Debapriya Ghosh

2.2k total citations
28 papers, 1.6k citations indexed

About

Debapriya Ghosh is a scholar working on Molecular Biology, Cellular and Molecular Neuroscience and Sensory Systems. According to data from OpenAlex, Debapriya Ghosh has authored 28 papers receiving a total of 1.6k indexed citations (citations by other indexed papers that have themselves been cited), including 13 papers in Molecular Biology, 12 papers in Cellular and Molecular Neuroscience and 11 papers in Sensory Systems. Recurrent topics in Debapriya Ghosh's work include Ion Channels and Receptors (11 papers), Neurobiology and Insect Physiology Research (6 papers) and Ion channel regulation and function (6 papers). Debapriya Ghosh is often cited by papers focused on Ion Channels and Receptors (11 papers), Neurobiology and Insect Physiology Research (6 papers) and Ion channel regulation and function (6 papers). Debapriya Ghosh collaborates with scholars based in Belgium, India and United States. Debapriya Ghosh's co-authors include Anirban Basu, Thomas Voets, Kallol Dutta, Joris Vriens, Manuel F. Navedo, Manoj K. Mishra, Luis F. Santana, Rudi Vennekens, Madeline Nieves‐Cintrón and Bernd Nilius and has published in prestigious journals such as Proceedings of the National Academy of Sciences, Journal of Clinical Investigation and Nature Communications.

In The Last Decade

Debapriya Ghosh

28 papers receiving 1.6k citations

Peers

Debapriya Ghosh
Ryan J. Protzko United States
Fabienne Laugerette France
Deshan Zhou China
F. Libert France
Agostino Serra Italy
Anna Lee South Korea
Carlos A. Flores United States
Hailan Yao China
Anita Hartog Netherlands
Gwen Tolhurst United Kingdom
Ryan J. Protzko United States
Debapriya Ghosh
Citations per year, relative to Debapriya Ghosh Debapriya Ghosh (= 1×) peers Ryan J. Protzko

Countries citing papers authored by Debapriya Ghosh

Since Specialization
Citations

This map shows the geographic impact of Debapriya Ghosh's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Debapriya Ghosh with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Debapriya Ghosh more than expected).

Fields of papers citing papers by Debapriya Ghosh

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Debapriya Ghosh. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Debapriya Ghosh. The network helps show where Debapriya Ghosh may publish in the future.

