Antioxidant isoenzyme responses to nickel-induced stress in tobacco cell suspension culture

Exposure to nickel (Ni) at high concentrations can lead to production of reactive oxygen species (ROS) resulting in oxidative damage at the cellular level. We investigated the antioxidative responses of Nicotiana tabacum cv BY-2 cell suspension to Ni stress (0.075 and 0.75 mM NiCl2) over a 72 h period with special attention to potential alterations in isoenzymes of superoxide dismutase (SOD), catalase (CAT) and glutathione reductase (GR). Two main SOD isoenzymes were observed, a Mn-SOD (band I) and a Fe-SOD (band II), as well as one CAT isoenzyme and four GR isoenzymes. Activity staining analysis revealed that CAT activity plays a major role in the early response to Ni-induced oxidative stress, particularly when the Ni concentration used was low, whilst a specific GR isoenzyme appears to respond to the Ni-induced oxidative stress when a much higher Ni concentration was used to induce the stress for the same period of treatment. These results illustrate the importance and advantages of determining individual isoenzyme activities.A exposição ao níquel (Ni), em altas concentrações, pode levar à produção de espécies reativas de oxigênio (EAOs), resultando em danos oxidativos em nível celular. Foram investigadas as respostas antioxidativas de células em suspensão do cultivar BY-2 de Nicotiana tabacum submetidas ao estresse por Ni (0.075 e 0.75 mM de NiCl2) por 72 h, com atenção especial às alterações potencias em isoenzimas de superóxido dismutase (SOD), catalase (CAT) e glutatione redutase (GR). Duas principais isoenzimas de SOD foram observadas, uma Mn-SOD (banda I) e outra Fe-SOD (banda II), bem como uma isoenzima CAT e quatro isoenzimas de GR. As análises revelaram que a atividade de CAT tem papel principal no momento inicial de resposta ao estresse oxidativo induzido por Ni, particularmente, quando sua concentração foi mais baixa, enquanto uma isoenzima específica de GR parece responder a este estresse na concentração mais alta de Ni, no mesmo período de tratamento. Os resultados ilustram a importância e as vantagens de se determinar a atividade de isoenzimas individuais

Antioxidant isoenzyme responses to nickel-induced stress in tobacco cell suspension culture

Exposure to nickel (Ni) at high concentrations can lead to production of reactive oxygen species (ROS) resulting in oxidative damage at the cellular level. We investigated the antioxidative responses of Nicotiana tabacum cv BY-2 cell suspension to Ni stress (0.075 and 0.75 mM NiCl2) over a 72 h period with special attention to potential alterations in isoenzymes of superoxide dismutase (SOD), catalase (CAT) and glutathione reductase (GR). Two main SOD isoenzymes were observed, a Mn-SOD (band I) and a Fe-SOD (band II), as well as one CAT isoenzyme and four GR isoenzymes. Activity staining analysis revealed that CAT activity plays a major role in the early response to Ni-induced oxidative stress, particularly when the Ni concentration used was low, whilst a specific GR isoenzyme appears to respond to the Ni-induced oxidative stress when a much higher Ni concentration was used to induce the stress for the same period of treatment. These results illustrate the importance and advantages of determining individual isoenzyme activities.A exposição ao níquel (Ni), em altas concentrações, pode levar à produção de espécies reativas de oxigênio (EAOs), resultando em danos oxidativos em nível celular. Foram investigadas as respostas antioxidativas de células em suspensão do cultivar BY-2 de Nicotiana tabacum submetidas ao estresse por Ni (0.075 e 0.75 mM de NiCl2) por 72 h, com atenção especial às alterações potencias em isoenzimas de superóxido dismutase (SOD), catalase (CAT) e glutatione redutase (GR). Duas principais isoenzimas de SOD foram observadas, uma Mn-SOD (banda I) e outra Fe-SOD (banda II), bem como uma isoenzima CAT e quatro isoenzimas de GR. As análises revelaram que a atividade de CAT tem papel principal no momento inicial de resposta ao estresse oxidativo induzido por Ni, particularmente, quando sua concentração foi mais baixa, enquanto uma isoenzima específica de GR parece responder a este estresse na concentração mais alta de Ni, no mesmo período de tratamento. Os resultados ilustram a importância e as vantagens de se determinar a atividade de isoenzimas individuais

