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Ambuj Bhushan Jha
Researcher at University of Saskatchewan
Publications - 39
Citations - 5167
Ambuj Bhushan Jha is an academic researcher from University of Saskatchewan. The author has contributed to research in topics: Blight & Population. The author has an hindex of 17, co-authored 34 publications receiving 3905 citations. Previous affiliations of Ambuj Bhushan Jha include Banaras Hindu University.
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Reactive Oxygen Species, Oxidative Damage, and Antioxidative Defense Mechanism in Plants under Stressful Conditions
TL;DR: The generation, sites of production and role of ROS as messenger molecules as well as inducers of oxidative damage are described and the antioxidative defense mechanisms operating in the cells for scavenging of ROS overproduced under various stressful conditions of the environment are described.
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Arsenite treatment induces oxidative stress, upregulates antioxidant system, and causes phytochelatin synthesis in rice seedlings
TL;DR: It is suggested that arsenite treatment causes oxidative stress in rice seedlings, increases the levels of many enzymatic and non-enzymatic antioxidants, and induces synthesis of thiols and PCs, which may serve as important components in mitigating arsenite-induced oxidative damage.
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Carbohydrate metabolism in growing rice seedlings under arsenic toxicity.
TL;DR: Results indicate that in rice seedlings arsenic toxicity causes perturbations in carbohydrate metabolism leading to the accumulation of soluble sugars by altering enzyme activity, possibly plays a positive role in synthesis of sucrose under As-toxicity.
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Biofortification of Pulse Crops: Status and Future Perspectives.
TL;DR: This review will focus on recent research advances and future strategies for the biofortification of pulse crops.
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Gene-based SNP discovery and genetic mapping in pea
Anoop Sindhu,Larissa Ramsay,Larissa Ramsay,Lacey-Anne Sanderson,Robert Stonehouse,Rong Li,Janet A. Condie,Arun S. K. Shunmugam,Yong Liu,Ambuj Bhushan Jha,Marwan Diapari,Judith Burstin,Grégoire Aubert,Bunyamin Tar’an,Kirstin E. Bett,Thomas D. Warkentin,Andrew G. Sharpe +16 more
TL;DR: The development of a genome-wide transcriptome-based pea single-nucleotide polymorphism (SNP) marker platform establishes a foundation for future molecular breeding efforts by enabling both the identification and tracking of introgression of genomic regions harbouring QTLs related to agronomic and seed quality traits.