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Cellulose synthases in Populus- identification, expression analyses and in vitro synthesisDjerbi, Soraya January 2005 (has links)
Cellulose is a biopolymer of great relevance in the plant cell walls, where it constitutes the most important skeletal component. Cellulose is also an important raw material in the pulp- and paper, forest, and textile industries, among others. Cellulose biosynthesis in particular, and xylogenesis in general are processes which are currently poorly understood. Yet, research in cellulose synthesis is progressing and different applications of cellulose, mainly cellulose derivatives for e.g. pharmaceuticals and coatings, are constantly emerging. This thesis depicts how cellulose synthase (CesA) genes in Populus were identified and characterized by gene expression- and bioinformatics analyses. Within an EST database of more than 100,000 clones from wood forming tissues of three different Populus taxa, ten CesA genes were identified in Populus tremula x tremuloides. Subsequent gene expression analyses by using microarrays and real-time PCR experiments in woody tissues, revealed distinct regulation patterns among the genes of interest. This enabled proper classification and characterization of the secondary cell wall related CesA genes, in particular. Bioinformatic analyses of the genome sequence of Populus trichocarpa further provided a complete picture of the number of putative CesA genes retained after several duplication events during tree evolution. In contrast to the previously reported set of ten 'true' CesA genes in many other plant species, the genome of P. trichocarpa encodes 18 putative proteins, which could be assembled into nine groups according to their sequence similarities. Interestingly, studies in the EST database suggested that paralogs within at least two groups have corresponding orthologs in P. tremula x tremuloides, which are furthermore transcribed. This implies that at least some of the duplicated genes have remained functional, or may have acquired a modified function. By focusing on the CesA genes associated with secondary cell wall formation, cellulose synthesis was also studied in poplar cell suspension cultures. Selection of CesA enriched material was performed by determining expression intensities of the CesA genes using RT-PCR, whereupon membrane protein extraction was initiated. CesA proteins are part of large cellulose synthesizing complexes in the plasma membrane. Subsequent proteomic approaches comprised partial purification of these cellulose synthesizing complexes from protein enriched culture material and in vitro cellulose synthesis experiments. De novo synthesized material was successfully characterized and the acquired yields were as high as 50% cellulose (compared to previously reported yields of 30% in other plant systems) of the total in vitro synthesized product. Elevated CesA gene expression levels can thus be correlated to increased protein activity in poplar cell suspension cultures. In addition, antibodies raised against CesA antigens were used in Western blot analyses comprising samples along the protein extraction- and purification procedure. Proteins with corresponding molecular weight to the theoretical 120kDa of CesA proteins were recognized by a range of different specific antibodies. The study demonstrates that poplar cell suspension cultures can provide a valuable model system for studies of cellulose synthesis and different aspects of xylogenesis. / QC 20101005
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Modeling of plant in vitro cultures – overview and estimation of biotechnological processesMaschke, Rüdiger W., Geipel, Katja, Bley, Thomas 25 January 2017 (has links) (PDF)
Plant cell and tissue cultivations are of growing interest for the production of structurally complex and expensive plant-derived products, especially in pharmaceutical production. Problems with up-scaling, low yields and high-priced process conditions result in an increased demand for models to provide comprehension, simulation, and optimization of production processes.
In the last 25 years, many models have evolved in plant biotechnology; the majority of them are specialized models for a few selected products or nutritional conditions. In this article we review, delineate, and discuss the concepts and characteristics of the most commonly used models. Therefore, the authors focus on models for plant suspension and submerged hairy root cultures. The article includes a short overview of modeling and mathematics and integrated parameters, as well as the application scope for each model. The review is meant to help researchers better understand and utilize the numerous models published for plant cultures, and to select the most suitable model for their purposes.
