Publications

Books

• Subhendu Ghosh. Collective Phenomena: From Cells to Society. in preparation. 

Publications

• Bhanu Sharma, Daniel Tuikhang Koren, Subhendu Ghosh, Nitric oxide modulates NMDA receptor through a negative feedback mechanism and regulates the dynamical behavior of neuronal postsynaptic components, Biophysical Chemistry, Volume 303, 2023, 107114.

• Kumar, Jitender, Das Gupta, Patrick & Ghosh, S. (2023) Effects of nonlinear membrane capacitance in the Hodgkin Huxley model of action potential on the spike train patterns of a single neuron Europhys. Letters, 142, 67002, 1-7.

• Sharma, Bhanu., Kumar, Spandan, Ghosh, Subhendu and Singh, Vikram (2023) Emergent dynamics in an astrocyte-neuronal network coupled via nitric oxide. Physical Biology. 20 (5) 056006.

• T. Daniel Tukhang Koren, Rajan Shrivastava & Ghosh, S (2023) Ca2+/Calmodulin-Dependent Protein Kinase II Disrupts the Voltage-Dependency of the Voltage-Dependent Anion Channel (VDAC) on Lipid Bilayer Membrane J. Phys. Chem. B, 127, 3372-3381.

• Siddiqui, S. I., Malik, C., & Ghosh, S. (2023). Voltage dependent anion channel and its interaction with N-acetyl-L-Cysteine (NAC) under oxidative stress on planar lipid bilayer. Biochimie, 209, 150-160. 

• Malik, C., & Ghosh, S. (2022). A mutation in the S6 segment of the KvAP channel changes the secondary structure and alters ion channel activity in a lipid bilayer membrane. Amino Acids, 54(11), 1461-1475. 

• Talukdar, S., & Ghosh, S. (2022). Biophysics of Brain Plasticity and Its Correlation to Music Learning. In Advances in Speech and Music Technology: Computational Aspects and Applications (pp. 269-282). Cham: Springer International Publishing. 

• Koren, T. D. T., Shrivastava, R., Siddiqui, S. I., & Ghosh, S. (2022). Calmodulin Modulates the Gating Properties of Voltage-Dependent Anion Channel from Rat Brain Mitochondria. The Journal of Physical Chemistry B, 126(26), 4857-4871. 

• Malik, C., & Ghosh, S. (2022). A mutation in the S6 segment of the KvAP channel changes the secondary structure and alters ion channel activity in a lipid bilayer membrane. Amino Acids, 1-15.

• Koren, T., & Ghosh, S. (2022). Homocysteine-Thiolactone Modulates Gating of Mitochondrial Voltage-Dependent Anion Channel (VDAC) and Protects It from Induced Oxidative Stress. The Journal of Membrane Biology, 255(1), 79-97.

• Malik, C., Siddiqui, S. I., & Ghosh, S. (2022). Extracellular Signal-Regulated Kinase1 (ERK1)-Mediated Phosphorylation of Voltage-Dependent Anion Channel (VDAC) Suppresses its Conductance. The Journal of membrane biology, 255(1), 107-116.

• Shrivastava, R., & Ghosh, S. (2021). Collective dynamics of ion channels on bilayer lipid membranes. ACS omega, 6(11), 7544-7557.

• Malik, C., & Ghosh, S. (2020). Modulation of the mitochondrial voltage-dependent anion channel (VDAC) by hydrogen peroxide and its recovery by curcumin. European Biophysics Journal, 49(7), 661-672.

• Malik, C., & Ghosh, S. (2020). Regulation of Single-Channel Conductance of Voltage-Dependent Anion Channel by Mercuric Chloride in a Planar Lipid Bilayer. The Journal of Membrane Biology, 1-15.

• Malik, C., & Ghosh, S. (2020). Quinidine partially blocks mitochondrial voltage-dependent anion channel (VDAC). European Biophysics Journal, 1-13.

• Dey, D., Siddiqui, S. I., Mamidi, P., Ghosh, S., Kumar, C. S., Chattopadhyay, S., ... & Banerjee, M. (2019). The effect of amantadine on an ion channel protein from Chikungunya virus. PLoS neglected tropical diseases, 13(7), e0007548.

• Talukdar, S., Shrivastava, R. & Ghosh, S. (2019). Modeling Activity Dependent Reduction in After hyper-polarization with Hodgkin Huxley Equation of Action Potential. Biomed. Phys. Eng. Express 5, 047001..

• Gupta, R., & Ghosh, S. (2017). Phosphorylation of purified mitochondrial Voltage-Dependent Anion Channel by c-Jun N-terminal Kinase-3 modifies channel voltage-dependence. Biochimie Open, 4, 78-87.

• Gupta, R., & Ghosh, S. (2017). Putative roles of mitochondrial Voltage-Dependent Anion Channel, Bcl-2 family proteins and c-Jun N-terminal Kinases in ischemic stroke associated apoptosis. Biochimie Open 4, 47–55.

