Salt Stress Induced Differential Proteome and Metabolome Response in the Shoots of <i>Aeluropus lagopoides</i> (Poaceae), a Halophyte C<sub>4</sub> Plant

Sobhanian, Hamid; Motamed, Nasrin; Jazii, Ferdous Rastgar; Nakamura, Takuji; Komatsu, Setsuko

doi:10.1021/pr900974k

Cited by 139 publications

(138 citation statements)

References 43 publications

(91 reference statements)

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“…Production of this enzyme along with carbohydrate metabolisms of Kelvin cycle and glycolysis increases under salinity condition. As has been reported by researches in rice where Fructose-bisphosphate aldolase peaked with increase in glycolytic enzymes and enzymes involved in anaerobic glycolytic and glycolate metabolism (Abbasi and Komatsu, 2004), as well as a peak in Alcohol dehydrogenases in canola (Sobhanian et al, 2010) under salinity influence. It has also been hypothesized that Fructose-bisphosphate aldolase can contribute to ion division in vacuoles, since it is directly interact with H + -ATP and active transportation (Barkla et al, 2009).…”

Section: Protein Identificationsupporting

confidence: 70%

Canola Seedling Response to NaCl Stress – a Proteomic Approach

Alagoz

Toorchi

Bandehagh

2016

Not Bot Horti Agrobo

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Salinity is a major abiotic stress worldwide, which causes a tremendous loss in the quality and quantity of agricultural products. In order to identify defense mechanisms to salinity-induced stress, a two-dimensional electrophoresis approach was used to investigate proteins achieved from canola cultivar 'Option 500' seedlings, after plants had been treated with NaCl. The 300 mmol NaCl treatment caused a significant decrease in fresh and dry weight as well as plant height and increment of proline content compared with control group. There were no significant changes in the quality of catalase and peroxidase activity. Out of 110 repeatable protein spots, 44 were registering change, according to induction factor index. 7 spots were recognized significant at 1% probability level statistically. These proteins were involved in energy production, ROS scavenging and suppressor, and those involved in photosynthesis. Production of chloroplastic fructose-bisphosphate aldolase enzyme along with carbohydrate metabolisms of Kelvin cycle and glycolysis increases under salinity condition. The amount of Cu/Zn SOD in chloroplast reduces in response to salinity which results from an increase in OH -radicals. Expression of photosynthesis proteins have been reduced probably as a consequence of the drop in osmotic pressure resulted from water scarcity and stomata closure, which reduces the availability of Co2.

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Section: Protein Identificationsupporting

confidence: 70%

Canola Seedling Response to NaCl Stress – a Proteomic Approach

Alagoz

Toorchi

Bandehagh

2016

Not Bot Horti Agrobo

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“…At 200 mM K + content of species was reduced from 25.72 to 52.11%; being H. vulgare and L. perenne the species with less reduction, the range between 5.74 and 16.73% respectively. The concentration of K + is lower in plants stressed by salinity compared to treatments without stress during the evaluation cycle, suggesting that potassium is the major mechanism of tolerance to salt stress, by its ability to maintain cell turgor, osmotic adjustment and growth (Sobhanian et al, 2010).…”

Section: Content Of K +mentioning

confidence: 99%

“…A 200 mM, el contenido de K + de las especies se vio reducido de 25.72 a 52.11%; siendo H. vulgare y L. perenne las especies que mostraron una menor reducción, al oscilar entre 5.74 y 16.73% respectivamente. La concentración de K + es más baja en plantas estresadas por salinidad comparada con los tratamientos sin estrés durante el ciclo de evaluación, lo cual sugiere que el potasio constituye el principal mecanismo de tolerancia al estrés salino, por su capacidad de mantener la turgencia celular, el ajuste osmótico y el crecimiento (Sobhanian et al, 2010).…”

Section: Contenido De K +unclassified

Efecto de la salinidad en la germinación y emergencia de siete especies forrajeras

