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Narendra Tuteja
Researcher at International Centre for Genetic Engineering and Biotechnology
Publications - 370
Citations - 32591
Narendra Tuteja is an academic researcher from International Centre for Genetic Engineering and Biotechnology. The author has contributed to research in topics: Abiotic stress & Helicase. The author has an hindex of 68, co-authored 354 publications receiving 27042 citations. Previous affiliations of Narendra Tuteja include National Institutes of Health & University of Delhi.
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Signaling through MAP kinase networks in plants
TL;DR: The historical background, biochemical assay, activation/inactivation, and targets of MAP kinase with emphasis on plant MAP kinases and the responses regulated by them are covered, to bring out the complexity within this three-component module.
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Cadmium stress tolerance in crop plants Probing the role of sulfur
TL;DR: The aim of this review is to discuss the regulatory mechanism of S uptake and assimilation, GSH and PC synthesis for Cd stress tolerance in crop plants.
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Calcium signaling network in plants: an overview.
Narendra Tuteja,Shilpi Mahajan +1 more
TL;DR: Several aspects of calcium signaling such as Ca2+ requiremant and its role in plants, Ca 2+ transporters, Ca2-ATPases, H+/Ca2+-antiporter, Ca1+-signature, Ca3+-memory and various Ca2+.-binding proteins are described.
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Calcium- and salt-stress signaling in plants: Shedding light on SOS pathway
TL;DR: A broad coverage of the discovery of SOS mutants, structural aspect of these genes and the latest developments in the field of SOS1-SOS5 has been described.
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Cadmium at high dose perturbs growth, photosynthesis and nitrogen metabolism while at low dose it up regulates sulfur assimilation and antioxidant machinery in garden cress (Lepidium sativum L.)
TL;DR: High Cd concentration perturbs the L.C. sativum growth by interfering with the photosynthetic machinery and disrupting the coordination between carbon, N and S metabolism; whereas, the increase in ATP-S activity and S content suggests the up-regulation of S assimilation pathway for possible Cd tolerance in coordination with enhanced activities of antioxidant enzymes and GSH.