Determination of aspartate kinase activity in maize tissues

Lysine, threonine, methionine and isoleucine are synthesized from aspartate in a branched pathway in higher plants. Aspartate kinase plays a key role in the control of the aspartate pathway. The enzyme is very sensitive to manipulation and storage and the hydroxamate assay normally used to determine aspartate kinase activity has to be altered according to the plant species and tissue to be analyzed. We have optimized the assay for the determination of aspartate kinase in maize plants callus cell cultures. Among all the assay parameters tested, the concentration of ATP/Mg and temperature were critical for enzyme activity. In the case of temperature, 35°C was shown to be the optimum temperature for aspartate kinase activity.Lisina, treonina, metionina e isoleucina são derivados do aspartato. Aspartato quinase tem um papel chave no controle da via metabólica do aspartato. A enzima é muito sensível à manipulação e armazenagem e o ensaio enzimático do hidroxamato que é normalmente utilizado para determinar a atividade da aspartato quinase deve ser alterado de acordo com a espécie de planta e tecido vegetal a ser analisado. Nós otimizamos o ensaio para a determinação da atividade da aspartato quinase em culturas celulares de calos de milho. Entre os vários parâmetros testados do ensaio, a concentração de ATP/Mg e temperatura foram críticos para atividade enzimática. No caso da temperatura, 35°C foi a temperatura ótima para atividade da aspartato quinase

Simple procedure for nutrient analysis of coffee plant with energy dispersive X-ray fluorescence spectrometry (EDXRF)

Nutrient analysis is used to estimate nutrient content of crop plants to manage fertilizer application for sustained crop production. Direct solid analysis of agricultural and environmental samples by energy dispersive X-ray fluorescence spectrometry (EDXRF) was chosen as alternative technique to evaluate the simultaneous multielemental quantification of the most important essential elements in coffee (Coffea arabica L.) plants. Inductively coupled plasma atomic emission spectrometry and certified reference materials made from leaves were used to calibrate and check the trueness of EDXRF method for the determination of the concentration of several nutrients in coffee leaves and branches. Fluorescence spectrometry proved to be advantageous and presented low cost as loose powder samples could be used. Samples collected from a field experiment where coffee plants were treated with excess of Ni and Zn were used to verify the practical application of the method. Good relationships were achieved between certified values and data obtained by EDXRF, with recoveries ranging from 82 to 117 %.26326

Biochemical and histological characterization of tomato mutants

Biochemical responses inherent to antioxidant systems as well morphological and anatomical properties of photomorphogenic, hormonal and developmental tomato mutants were investigated. Compared to the non-mutant Micro-Tom (MT), we observed that the malondialdehyde (MDA) content was enhanced in the diageotropica (dgt) and lutescent (l) mutants, whilst the highest levels of hydrogen peroxide (H2O2) were observed in high pigment 1 (hp1) and aurea (au) mutants. The analyses of antioxidant enzymes revealed that all mutants exhibited reduced catalase (CAT) activity when compared to MT. Guaiacol peroxidase (GPOX) was enhanced in both sitiens (sit) and notabilis (not) mutants, whereas in not mutant there was an increase in ascorbate peroxidase (APX). Based on PAGE analysis, the activities of glutathione reductase (GR) isoforms III, IV, V and VI were increased in l leaves, while the activity of superoxide dismutase (SOD) isoform III was reduced in leaves of sit, epi, Never ripe (Nr) and green flesh (gf) mutants. Microscopic analyses revealed that hp1 and au showed an increase in leaf intercellular spaces, whereas sit exhibited a decrease. The au and hp1 mutants also exhibited a decreased in the number of leaf trichomes. The characterization of these mutants is essential for their future use in plant development and ecophysiology studies, such as abiotic and biotic stresses on the oxidative metabolism