Hernández

Bernal

Martínez

et al. 2017

Remexca

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ResumenEn la región de la Ciénega de Chapala porción Michoacán la mayor parte de los cultivos forrajeros son el sustento de los sistemas ganaderos tradicionales. Sin embargo, la escasez de agua y la creciente salinidad se presentan como los principales factores ambientales limitantes que afectan directamente a su establecimiento y desarrollo. En esta investigación, se evaluó la capacidad de germinación y emergencia de siete especies forrajeras en condiciones in vitro, al ser expuestas a diferentes concentraciones de NaCl, Se llevó a cabo en un período de 21 días, en el cual las semillas fueron colocadas en una incubadora sin luz a una temperatura de 25/17 °C (día/noche). Se utilizó el método de digestión con ácido para la extracción de los cationes Na2+ y Mg 2+ a partir de las plántulas germinadas. Los tratamientos de salinidad fueron 0.0 mM, 50 mM; 100 mM; 200 mM y 400 mM. En la etapa de imbibición se observó una respuesta diferencial entre especies en condiciones de estrés salino, principalmente a 200 y 400 mM, al producir una reducción drástica en los niveles de absorción respecto a sus propios testigos y posteriormente se vio reflejado en su capacidad germinativa. Las especies H. vulgare y L. perenne mostraron menor relación K + /Na + , ratificando con ello, ser las más tolerantes ante este nivel de concentración salina. AbstractIn the Ciénega de Chapala región, portion of Michoacán most of the forage crops are the main sustenance of the traditional livestock systems. However, water scarcity and increasing salinity are the main limiting environmental factors that directly affect both its establishment and development. In this research, the ability of germination and emergence of seven forage species was evaluated in in vitro conditions, when exposed to different concentrations of NaCl. The evaluation was carried out in a period of 21 days, in which the seeds were placed in an incubator without light at a temperature of 25/17 °C (day/night) respectively.

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“…Adenosine triphosphate (ATP) is vital for many biosynthetic pathways in plant cells, and energy requirements may increase considerably during periods of external stress. Adenosine kinase and ATP synthase are up-regulated by salinity in wheat (Wang et al, 2008), rice (Kim et al, 2005), potato (Aghaei et al, 2008), and the C4 plant Aeluropus lagopoides (Poaceae) (Sobhanian et al, 2010a). This shows that the maintenance of ATP-dependent salt tolerance by increasing the formation of ATP is one strategy that plants adopt to cope with salt stress.…”

Section: Salinitymentioning

confidence: 99%

Proteomics Approach for Identifying Abiotic Stress Responsive Proteins in Soybean

Nouri¹,

Toorchi²,

Komatsu³

2011

Soybean - Molecular Aspects of Breeding

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Salt Stress Induced Differential Proteome and Metabolome Response in the Shoots of Aeluropus lagopoides (Poaceae), a Halophyte C₄ Plant

Cited by 139 publications

References 43 publications

Canola Seedling Response to NaCl Stress – a Proteomic Approach

Canola Seedling Response to NaCl Stress – a Proteomic Approach

Efecto de la salinidad en la germinación y emergencia de siete especies forrajeras

Proteomics Approach for Identifying Abiotic Stress Responsive Proteins in Soybean

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Salt Stress Induced Differential Proteome and Metabolome Response in the Shoots of Aeluropus lagopoides (Poaceae), a Halophyte C4 Plant

Cited by 139 publications

References 43 publications

Canola Seedling Response to NaCl Stress – a Proteomic Approach

Canola Seedling Response to NaCl Stress – a Proteomic Approach

Efecto de la salinidad en la germinación y emergencia de siete especies forrajeras

Proteomics Approach for Identifying Abiotic Stress Responsive Proteins in Soybean

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Product

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Salt Stress Induced Differential Proteome and Metabolome Response in the Shoots of Aeluropus lagopoides (Poaceae), a Halophyte C₄ Plant