J
Jitendra P. Khurana
Researcher at University of Delhi
Publications - 152
Citations - 9046
Jitendra P. Khurana is an academic researcher from University of Delhi. The author has contributed to research in topics: Gene & Arabidopsis. The author has an hindex of 43, co-authored 152 publications receiving 7819 citations. Previous affiliations of Jitendra P. Khurana include International Centre for Genetic Engineering and Biotechnology.
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Rapid Induction of Somatic Embryogenesis by 2, 4-D in Leaf Base Cultures of Wheat (Triticum aestivum L.)
TL;DR: The rapid induction of somatic embryogenesis in wheat leaf bases, under easily manipulable culture conditions, provides a unique opportunity to monitor the molecular events associated with auxin-mediated induction of Somatic embryos and also to study the associated developmental events.
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Evidence for the role of wheat eukaryotic translation initiation factor 3 subunit g (TaeIF3g) in abiotic stress tolerance.
TL;DR: This study provides first evidence that TaeIF3g imparts stress tolerance and could be a potential candidate gene for developing crop plants tolerant to abiotic stress.
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The psbO Gene for 33-kDa Precursor Polypeptide of the Oxygen-Evolving Complex in Arabidopsis thaliana — Nucleotide Sequence and Control of its Expression
TL;DR: In a constitutively photomorphogenic mutant of Arabidopsis, pho2 (plumular hook open 2), the psbO gene is de-repressed in young, dark-grown seedlings, resulting in increased transcript abundance compared to the wild-type.
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Analysis of Differentially Expressed Genes in Leaf Rust Infected Bread Wheat Involving Seedling Resistance Gene Lr28
Raman Dhariwal,Shailendra Vyas,Govindraj Ramakantrao Bhaganagare,Shailendra K. Jha,Jitendra P. Khurana,Akhilesh K. Tyagi,Kumble Vinod Prabhu,Harindra Singh Balyan,Pushpendra Kumar Gupta +8 more
TL;DR: Genome-wide transcriptome analysis of seedling resistance to leaf rust conferred by Lr28 gene in wheat conducted to identify differentially expressed genes during incompatible interaction revealed that 15 transcripts had homology with genes involved in protein synthesis, signal transduction, transport, disease resistance and metabolism.
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Light regulation and differential tissue-specific expression of phototropin homologues from rice (Oryza sativa ssp. indica)
TL;DR: The results indicate the participation of red/far-red sensing phytochromes and blue light (perceived through either cryptochromes or phototropins) in differential regulation of transcript abundance of phototropin homologue, OsPHOT1 andOsPHOT2.