Simple procedure for nutrient analysis of coffee plant with energy dispersive X-ray fluorescence spectrometry (EDXRF)

Nutrient analysis is used to estimate nutrient content of crop plants to manage fertilizer application for sustained crop production. Direct solid analysis of agricultural and environmental samples by energy dispersive X-ray fluorescence spectrometry (EDXRF) was chosen as alternative technique to evaluate the simultaneous multielemental quantification of the most important essential elements in coffee (Coffea arabica L.) plants. Inductively coupled plasma atomic emission spectrometry and certified reference materials made from leaves were used to calibrate and check the trueness of EDXRF method for the determination of the concentration of several nutrients in coffee leaves and branches. Fluorescence spectrometry proved to be advantageous and presented low cost as loose powder samples could be used. Samples collected from a field experiment where coffee plants were treated with excess of Ni and Zn were used to verify the practical application of the method. Good relationships were achieved between certified values and data obtained by EDXRF, with recoveries ranging from 82 to 117 %

Response of tomato plants (Lycopersicon esculentum cv Micro-Tom) to cadmium

Sabe-se que dentre os principais contaminantes ambientais estão os metais pesados, decorrentes da intensa atividade agroindustrial das últimas décadas. Em especial, o cádmio (Cd) é um elemento não essencial que está entre os poluentes ambientais mais tóxicos a humanos, animais e plantas, mesmo em baixas concentrações. Considerando a relevância da problemática da toxicidade por Cd, a caracterização da resposta de um sistema modelo largamente usado como o Micro-Tom, é essencial para o maior conhecimento dos processos fisiológicos, bioquímicos e genéticos envolvendo a toxicidade e a resistência ao Cd. Outro fator a ser considerado é a importância econômica do tomate para a agricultura mundial, aliando as perdas de produtividade à falta de conhecimento sobre os mecanismos de toxicidade. A proposta do projeto foi o estudo do comportamento de plantas de Micro-Tom expostas ao Cd, através do processo de estresse oxidativo decorrente da exposição ao metal. Por meio de todos os parâmetros analisados ao longo do projeto, foi possível caracterizar o modelo Micro-Tom quanto à toxicidade por Cd. Após toda esta parte exploratória de caracterização dos níveis de atividade antioxidativa, foi possível a inclusão de mutantes hormonais (auxina, etileno) já introduzidos nesse cultivar, tornando o estudo mais investigativo com novas perspectivas da relação hormonal com os mecanismos de toxicidade e resistência a fatores de estresse em geral.It is known that among the main environmental contaminants are included the heavy metals, a result of the intense industrialized activity. Cadmium (Cd) is a non essential element that is among the most dangerous heavy metals, leading to considerable losses in plant productivity and hazardous health effects, even in low concentrations. Considering the high Cd toxicity, the characterization of the responses by a model system like Micro-Tom may be essential to understanding about physiological, biochemistry and genetic processes involved with the toxicity and resistance to Cd. Another major aspect to be considered is the economical importance of tomato in world agriculture and the possible losses of productivity caused by Cd. The main objective of this part of the work was to study Cd-induced oxidative stress in Micro- Tom plants. Through the parameters analysed, it was possible to characterize the Micro-Tom model related to Cd toxicity. After this initial characterization based mainly on antioxidative activities, it was possible to include in the study hormonal mutants (auxin, ethylene, introduced into the Micro-Tom line), in order to investigate whether these mutants respond differently from the wild-type when Cd-induced oxidative stress is concerned

Antioxidant response of by-2 Nicotiana tabacum cells to cadmium stress.