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Produção de carotenoides em culturas in vitro de Cleome rosea Vahl ex DC (Capparaceae) e avaliação de sua toxicidade e potencial antioxidante / Carotenoid production in vitro cultures of Cleome rosea Vahl ex DC (Capparaceae) and evaluation of toxicity and antioxidant potential.Adriana Silva da Rocha 29 February 2012 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / A produção e a otimização de substâncias de valor medicinal têm sido alcançadas pelo
uso das técnicas de cultura de tecidos vegetais, que têm apresentado grande relevância quando
se considera o status de conservação de uma espécie ou sua ocorrência em ambientes
ameaçados. No presente trabalho foi avaliada a produção de carotenoides em culturas de calos
e células em suspensão de Cleome rosea Vahl ex DC, espécie nativa encontrada em áreas de
restinga nos estados do Rio de Janeiro e de São Paulo. Plantas micropropagadas obtidas a
partir de raízes produzidas in vitro foram usadas como fonte de explantes para o início das
culturas de calos. A produção de massa calogênica foi avaliada em meio MS suplementado
com diferentes concentrações das auxinas ácido 2,4-diclorofenoxiacético e ácido 4-amino-
3,5,6-tricloropicolínico, na presença de luz ou no escuro. O uso de diferentes meios básicos de
cultura (B5, Nitsch, White) também foi avaliado. A calogênese foi induzida em todos os
tratamentos, entretanto a maior produção de biomassa foi alcançada pelas culturas mantidas
na presença de luz. A maior produção de massa calogênica foi obtida em culturas iniciadas no
meio MS suplementado com 0,2 mg.L-1 de 2,4-D. A exposição das culturas à luz foi um fator
essencial para a produção de carotenoides, que só ocorreu nas culturas mantidas nessa
condição. Culturas de calos foram submetidas a tratamentos com substâncias elicitoras
(extrato de levedura, metil jasmonato, quitosana) em diferentes concentrações e por um
período de exposição de sete ou 14 dias visando otimizar a produção do pigmento. A maior
produção de carotenoides nas culturas elicitadas foi alcançada com o tratamento com metil
jasmonato (MJ) na concentração de 300 μM, independentemente do tempo de exposição ao
elicitor. Análises cromatográficas mostraram que o processo de elicitação com MJ induziu ao
aumento na produção de β-caroteno. Calos elicitados nessa condição foram usados para
iniciar culturas de células em suspensão (CCS). Estas culturas foram acompanhadas por três
subculturas realizadas a cada 20 dias, durante a fase exponencial de crescimento. Embora as
CCS tenham mantido uma produção de biomassa constante ao longo das subculturas, os
valores de produção de carotenoides foram inferiores àqueles alcançados pelas culturas de
calos e não houve diferenças estatísticas significativas quando comparadas às CCS iniciadas a
partir de calos não elicitados. Extratos de calos produzidos em meio MS suplementado com
0,2 mg.L-1 de 2,4-D foram avaliados quanto à sua capacidade antioxidante por meio da
incubação dos extratos com DNA plasmidial em presença de cloreto estanoso (SnCl2), um
potente agente redutor capaz de produzir quebras na molécula de DNA. Os extratos foram
avaliados em concentrações crescentes (25 - 500 μg.mL-1) e apresentaram uma proteção dose
dependente à ação do SnCl2. Estudos de toxicidade com o modelo de Artemia salina
demonstraram que os extratos não apresentaram toxicidade nas concentrações avaliadas. Os
resultados alcançados mostram que a elicitação foi eficiente para a otimização da produção de
β-caroteno nas culturas in vitro e que os extratos obtidos a partir desses materiais
apresentaram atividade antioxidante, indicando o êxito das técnicas de cultura de tecidos para
a produção deste metabólito sob condição in vitro. / The production and optimization of plants secondary metabolites with medicinal value
have been achieved by using plant tissue culture techniques, which have showed great
relevance when considering the conservation status of a species or their occurrence in
degraded environments. The present study assessed the production of carotenoids in callus
and cell suspension cultures of Cleome rosea Vahl ex DC (Capparaceae), a Brazilian native
herbaceous species that occurs mainly in coastal sandy plains (restingas) in the states of Rio
de Janeiro and São Paulo. Micropropagated plants obtained from in vitro roots were used as
source of explants for callus cultures. Callus biomass accumulation was evaluated on MS
medium supplemented with different concentrations of the auxins 2,4-Dichlorophenoxyacetic
acid (2,4-D) and 4-Amino-3,5,6-trichloropicolinic acid (PIC), in the presence of light and in
the dark. The use of different culture basal media (B5, Nitsch, and White) was also evaluated.
