Evaluation of the stress‐inducible production of proline in transgenic sugarcane (<i>Saccharum</i> spp.): osmotic adjustment, chlorophyll fluorescence and oxidative stress

Molinari, Hugo Bruno Correa; Marur, Celso Jamil; Daros, Edelclaiton; Campos, Marília Kaphan Freitas de; Carvalho, Jane Fiúza Rodrigues Portela de; Filho, João Carlos Bespalhok; Pereira, Luiz Filipe Protásio; Vieira, Luiz Gonzaga Esteves

doi:10.1111/j.1399-3054.2007.00909.x

Cited by 336 publications

(212 citation statements)

References 61 publications

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“…Proline accumulates in a variety of plant species in response to stresses such as drought, salinity and extreme temperatures. Under stress conditions, proline may act as an osmotic adjustment mediator, a subcellular structures stabilizer, a free radical scavenger and a redox potential buffer and is an important component of cell wall proteins (Molinari et al, 2007). Although its role in plant osmotolerance remains controversial, proline is thought to contribute to osmotic adjustment, detoxification of reactive oxygen species and protection of membrane integrity.…”

Section: Discussionmentioning

confidence: 99%

Effect of excess iron and copper on physiology of aquatic plant Spirodela polyrrhiza (L.) Schleid

Xing

Huang

Liu

2009

Environmental Toxicology

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To elucidate effect of chemical reagents addition on growth of aquatic plants in restoration of aquatic ecosystem, Spirodela polyrrhiza (L.) Schleid was used to evaluate its physiological responses to excess iron (Fe 31 ) and copper (Cu 21 ) in the study. Results showed that accumulation of iron and copper both reached maximum at 100 mg L 21 iron or copper after 24 h short-term stress, but excess iron and copper caused plants necrosis or death and colonies disintegration as well as roots abscission at excess metal concentrations except for 1 mg L 21 iron. Significant differences in chlorophyll fluorescence (Fv/Fm) were observed at 1-100 mg L 21 iron or copper. The synthesis of chlorophyll and protein as well as carbohydrate and the uptake of phosphate and nitrogen were inhibited seriously by excess iron and copper. Proline content decreased with increasing iron or copper concentration, however, MDA content increased with increasing iron or copper concentration. # 2009 Wiley Periodicals, Inc. Environ Toxicol 25: 103-112, 2010.

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Section: Discussionmentioning

confidence: 99%

Effect of excess iron and copper on physiology of aquatic plant Spirodela polyrrhiza (L.) Schleid

Xing

Huang

Liu

2009

Environmental Toxicology

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“…S2g, similar to genetic variance, although estimated as fixed model, showed reasonable variation to each trait, indicating that they could be used to select promissing lines, especially if taken together or by choosing a representative for each biochemical class (Table 4). In this case, PRO and CAT would be the most suitable traits to represent the organic solutes and antioxidative enzymes, respectively, since both are known to accumulate in plant tissues in response to water stress, involving a protection mechanism against oxidative stress (MOLINARI et al, 2007;KARUPPANAPANDIAN et al, 2009). The variation index summarizes the experimental precision since it is obtained by dividing CVg/CVe (genotypic and environmental variation coefficients).…”

Section: Resultsmentioning

confidence: 99%

Genotypic Variability of Peanut Lines in Response to Water Stress, Based on Biochemical Descriptors