• Gupta, R., & Ghosh, S. (2017). JNK3 phosphorylates Bax protein and induces ability to form pore on bilayer lipid membrane. Biochimie Open, 4, 41-46.

• Shrivastava, R ., Malik, C. & Ghosh, S. (2016) Open channel current noise analysis of S6 peptides from KvAP channel on bilayer lipid membrane shows bimodal power law scaling. Physica A, 451, 533-540.

• Gupta, R. & Ghosh, S. (2015) Bax and Bif-1 proteins interact on Bilayer Lipid Membrane and form pore. Biochem. Biophys. Research Comm. 463,751-755.

• Gupta, R. & Ghosh, S. (2015) Phosphorylation of Voltage-Dependent Anion Channel by c-Jun N- terminal Kinase-3 leads to Closure of the Channel. Biochem. Biophys. Research Comm. 459,100-106.

• Bhattacharjee, A., Das, M.K. & Ghosh, S. (2014) Synchronization in a Ring of Unidirectionally Coupled FN Neurons. Int. J. Biomaths. 7(1), 1450009.

• Malik, C. & Ghosh, S. (2013) S6 Peptide derived from KvAP Channel forms Multi-Channels on Bilayer Lipid Membrane and shows Cooperativity in Gating. PLOS ONE 8 (11), e78845.

• Das, M.K., Bhattacharjee, A., Bhatraju, N.K., Yuasa, M. & Ghosh, S (2012) Effect of Dynamic Threshold on the Response and Bifurcation in a Space Clamped FHN Model with External Stimulus. Science & Technology (Kinki University, Japan), 24, 1-9.

• Das, M.K., Bhattacharjee, A., Bhatraju, N.K., Yuasa, M. & Ghosh, S (2012) Influence of Time Varying Threshold and Noisy External Stimulus on the Firing Pattern of FHN Neuron Model. Jnanabha, 42, 1-14.

• Verma, R., Malik, C., Azmi, S., Srivastava, S., Ghosh, S., & Ghosh, J.K. (2011) A Synthetic S6 segment derived from KvAP channel self-assembles, permeabilizes lipid vesicles and also exhibits ion channel activity in bilayer lipid membranes. J. Biol. Chem., 286 (28), 24828-24841.

• Das, M.K., Bhatraju, N.K., Yuasa, M. & Ghosh, S (2010) Wavelet Analysis of Dynamical Systems: Rev. Bull. Cal. Math. Soc. 18(2), 167-172.

• Yadav, C, Verma, M. & Ghosh, S. (2010) Statistical Evidence for power law temporal correlations in Exploratory Behavior of Rat. BioSystems, 102, 77-81.

• Mittra, B., Sharma, S., Das, A.B., Henry, S.L., Das, T.K., Ghosh, P., Subhendu Ghosh and Mohanty, P. (2008). A Novel Cadmium Induced Protein in Wheat: Characterization and Localization in Root Tissue. Biologia Plantarum, 52(2), 343-346.

• Manna, S., Banerjee, J. & Ghosh, S. (2007) Breathing of Voltage Dependent Anion Channel as Revealed by Fractal Properties of its Gating. Physica A, 386, 576-580.

• Banerjee, J., Singh, J., Joshi, M.C., Ghosh, S. & Banerjee, N. (2006) The cytotoxic fimbrial structural subunit of Xenorhabdus nematophila is a pore-forming toxin. J. Bacteriology, 188 (22), 7957-7962.

• Verma, M., Manna, S. & Ghosh, S. (2006) Universal Scaling Laws for Large Events in Driven Non-equilibrium Systems. Europhys. Lett. 76(6),1050-1056. 

• Banerjee, J. & Subhendu Ghosh (2006) Phosphorylation of Rat Brain Mitochondrial Voltage Dependent Anion Channel as a Potential Tool to Control Leakage of Cytochrome C. J. Neurochem. 98,670-676.

• Banerjee, J., Verma, M.K., Manna, S. & Subhendu Ghosh (2006) Self-organised Criticality and 1/f Noise in Single-Channel Current of Voltage Dependent Anion Channel. Europhys. Lett., 73 (3): 457-463.

• Ghosh, P. & Subhendu Ghosh (2005). Investigating Collective behaviour of Gap-Junction Channels. Bioelectrochemistry, 68: 155-162.

• Banerjee, J. & Ghosh, S. (2005) Role of Voltage Dependent Anion Channel (VDAC), Bax and Bid in Cell Death: An Electrophysiological Study(Abstract), FEBS J. 272 (s1): 27.

• Banerjee, J. & Ghosh, S. (2005) Investigating Interaction of ligands with Voltage Dependent Anion Channel through Noise Analyses. Arch. Biochem. Biophys. 435: 369-371.

• Banerjee, J. & Ghosh, S. (2004) Bax increases the pore size of rat brain mitochondrial VDAC in the presence of Bid, Biophys. Biochim. Res. Comm. 323:310-31

• Banerjee, J. & Ghosh, S. (2004) Interaction of mitochondrial Voltage-Dependent Anion Channel from Rat Brain with Plasminogen Protein leads to Partial Closure of the Channel. Biochim. Biophys. Acta (Biomembrane), 1663:6-8.