Calogenesis was induced in all treatments; however greater efficiency was achieved by
cultures maintained in the light. Exposure of cultures to light was also an essential factor to
induce the production of carotenoids. The highest biomass accumulation was achieved by
cultures established on MS medium supplemented with 0.2 mg.L-1 2,4-D. Callus cultures
were subject to treatments with a range of elicitors (chitosan, methyl jasmonate, yeast
extract), at different concentrations and time of exposure (7 or 14 days). The highest
production of carotenoids was achieved by cultures treated with 300 μM methyl jasmonate
(MJ), regardless of time exposure. The chromatographic analysis showed that elicitation with
MJ induced an increase in the production of β-carotene. Elicited calluses were used to
establish cell suspension cultures (CSC). These cultures were evaluated during three
subsequent subcultures performed at 20 days each during the exponential growth phase.
Although the CSC have maintained a steady biomass accumulation along successive
subcultures, carotenoids content were lower than those achieved by callus cultures and did not
present significant differences when compared to CSC established from no elicited callus.
Extracts of callus obtained from MS medium supplemented with 0.2 mg.L-1 2,4-D were
evaluated for their antioxidant potential. These extracts were incubated with plasmid DNA in
the presence of stannous chloride (SnCl2), a potent reduced agent. Extracts were used at
increasing concentrations (25 - 500 μg.mL-1) and showed a dose-dependent protective action,
regardless of their origin. Studies of toxicity using the brine shrimp lethality bioassay revealed
that the extracts were not toxic at tested concentrations. This study showed that the use of
elicitation was a powerful tool in the optimization of β-carotene production in in vitro cultures
of C. rosea and that extracts obtained from these cultures have antioxidant activity, indicating
the success of plant tissue culture techniques for production of this metabolite under in vitro
condition.
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Produção de carotenoides em culturas in vitro de Cleome rosea Vahl ex DC (Capparaceae) e avaliação de sua toxicidade e potencial antioxidante / Carotenoid production in vitro cultures of Cleome rosea Vahl ex DC (Capparaceae) and evaluation of toxicity and antioxidant potential.Adriana Silva da Rocha 29 February 2012 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / A produção e a otimização de substâncias de valor medicinal têm sido alcançadas pelo
uso das técnicas de cultura de tecidos vegetais, que têm apresentado grande relevância quando
se considera o status de conservação de uma espécie ou sua ocorrência em ambientes
ameaçados. No presente trabalho foi avaliada a produção de carotenoides em culturas de calos
e células em suspensão de Cleome rosea Vahl ex DC, espécie nativa encontrada em áreas de
restinga nos estados do Rio de Janeiro e de São Paulo. Plantas micropropagadas obtidas a
partir de raízes produzidas in vitro foram usadas como fonte de explantes para o início das
culturas de calos. A produção de massa calogênica foi avaliada em meio MS suplementado
com diferentes concentrações das auxinas ácido 2,4-diclorofenoxiacético e ácido 4-amino-
3,5,6-tricloropicolínico, na presença de luz ou no escuro. O uso de diferentes meios básicos de
cultura (B5, Nitsch, White) também foi avaliado. A calogênese foi induzida em todos os
tratamentos, entretanto a maior produção de biomassa foi alcançada pelas culturas mantidas
na presença de luz. A maior produção de massa calogênica foi obtida em culturas iniciadas no
meio MS suplementado com 0,2 mg.L-1 de 2,4-D. A exposição das culturas à luz foi um fator
essencial para a produção de carotenoides, que só ocorreu nas culturas mantidas nessa
condição. Culturas de calos foram submetidas a tratamentos com substâncias elicitoras
(extrato de levedura, metil jasmonato, quitosana) em diferentes concentrações e por um