et al. 2016

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-Seven biochemical descriptors were used to estimate the genotypic variability of peanut in response to moderate water stress. Six genotypes, constituted by four lines and two cultivars, were grown in pots, each containing two plants. At 15 days after emergence (DAE), the treatment differentiation was carried out: Control-plants maintained with daily watering, and Stress-plants submitted to water stress by complete suspension of watering for 15 days. The experimental design was completely randomized with factorial scheme 6 x 2 (genotype x water treatments), with five replications. The biochemical variables evaluated were: catalase (CAT), ascorbate peroxidase (APX), guaiacol peroxidase (GPX), free proline, total carbohydrates, soluble proteins, and amino acids. Results obtained by biochemical analysis and estimation of genotypic variability indicated that proline is the most appropriate descriptor for selecting genotypes tolerant to water stress, which led to identification of L81V and L108V as promising lines for drought tolerance breeding program. Keywords:Arachis hypogaea L. Antioxidative enzymes. Organic solutes. Drought tolerance. VARIABILIDADE GENOTÍPICA DE AMENDOIM EM RESPOSTA A ESTRESSE HÍDRICO BASEADA EM DESCRITORES BIOQUÍMICOSRESUMO -Sete descritores bioquímicos foram utilizados para estimar a variabilidade genotípica de linhagens de amendoim submetidas a estresse hídrico moderado. Seis genótipos, sendo quatro linhagens e duas cultivares, foram cultivados em vasos, cada um contendo duas plantas e mantidas em casa de vegetação. Aos 15 dias após a emergência, procedeu-se a diferenciação dos tratamentos: Controle, as plantas mantidas com rega diariamente; Estresse, as plantas submetidas à suspensão total de rega durante 15 dias. O delineamento experimental foi inteiramente casualizado, com esquema fatorial 6 x 2 (genótipos x tratamentos hídricos), com cinco repetições. As variáveis bioquímicas avaliadas foram: catalase (CAT), ascorbato peroxidase (APX), guaiacol peroxidase (GPX), prolina livre, carboidratos totais, proteínas solúveis e aminoácidos. Baseado nos resultados das análises bioquímicas e de estimativa da variabilidade genotípica, a prolina demonstrou ser o descritor mais adequado para seleção de genótipos tolerantes ao estresse hídrico, contribuindo para indicar as linhagens L81V e L108V como mais promissoras, para um programa de melhoramento visando tolerância à seca. Palavras-chave:Arachis hypogaea L. Enzimas antioxidativas. Solutos orgânicos. Tolerância à seca.

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“…The high level of proline is useful to protect against lipid peroxidation (Molinari et al, 2007) removing ROS directly or activating the antioxidant defense system (Carvalho et al, 2013).…”

Section: Resultsmentioning

confidence: 99%

The presence of Microlobius foetidus cause changes in the antioxidant defense of Urochloa decumbens?

et al. 2015

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Urochloa decumbens (Stapf) R. D. Webster (Poaceae) is an exotic species with has spread rapidly through the Cerrado area of Pantanal, Mato Grosso do Sul, Brazil. It has covered the soil aggressively turning it into cultivated pastures. Thus, it has become a challenge to protect native areas due its capacity of exclusion of native species. It has been observed that Microlobius foetidus (Jacq.) M.Sousa & G.Andrade species (Fabaceae) shows a dominant pattern over the development of U. decumbens. This work shows that M. foetidus interfere on the natural growth of U. decumbens within 10 m ratio. Between 15 and 20 m, it was observed an increase of Importance Value index (IVI) and Relative cover (RC) values. It was also observed a variation on the antioxidant defense system of U. decumbens within 10m ratio from M. foetidus. The enzymes superoxide dismutase, catalase and peroxidase present higher levels of activity then those found for glutathione reductase. This data indicates that M. foetidus may have an effect on U. decumbens, increase the activity of antioxidant enzymes. This effect probably happens as means to neutralize the toxic effects of the oxygen generated due to the presence of allelochemicals, which increases oxidative stress.Keywords: antioxidant enzymes, signal grass, garlic stick, competition. A presença de

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Evaluation of the stress‐inducible production of proline in transgenic sugarcane (Saccharum spp.): osmotic adjustment, chlorophyll fluorescence and oxidative stress

Cited by 336 publications

References 61 publications

Effect of excess iron and copper on physiology of aquatic plant Spirodela polyrrhiza (L.) Schleid

Effect of excess iron and copper on physiology of aquatic plant Spirodela polyrrhiza (L.) Schleid

Genotypic Variability of Peanut Lines in Response to Water Stress, Based on Biochemical Descriptors

The presence of Microlobius foetidus cause changes in the antioxidant defense of Urochloa decumbens?

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