His main research concerns Biochemistry, Helicoverpa armigera, Botany, Protease and Trypsin. His research combines Manduca sexta and Biochemistry. His studies deal with areas such as PEST analysis, Noctuidae and Instar as well as Helicoverpa armigera.
Ashok P. Giri combines subjects such as Cajanus, Amylase and Solanaceae with his study of Botany. The Protease study combines topics in areas such as Viral Receptor, RNA-dependent RNA polymerase and Viral replication. His work is dedicated to discovering how Biosynthesis, Regulation of gene expression are connected with Glycoalkaloid and Gene expression profiling and other disciplines.
His scientific interests lie mostly in Biochemistry, Botany, Helicoverpa armigera, Protease and Gene. Enzyme, Proteases, Trypsin, Amylase and Biosynthesis are the core of his Biochemistry study. As a part of the same scientific family, Ashok P. Giri mostly works in the field of Proteases, focusing on Serine and, on occasion, Serine Proteinase Inhibitors.
Ashok P. Giri has included themes like Genetically modified crops and Horticulture in his Botany study. His Helicoverpa armigera research integrates issues from PEST analysis, Noctuidae, Insect and Microbiology. His work on Protease inhibitor is typically connected to Capsicum annuum, Coronavirus and Protease inhibitor as part of general Protease study, connecting several disciplines of science.
The scientist’s investigation covers issues in Biochemistry, Protease, Gene, Metabolic pathway and Food science. As part of his studies on Biochemistry, Ashok P. Giri frequently links adjacent subjects like Ocimum kilimandscharicum. His Protease inhibitor study in the realm of Protease interacts with subjects such as Coronavirus, Capsicum annuum and Multi target.
He interconnects Evolutionary biology and Computational biology in the investigation of issues within Gene. Ashok P. Giri focuses mostly in the field of Metabolic pathway, narrowing it down to topics relating to Metabolomics and, in certain cases, Mangifera. His Ripening, Carotenoid and Reducing sugar study in the realm of Food science connects with subjects such as Gas chromatography–mass spectrometry and Polyphenol oxidase.
Ashok P. Giri mostly deals with Protease, Biochemistry, Helicoverpa armigera, Coronavirus and Mycelium. His Protease research includes elements of Host specific and Drug discovery. His work on Protease inhibitor as part of general Biochemistry research is frequently linked to Capsicum annuum, thereby connecting diverse disciplines of science.
His Helicoverpa armigera research is within the category of Botany. His Coronavirus research encompasses a variety of disciplines, including Viral Receptor, Viral replication, RNA-dependent RNA polymerase and Computational biology. His Mycelium research is multidisciplinary, relying on both Ustilago, Microbiology, Escherichia coli, Bioassay and Myrothecium verrucaria.
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Terpenoid Metabolism in Wild-Type and Transgenic Arabidopsis Plants
Asaph Aharoni;Ashok P. Giri;Stephan Deuerlein;Frans Griepink.
The Plant Cell (2003)
Gain and Loss of Fruit Flavor Compounds Produced by Wild and Cultivated Strawberry Species
Asaph Aharoni;Ashok P. Giri;Francel W.A. Verstappen;Cinzia M. Bertea.
The Plant Cell (2004)
Molecular Interactions between the Specialist Herbivore Manduca sexta (Lepidoptera, Sphingidae) and Its Natural Host Nicotiana attenuata. VII. Changes in the Plant's Proteome
Ashok P. Giri;Hendrik Wünsche;Sirsha Mitra;Jorge A. Zavala.
Plant Physiology (2006)
Biosynthesis of Antinutritional Alkaloids in Solanaceous Crops Is Mediated by Clustered Genes
M. Itkin;U. Heinig;O. Tzfadia;A. J. Bhide;A. J. Bhide.
Silencing Threonine Deaminase and JAR4 in Nicotiana attenuata Impairs Jasmonic Acid–Isoleucine–Mediated Defenses against Manduca sexta
Jin-Ho Kang;Lei Wang;Ashok Giri;Ian T. Baldwin.
The Plant Cell (2006)
Chickpea Defensive Proteinase Inhibitors Can Be Inactivated by Podborer Gut Proteinases
Ashok P. Giri;Abhay M. Harsulkar;Vasanti V. Deshpande;Mohini N. Sainani.
Plant Physiology (1998)
Discovery of potential multi-target-directed ligands by targeting host-specific SARS-CoV-2 structurally conserved main protease.
Rakesh S. Joshi;Rakesh S. Joshi;Shounak S. Jagdale;Sneha B. Bansode;S. Shiva Shankar;S. Shiva Shankar.
Journal of Biomolecular Structure & Dynamics (2020)
Complexity in specificities and expression of Helicoverpa armigera gut proteinases explains polyphagous nature of the insect pest.
Aparna G. Patankar;Ashok P. Giri;Abhay M. Harsulkar;Mohini N. Sainani.
Insect Biochemistry and Molecular Biology (2001)
Structural and functional diversities in lepidopteran serine proteases
Ajay Srinivasan;Ashok P. Giri;Vidya S. Gupta.
Cellular & Molecular Biology Letters (2006)
Plant cholesterol biosynthetic pathway overlaps with phytosterol metabolism
Prashant D. Sonawane;Jacob Pollier;Sayantan Panda;Sayantan Panda;Jedrzej Szymanski;Jedrzej Szymanski.
Nature plants (2017)
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