período de exposição de sete ou 14 dias visando otimizar a produção do pigmento. A maior
produção de carotenoides nas culturas elicitadas foi alcançada com o tratamento com metil
jasmonato (MJ) na concentração de 300 μM, independentemente do tempo de exposição ao
elicitor. Análises cromatográficas mostraram que o processo de elicitação com MJ induziu ao
aumento na produção de β-caroteno. Calos elicitados nessa condição foram usados para
iniciar culturas de células em suspensão (CCS). Estas culturas foram acompanhadas por três
subculturas realizadas a cada 20 dias, durante a fase exponencial de crescimento. Embora as
CCS tenham mantido uma produção de biomassa constante ao longo das subculturas, os
valores de produção de carotenoides foram inferiores àqueles alcançados pelas culturas de
calos e não houve diferenças estatísticas significativas quando comparadas às CCS iniciadas a
partir de calos não elicitados. Extratos de calos produzidos em meio MS suplementado com
0,2 mg.L-1 de 2,4-D foram avaliados quanto à sua capacidade antioxidante por meio da
incubação dos extratos com DNA plasmidial em presença de cloreto estanoso (SnCl2), um
potente agente redutor capaz de produzir quebras na molécula de DNA. Os extratos foram
avaliados em concentrações crescentes (25 - 500 μg.mL-1) e apresentaram uma proteção dose
dependente à ação do SnCl2. Estudos de toxicidade com o modelo de Artemia salina
demonstraram que os extratos não apresentaram toxicidade nas concentrações avaliadas. Os
resultados alcançados mostram que a elicitação foi eficiente para a otimização da produção de
β-caroteno nas culturas in vitro e que os extratos obtidos a partir desses materiais
apresentaram atividade antioxidante, indicando o êxito das técnicas de cultura de tecidos para
a produção deste metabólito sob condição in vitro. / The production and optimization of plants secondary metabolites with medicinal value
have been achieved by using plant tissue culture techniques, which have showed great
relevance when considering the conservation status of a species or their occurrence in
degraded environments. The present study assessed the production of carotenoids in callus
and cell suspension cultures of Cleome rosea Vahl ex DC (Capparaceae), a Brazilian native
herbaceous species that occurs mainly in coastal sandy plains (restingas) in the states of Rio
de Janeiro and São Paulo. Micropropagated plants obtained from in vitro roots were used as
source of explants for callus cultures. Callus biomass accumulation was evaluated on MS
medium supplemented with different concentrations of the auxins 2,4-Dichlorophenoxyacetic
acid (2,4-D) and 4-Amino-3,5,6-trichloropicolinic acid (PIC), in the presence of light and in
the dark. The use of different culture basal media (B5, Nitsch, and White) was also evaluated.
Calogenesis was induced in all treatments; however greater efficiency was achieved by
cultures maintained in the light. Exposure of cultures to light was also an essential factor to
induce the production of carotenoids. The highest biomass accumulation was achieved by
cultures established on MS medium supplemented with 0.2 mg.L-1 2,4-D. Callus cultures
were subject to treatments with a range of elicitors (chitosan, methyl jasmonate, yeast
extract), at different concentrations and time of exposure (7 or 14 days). The highest
production of carotenoids was achieved by cultures treated with 300 μM methyl jasmonate
(MJ), regardless of time exposure. The chromatographic analysis showed that elicitation with
MJ induced an increase in the production of β-carotene. Elicited calluses were used to
establish cell suspension cultures (CSC). These cultures were evaluated during three
subsequent subcultures performed at 20 days each during the exponential growth phase.
Although the CSC have maintained a steady biomass accumulation along successive
subcultures, carotenoids content were lower than those achieved by callus cultures and did not
present significant differences when compared to CSC established from no elicited callus.
