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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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Journal ArticleDOI
Overexpression of PDH45 or SUV3 Helicases in Rice Leads to Delayed Leaf Senescence-Associated Events
Anca Macovei,Ranjan Kumar Sahoo,Matteo Faè,Alma Balestrazzi,Daniela Carbonera,Narendra Tuteja,Narendra Tuteja +6 more
TL;DR: It is revealed that both PDH45 and SUV3 transgenic rice lines present decreased levels of necrosis/apoptosis as compared to wild type plants, and a possible involvement of SUV3 in telomere homeostasis in plants is reported.
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Cloning and sequencing of the γ-subunit of retinal cyclic-GMP phosphodiesterase from rd mouse
TL;DR: The deduced amino acid sequence of cGMP-PDE γ from rd retina has 100% homology with that of the enzyme from normal mouse retina and 97·7%homology with the bovine cG MP-PDe γ suggesting that if this subunit of c GMP- PDE is properly transcribed and translated, it is not defective in the degenerative rd mouse retina.
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Analysis of DNA repair helicase UvrD from Arabidopsis thaliana and Oryza sativa.
Renu Tuteja,Narendra Tuteja +1 more
TL;DR: In the present manuscript, an in silico analysis of UvrD helicase is presented from two plant species (Arabidopsis and rice) and it is shown that these proteins contain all the conserved domains and are larger than the E. coli UVRD because they contain a longer N-terminal extension.
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OsSUV3 functions in cadmium and zinc stress tolerance in rice (Oryza sativa L. cv IR64).
TL;DR: In response to cadmium and zinc stress the OsSUV3 transcript level is induced in rice and its overexpression in transgenic IR64 rice plants confers the metal stress tolerance.
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Cyanide produced with ethylene by ACS and its incomplete detoxification by β-CAS in mango inflorescence leads to malformation
Mohammad Ansari,Mohammad Ansari,Mohammad Ansari,Shail Kaushik,Gurdeep Bains,Suresh Tula,Bhavana Joshi,Varsha Rani,Ratnum Kaul Wattal,Randeep Rakwal,Alok Shukla,Ramesh Chandra Pant,Renu Tuteja,Narendra Tuteja +13 more
TL;DR: Implying a role for cyanide in MMI at the physiological and molecular level will contribute to better understanding of the etiology of mango inflorescence malformation, and also help manipulate mango varieties genetically for resistance to malformation.