A. A.M. Elatawy scite author profile

A. A.M. Elatawy

2Publications

4Citation Statements Received

49Citation Statements Given

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Desert Research Center

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RT-PCR FOR ANTIOXIDANT GENES FROM EGYPTIAN GRAY MANGROVE Avicennia marina UNDER SALT STRESS TO NABQ PROTECTED AREA

Elatawy

Fahmy

Elsaied

et al. 2019

Arab Universities Journal of Agricultural Sciences

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RT-PCR was conducted for four genes implicated for salt tolerance, oxidative and osmotic stresses in Egyptian gray mangroves within Nabq protected area in South Sinai Governorate. The results showed over-expression of the mRNA of ferritin (amFer1) gene as very high expression, followed by increase in mRNA of superoxide dismutase (amSOD1) and ubiquitin conjugation2 (amUBC2). At the same time gene expression of catalase (amCAT1) decreased.

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Expression of some salt tolerance genes isolated from Egyptian gray mangrove (Avicennia marina)

Elatawy¹,

Rizk²,

El-Demerdash³

et al. 2021

SABRAOJBG

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Mangroves are well-adapted halophytes that thrive in coastal saline environments. They live under difficult environmental conditions, such as high light intensity and external salt concentrations, as well as low-oxygen environments, such as water-logged muck, that are typically inappropriate for the survival of other plants. Salinity is a major abiotic factor that affects plant growth, productivity, and dispersal in tropical and semitropical intertidal areas. Furthermore, it affects approximately 20% of all cultivable land and 50% of all irrigated land on the planet. Mangroves have developed a sophisticated salt filtration mechanism and a complicated root structure to withstand salty water exposure and tidal movement. The expression patterns of five salt tolerance genes (amFer1, amDhna, amSod1, amCat1, and amUbc2) in the Egyptian gray mangrove (Avicennia marina Forssk.) grown under different environmental conditions in South Sinai protectorates (Nabq, Ras Mohamed, Safaga, and Wadi El-Gemal), Egypt, were investigated in this study. This study aimed to assess and examine the genetic behavior of mangroves in response to salinity by using quantitative real-time PCR. Findings revealed differences in the expression patterns of the investigated genes under various conditions, showing that salinity influences plant genetic response. Ferritin gene expression was high in all locations, indicating that ferritin represents an essential component of the mangrove response mechanisms.

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A. A.M. Elatawy

RT-PCR FOR ANTIOXIDANT GENES FROM EGYPTIAN GRAY MANGROVE Avicennia marina UNDER SALT STRESS TO NABQ PROTECTED AREA

Expression of some salt tolerance genes isolated from Egyptian gray mangrove (Avicennia marina)

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