Extracts of callus obtained from MS medium supplemented with 0.2 mg.L-1 2,4-D were
evaluated for their antioxidant potential. These extracts were incubated with plasmid DNA in
the presence of stannous chloride (SnCl2), a potent reduced agent. Extracts were used at
increasing concentrations (25 - 500 μg.mL-1) and showed a dose-dependent protective action,
regardless of their origin. Studies of toxicity using the brine shrimp lethality bioassay revealed
that the extracts were not toxic at tested concentrations. This study showed that the use of
elicitation was a powerful tool in the optimization of β-carotene production in in vitro cultures
of C. rosea and that extracts obtained from these cultures have antioxidant activity, indicating
the success of plant tissue culture techniques for production of this metabolite under in vitro
condition.
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Modeling of plant in vitro cultures – overview and estimation of biotechnological processesMaschke, Rüdiger W., Geipel, Katja, Bley, Thomas January 2015 (has links)
Plant cell and tissue cultivations are of growing interest for the production of structurally complex and expensive plant-derived products, especially in pharmaceutical production. Problems with up-scaling, low yields and high-priced process conditions result in an increased demand for models to provide comprehension, simulation, and optimization of production processes.
In the last 25 years, many models have evolved in plant biotechnology; the majority of them are specialized models for a few selected products or nutritional conditions. In this article we review, delineate, and discuss the concepts and characteristics of the most commonly used models. Therefore, the authors focus on models for plant suspension and submerged hairy root cultures. The article includes a short overview of modeling and mathematics and integrated parameters, as well as the application scope for each model. The review is meant to help researchers better understand and utilize the numerous models published for plant cultures, and to select the most suitable model for their purposes.
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Cultivo de célula BHK-21 C13 em meio de cultura livre de soro fetal bovino adaptada para crescimento em suspensão / Cell bhk-21 c13 culture in the means of free culture of fetal bovine serum adapted for suspension growthLeme, Jaci 14 December 2016 (has links)
Células de mamíferos são os hospedeiros mais frequentemente utilizados para a fabricação de proteínas biofarmacêuticas e para a produção de vacinas virais, A qualidade é um elemento-chave para o estabelecimento de um processo de bioconversão eficiente. No presente trabalho utilizamos a linhagem de células BHK- 21C13(Baby Hamster Kidney) adaptadas para cultivo em suspensão. O uso de Soro Fetal Bovino (SFB) é tradicionalmente utilizado, sendo considerado um suplemento universal, pois permite o crescimento em várias linhagens de células de mamíferos; porém, uso de SFB apresenta risco de infecção por prions, variabilidade entre lotes e aumento no custo em etapa de purificação (Downstream processing). O objetivo do presente trabalho foi comparar o cultivo de células BHK-21 C13 entre dois meios suplementados com SFB e sem SFB, através do estudo cinético para cultivo em suspensão estático e agitado com frascoT, frasco spinner e biorreator, respectivamente. Os parâmetros; Xmáx e µmáx, não foram significativamente influenciados pelo meio de cultura em cultivo estático, em cultivo com agitação em frasco spinner e também no cultivo em biorreator. O tempo de duplicação ficou próximo para todas as condições testadas. A produtividade alcançada foi: 0,032x106 cel/mL.h-1 para o meio com SFB e 0,031 X106 cel/mL.h-1 para o meio sem SFB. Ao final do processo foi possível obter uma concentração celular em torno de 4,7x106 cel/mL, tanto para o cultivo com SFB quanto para o cultivo sem SFB. Dessa forma, o uso de meio de cultivo sem SFB não alterou os principais parâmetros cinéticos, não apresentando as desvantagens do uso do SFB. / Mammalian cells are the most frequently used hosts for the production of biopharmaceutical proteins and viral vaccines. Quality is a key element for the establishment of an efficient bioconversion process. In this work, we used the cell line Baby Hamster Kidney C13 (BHK-21 C13) adapted to suspension culture was used. Fetal Bovine Serum (FBS) is traditionally used and it is considered a universal insert due to its power to increase cell growth in this kind of animal cells. However, the utilization of FBS introduces risks of infection from prions, variability between batches and increase in cost associated to purification stages (downstream processing). This work aimed to compare the kinetic behaviors of BHK-21 C13 cells in two media supplemented with FBS and without FBS using both one static and two suspension systems, T-flask, spinner flask and bioreactor respectively. The parameters; Xmax and µmax were not significantly influenced by the culture medium in T- flask culture static, in spinner flask cultivation and were neither significantly influenced by growing in culture media stirred bioreactor. The doubling time was close to all conditions tested. At the end of the growth phase it was possible to obtain a nearby cell concentration of 4.7 x 106 cells / ml, both for cultivation with FBS as for FBS without cultivation. Thus, the use of culture medium without FBS did not affect the main kinetic parameters. Besides, it does not show the disadvantages of culture media using FBS.