Co-authorship network of co-authors of Debapriya Ghosh

This figure shows the co-authorship network connecting the top 25 collaborators of Debapriya Ghosh. A scholar is included among the top collaborators of Debapriya Ghosh based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Debapriya Ghosh. Debapriya Ghosh is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
1.
Syed, Arsalan U., Gopireddy R. Reddy, Debapriya Ghosh, et al.. (2019). Adenylyl cyclase 5–generated cAMP controls cerebral vascular reactivity during diabetic hyperglycemia. Journal of Clinical Investigation. 129(8). 3140–3152. 37 indexed citations
2.
Startek, Justyna B., Brett Boonen, Alejandro López‐Requena, et al.. (2019). Mouse TRPA1 function and membrane localization are modulated by direct interactions with cholesterol. eLife. 8. 45 indexed citations
3.
Ghosh, Debapriya, Bing Xu, Yang K. Xiang, et al.. (2019). β‐adrenergic‐mediated dynamic augmentation of sarcolemmal CaV1.2 clustering and co‐operativity in ventricular myocytes. The Journal of Physiology. 597(8). 2139–2162. 40 indexed citations
4.
Ghosh, Debapriya, Madeline Nieves‐Cintrón, Sendoa Tajada, et al.. (2018). Dynamic L-type CaV1.2 channel trafficking facilitates CaV1.2 clustering and cooperative gating. Biochimica et Biophysica Acta (BBA) - Molecular Cell Research. 1865(9). 1341–1355. 27 indexed citations
5.
Nieves‐Cintrón, Madeline, Arsalan U. Syed, Olivia R. Buonarati, et al.. (2017). Impaired BKCa channel function in native vascular smooth muscle from humans with type 2 diabetes. Scientific Reports. 7(1). 14058–14058. 32 indexed citations
6.
Ghosh, Debapriya, Arsalan U. Syed, Maria Paz Prada, et al.. (2016). Calcium Channels in Vascular Smooth Muscle. Advances in pharmacology. 78. 49–87. 80 indexed citations
7.
Ghosh, Debapriya, Sílvia Pinto, Lydia Danglot, et al.. (2016). VAMP7 regulates constitutive membrane incorporation of the cold-activated channel TRPM8. Nature Communications. 7(1). 10489–10489. 40 indexed citations
8.
Janssens, Annelies, Maarten Gees, Balázs István Tóth, et al.. (2016). Definition of two agonist types at the mammalian cold-activated channel TRPM8. eLife. 5. 22 indexed citations
9.
Tóth, Balázs István, Maik Konrad, Debapriya Ghosh, et al.. (2015). Regulation of the transient receptor potential channel TRPM3 by phosphoinositides. The Journal of General Physiology. 146(1). 51–63. 52 indexed citations
10.
Mrkonjić, Sanela, Anna García-Elías, Carlos Pardo-Pastor, et al.. (2015). TRPV4 participates in the establishment of trailing adhesions and directional persistence of migrating cells. Pflügers Archiv - European Journal of Physiology. 467(10). 2107–2119. 30 indexed citations
11.
Tóth, Balázs István, Joris Vriens, Debapriya Ghosh, & Thomas Voets. (2014). Cellular Regulation of Transient Receptor Potential Melastatin 3 (TRPM3) Channel Activity. Biophysical Journal. 106(2). 334a–334a. 1 indexed citations
12.
Sodero, Alejandro O., Joris Vriens, Debapriya Ghosh, et al.. (2012). Cholesterol loss during glutamate‐mediated excitotoxicity. The EMBO Journal. 31(7). 1764–1773. 79 indexed citations
13.
Ghosh, Debapriya, et al.. (2011). Autologous mesenchymal stem cells in chronic spinal cord injury. British Journal of Neurosurgery. 25(4). 516–522. 59 indexed citations
14.
Dutta, Kallol, Debapriya Ghosh, Arshed Nazmi, Kanhaiya Lal Kumawat, & Anirban Basu. (2010). A Common Carcinogen Benzo[a]pyrene Causes Neuronal Death in Mouse via Microglial Activation. PLoS ONE. 5(4). e9984–e9984. 83 indexed citations
15.
Das, Sulagna, Debapriya Ghosh, & Anirban Basu. (2009). Japanese Encephalitis Virus Induce Immuno-Competency in Neural Stem/Progenitor Cells. PLoS ONE. 4(12). e8134–e8134. 29 indexed citations
16.
17.
Ghosh, Debapriya, Manoj K. Mishra, Sulagna Das, Deepak Kaushik, & Anirban Basu. (2009). Tobacco carcinogen induces microglial activation and subsequent neuronal damage. Journal of Neurochemistry. 110(3). 1070–1081. 57 indexed citations
18.
Biswas, Moanaro, Swagata Kar, Rupa Singh, et al.. (2009). Immunomodulatory cytokines determine the outcome of Japanese encephalitis virus infection in mice. Journal of Medical Virology. 82(2). 304–310. 34 indexed citations
19.
Dutta, Kallol, Debapriya Ghosh, & Anirban Basu. (2009). Curcumin Protects Neuronal Cells from Japanese Encephalitis Virus-Mediated Cell Death and also Inhibits Infective Viral Particle Formation by Dysregulation of Ubiquitin–Proteasome System. Journal of Neuroimmune Pharmacology. 4(3). 328–337. 90 indexed citations
20.
Ghosh, Debapriya & Anirban Basu. (2008). Present perspectives on flaviviral chemotherapy. Drug Discovery Today. 13(13-14). 619–624. 18 indexed citations

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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