A poluição por metais pesados, particularmente pelo cádmio, considerado um dos mais tóxicos é gerada principalmente pelas atividades de mineração e industriais, utilização de lodo de esgoto e fertilizantes fosfatados. Estes últimos contém o Cd em sua composição e sua utilização na agricultura tem aumentado a concentração desse metal no solo, reservas hídricas e plantas, o que pode aumentar a bioacumulação via cadeia alimentar. Identificou-se um grupo de peptídeos denominados fitoquelatinas (PCs), capazes de se ligar aos íons de metais pesados, incluindo o Cd e assim desintoxicando as células pela diminuição dos íons livres no citoplasma. Entretanto, danos oxidativos frequentemente ocorrem quando há exposição aos metais pesados, devido a intensificação na produção de espécies ativas de oxigênio. Também uma classe de enzimas antioxidantes tem sido relatada no combate às EAOs decorrentes do estresse oxidativo. Plantas expostas aos metais pesados apresentam alterações nas atividades dessas enzimas. Portanto, o estudo dessas alterações pode fornecer dados importantes relativos aos níveis de tolerância, especificidade da resposta em diferentes espécies e níveis de poluição no ambiente. Esses dados podem ser úteis em programas de melhoramento para obtenção de plantas mais tolerantes, além de estudos relacionados a bioacumulação e fitorremediação, uma vez que plantas tolerantes podem ajudar a diminuir a quantidade de metais nos solos contaminados. Neste trabalho, foi observado alterações nas atividades de CAT e peroxidases em células de BY-2 e um aumento expressivo na atividade de GR. A SOD apresentou alterações em isoformas específicas. Os resultados sugerem que o mecanismo principal de defesa ao estresse por Cd em células BY-2 foi variável durante o tempo de exposição ao metal. Possivelmente a síntese de GSH tanto como substrato para fitoquelatinas quanto para GST foi significativa durante a fase inicial de estresse, sendo que a atividade de CAT e peroxidases são importantes durante o período final, onde provavelmente o estresse tornou-se mais severo.The contamination of environments by heavy metal pollution, mainly by cádmium (Cd), considered one of the more toxic, is generated by mining and industrial activities, and sewage sludge and phosphated fertilizers used in agriculture. The latter contains Cd in its composition and with continuous agricultural utilization an increase in the heavy metals levels in soils, plants and water sources, have been observed which may contribute to the bioaccumulation and biomagnification in the food chain. A group of peptides termed phytochelatins (PCs) has been identified and are capable of binding heavy metal ions, including Cd and detoxifying the cells by the reduction of free ions in the cytosol. However, oxidative damage often occurs due to the generation of oxygen reactive species induced by heavy metals. A class of antioxidant enzymes has been reported for the scavenging of the oxygen reactive species. Plants exposed to heavy metals may exhibit alteration in enzyme activity. The study of such a response may allow the evaluation levels of tolerance, specificity the response of distinct plant species to levels of pollution in the environment. These data may be useful in breeding programs to select tolerant plants. Moreover, tolerant plants may be used in phytorremediation, by reducing the amount of heavy metals in contaminated soils. In this study, it was observed alterations in CAT and peroxidases activities in BY-2 cells and an extensive increase in GR activity. SOD activity was altered in the isoforms analysed. The results suggest that in BY-2 cells the main defence system to Cd stress is variable during the heavy metal exposure time. The synthesis of GSH, which is used in the synthesis of phytochelatins and substrate for GST is evident during the onset of the stress with CAT and peroxidases taking over the antioxidative responses once the stress becomes severe

Simple procedure for nutrient analysis of coffee plant with energy dispersive X-ray fluorescence spectrometry (EDXRF)

Nutrient analysis is used to estimate nutrient content of crop plants to manage fertilizer application for sustained crop production. Direct solid analysis of agricultural and environmental samples by energy dispersive X-ray fluorescence spectrometry (EDXRF) was chosen as alternative technique to evaluate the simultaneous multielemental quantification of the most important essential elements in coffee (Coffea arabica L.) plants. Inductively coupled plasma atomic emission spectrometry and certified reference materials made from leaves were used to calibrate and check the trueness of EDXRF method for the determination of the concentration of several nutrients in coffee leaves and branches. Fluorescence spectrometry proved to be advantageous and presented low cost as loose powder samples could be used. Samples collected from a field experiment where coffee plants were treated with excess of Ni and Zn were used to verify the practical application of the method. Good relationships were achieved between certified values and data obtained by EDXRF, with recoveries ranging from 82 to 117 %