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Cultivo de célula BHK-21 C13 em meio de cultura livre de soro fetal bovino adaptada para crescimento em suspensão / Cell bhk-21 c13 culture in the means of free culture of fetal bovine serum adapted for suspension growthJaci Leme 14 December 2016 (has links)
Células de mamíferos são os hospedeiros mais frequentemente utilizados para a fabricação de proteínas biofarmacêuticas e para a produção de vacinas virais, A qualidade é um elemento-chave para o estabelecimento de um processo de bioconversão eficiente. No presente trabalho utilizamos a linhagem de células BHK- 21C13(Baby Hamster Kidney) adaptadas para cultivo em suspensão. O uso de Soro Fetal Bovino (SFB) é tradicionalmente utilizado, sendo considerado um suplemento universal, pois permite o crescimento em várias linhagens de células de mamíferos; porém, uso de SFB apresenta risco de infecção por prions, variabilidade entre lotes e aumento no custo em etapa de purificação (Downstream processing). O objetivo do presente trabalho foi comparar o cultivo de células BHK-21 C13 entre dois meios suplementados com SFB e sem SFB, através do estudo cinético para cultivo em suspensão estático e agitado com frascoT, frasco spinner e biorreator, respectivamente. Os parâmetros; Xmáx e µmáx, não foram significativamente influenciados pelo meio de cultura em cultivo estático, em cultivo com agitação em frasco spinner e também no cultivo em biorreator. O tempo de duplicação ficou próximo para todas as condições testadas. A produtividade alcançada foi: 0,032x106 cel/mL.h-1 para o meio com SFB e 0,031 X106 cel/mL.h-1 para o meio sem SFB. Ao final do processo foi possível obter uma concentração celular em torno de 4,7x106 cel/mL, tanto para o cultivo com SFB quanto para o cultivo sem SFB. Dessa forma, o uso de meio de cultivo sem SFB não alterou os principais parâmetros cinéticos, não apresentando as desvantagens do uso do SFB. / Mammalian cells are the most frequently used hosts for the production of biopharmaceutical proteins and viral vaccines. Quality is a key element for the establishment of an efficient bioconversion process. In this work, we used the cell line Baby Hamster Kidney C13 (BHK-21 C13) adapted to suspension culture was used. Fetal Bovine Serum (FBS) is traditionally used and it is considered a universal insert due to its power to increase cell growth in this kind of animal cells. However, the utilization of FBS introduces risks of infection from prions, variability between batches and increase in cost associated to purification stages (downstream processing). This work aimed to compare the kinetic behaviors of BHK-21 C13 cells in two media supplemented with FBS and without FBS using both one static and two suspension systems, T-flask, spinner flask and bioreactor respectively. The parameters; Xmax and µmax were not significantly influenced by the culture medium in T- flask culture static, in spinner flask cultivation and were neither significantly influenced by growing in culture media stirred bioreactor. The doubling time was close to all conditions tested. At the end of the growth phase it was possible to obtain a nearby cell concentration of 4.7 x 106 cells / ml, both for cultivation with FBS as for FBS without cultivation. Thus, the use of culture medium without FBS did not affect the main kinetic parameters. Besides, it does not show the disadvantages of culture media using FBS.
