and Pheo were increased in OsAPX1/2 in normal growth conditions, however without causing changes in the in vivo photochemistry activity parameters (Fv /Fm and ΔFm/Fm'). In contrast, expression of proteins associated with Calvin - Benso n cycle (Rls, ativase RBC) and rubisco carboxylation activity ( in vivo and in vitro ) were not altered in mutants under normal growth conditions . In HL, the expression of proteins related to photosynthesis was strongly repressed in all genotypes , as well as gas exchange parameters and Fv/Fm, the latter being strong indication of photoinhibition. Moreover, proteins related to photorespiration showed increased expression/activity in response to HL in NT and maintenance of already high levels in OsAPX1/2. In OsAPX1/2 t h e expression and activity of chloroplastic Cu/Zn - SOD showed a similar response exhibited by photorespiration - related proteins, although the activity of thylakoid APX has been greatly reduced, meaning deficiency in water - water cycle. Taken togeth er, these data demonstrate that induction of expression of proteins related PET in OsAPX1/2 plants may represent a compensatory mechanism for maintaining the photosynthetic activity levels similar to NT. Moreover, in HL, it is possible that the increased e xpression of photorespiration - related proteins in OsAPX1/2 acts as alternative electron sink, compensating the deficiency in the water - water cycle from these plants |
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2013 |
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2013-02-25 |
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