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Untersuchungen über Konsequenzen einer deregulierten Chlorophyllsynthese und funktionelle Analyse des YCF54/LCAA-Proteins in Cyanobakterien und PflanzenGirke, Annabel 18 August 2015 (has links)
Die Biosynthese von Chlorophyll ist komplex und umfasst mehr als ein Dutzend enzymatische Schritte. Es ist nur allzu selbstverständlich, dass eine Deregulation der Chlorophyllsynthese globale Effekte auf die Zelle hat. Um diese Konsequenzen näher zu beleuchten, wurden Arabidopsis thaliana Pflanzen mit chemisch induzierter Deaktivierung von zwei Chlorophyllbiosynthesegenen (CHLH bzw. CHL27) erzeugt sowie photoautotophe Zellsuspensionskulturen von Arabidopsis thaliana hinsichtlich kurzzeitig induzierter Signalprozesse untersucht. Die Resultate verdeutlichen, dass durch Fehlregulationen innerhalb der Chlorophyllbiosynthese erzeugte reaktive Sauerstoffspezies die Transkriptionskontrolle kernkodierter Gene beeinflussen. Die Untersuchung eines enzymatischen Schrittes der Chlorophyllbiosynthese trat in dieser Arbeit in den Hauptfokus: Die Bildung des fünften, isozyklischen Ringes im Chlorophyllmolekül, katalysiert durch das bisher unzureichend erforschte Enzym Mg-Protoporphyrin-IX-monomethylester-Cyclase (Cyclase). Anhand von transgenen Cyanobakterien und Pflanzen sollte das noch unbekannte Gen ycf54 hinsichtlich seiner physiologischen Funktion in dem Cyclase-Enzymschritt analysiert werden. Das Fehlen von Ycf54 in Synechocystis sp. PCC6803 bzw. des homologen LCAA-Proteins in Nicotiana tabacum und Arabidopsis thaliana führt zu starken Cyclase-Substrat-Akkumulationen, verringerten Chlorophyllgehalten und reduzierten Ycf59- bzw. CHL27-Proteingehalten. Ein Mangel von Ycf54/LCAA beeinträchtigt daher die Funktionalität des Cyclase-Komplexes und scheint sich zudem interessanterweise auch auf die Stabilität photosynthetischer Antennenkomplexe auszuwirken. Mittels Pulldown-Assays konnte für Arabidopsis thaliana die direkte physikalische Interaktion zwischen LCAA und CHL27 bestätigt werden. Darüber hinaus sind erste Hinweise für die Ferredoxin-NADP-Reduktase als potenziellen Interaktionspartner gezeigt. / Synthesis of chlorophyll is a complex metabolic process and encompasses more than a dozen enzymatic reactions. It is self-evident that a deregulation of chlorophyll biosynthesis evokes global cellular impacts. To elucidate these consequences Arabidopsis thaliana plants with chemically inducible deactivation of two chlorophyll biosynthesis genes (CHLH and CHL27, respectively) were generated and photoautotrophic cell suspension cultures of Arabidopsis thaliana were used for short induced signal processes. The results illustrate that reactive oxygen species provoked by a deregulated chlorophyll synthesis affect the control of transcription of nuclear genes. The investigation of one enzymatic step of chlorophyll biosynthesis was placed as main focus: The formation of the isocyclic ring of the chlorophyll molecule catalyzed by the Mg protoporphyrin IX monomethyl ester cyclase (short: cyclase), an enzyme which is not fully investigated so far. The still unknown hypothetical chloroplast open reading frame (ycf) ycf54 should be analyzed concerning it’s physiological function in the enzymatic step of the cyclase using transgenic cyanobacteria and plants. Lack of Ycf54 in Synechocystis sp. PCC6803 and the homologous LCAA protein in Nicotiana tabacum and Arabidopsis thaliana, respectively, leads to chlorophyll deficiency, a strong accumulation of the cyclase substrate and reduced protein contents of Ycf59 and CHL27, respectively. A deficit of Ycf54/LCAA impairs the functionality of the cyclase complex and also might compromise the stability of photosynthetic antenna complexes. Using pull-down assays a direct physical interaction between LCAA and CHL27 could be confirmed. Additionally, first evidences for ferredoxin NADP reductase as a potential interaction partner was given.
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