• Mittra, B., S. L. Henry , P. Ghosh , J. Mishra, T.K. Das , C.R.Babu, P. Mohanty and Subhendu Ghosh (2004). Novel mode of resistance to Fusarium infection by a mild dose pre-exposure of cadmium in wheat. Plant Physiol. Biochem, 42: 781-787.

• Vijayvargiya, V, Bose, D., Ghosh, P. & Ghosh, S. (2003) Collective Behaviour of Crown Channels. Eur. Biophys. J., 32:724-728.

• Ghosh, P. Ghosh, S. & Das, S. (2002) Self-Regulation of Gap Junctions by Phosphorylation. Biochim. Biophys. Acta, 1564: 500-504

• Bera, A.K. & Ghosh, S. (2001) Dual Mode of Gating in Voltage Dependent Anion Channel, J. Structural Biol. 135:67-72.

• Ghosh, S. & Bera, A.K. (2001) Role of H+ Concentration on the Capacitance of A Membrane Channel, J. Theoretical Biology, 208:383-384.

• Ghosh, S. & Bera, A.K. (1999) Nonlinear Electrical Capacitance of Voltage Dependent Anion Channel. J. Biosciences, 24(supplement 1):129 (Abstract).

• Ghosh, S., Bera, A.K., and Das, S. (1999) Evidence for Nonlinear Capacitance in Biomembrane Channel System. J. Theoretical Biology, 200(3):299-302.

• Ghosh, P. & Ghosh, S. (1999) Regulation of Gap Junction by ATP. J. Biosciences, 24(supplement 1):129 (Abstract).

• Singh, K.K. & Ghosh, S. (1998) Restriction in the Cleavage Activity of Hammerhead Ribozyme. J. Biosciences, 23(1):1.

• Pattnaik, B.R., Ghosh, S, and Rajeshwari, M. (1997). Tryptophan Fluorescence of E.coli Ompf. Biochemistry & Molecular Biology International, 42(1):173.

• Bera, A. K., Ghosh, S. and Das, S. (1995) Mitochondrial VDAC can be phosphorylated by cyclic AMP dependent protein kinase. Biochem. Biophys. Res. Comm. 209(1): 212.

• Ghosh, Subhendu and Ghosh, Santibrata (1995): Role of site Mobility in adsorption: A Statistical Thermodynamical Approach. J. Chem. Education, 72:6

• Ghosh, S. (1993): Relaxation of Membrane Channels : A Statistical Mechanical Approach, J. Theor. Biol., 165(2):171.

• Ghosh, S. and Mukherjee, A.(1993): Statistical Mechanics of Membrane Channels. J. Theoretical Biol., 160(2):61.

• Ghosh, S. (1992): Ising model for B-Z Transition in Supercoiled DNA., Bull. Math. Biol. 54(5):727.

• Mookerjee, A. and Ghosh, S. (1987): Radiation Induced Adsorption of DNA. J. Surface Sci. & Tech., 2(2):61.

• Ghosh, S. and Mookerjee, A. (1986): A model for cooperative binding of ligand to complementary sites of DNA, Bull. Math. Biol.,48(1):2.

• Ghosh, S. and Mookerjee, A. (1981):Estimation of binding sites from the adsorption profiles of complexed DNA, Int. J. Quantum Chem.,20:185.

1. Subhendu Ghosh Biophysical Chemistry. In: Textbook of Biotechnology, Ed. H.K. Das, Wiley, 1st Edition (2004): pp 720-750; 2nd Edition (2005): pp 765-798; 3rd Edition (2007): pp 141-168. 5th Edition (2017) pp131-148.

2. Talukdar, S. & Ghosh, S. (2015) How Repeated Listening helps Learning a Musical Pattern? Proceedings of the International Symposium: Frontiers of Research on Speech & Music, IIT Kharagpur, pp86-89.

3. Ghosh, S. et al. (2013) Socio-Cultural basis of Brain Activities during Perception and Cognition of Music. Ed. S. Bandopadhyay, Proceedings “International Seminar on Creating & Teaching Music Patterns”, Kolkata, pp299-302.

4. Ghosh, S. et al. (2008) Electrical Noise in Cells, Membranes & Neurons. In: Complex Dynamics of Physiological Systems: from Heart to Brain. Ed. Dana et al. Springer, pp284-297.

5. Ghosh, S. (2008) Single Channel Electrophysiological Recordings as a Sensitive Tool to Study Ion Channels. In: Proceedings of the Seminar on “Therapeutic Use on Ion Channels”, Indian Veterinary Research Institute, Bareilly, pp7-12.

6. Bhattacharjee, A., Das, M.K. & Ghosh, S. (2008) Random Noise complements for a Weak Signal to Evoke Continuous Electrical Spikes in a Single Neuron. In: Proceedings of the National Conference on Device, Intelligent System, Communication & Networking, 1-2 August, 2008, Asansol, Excel India Publishers, pp135-138.

7. Ghosh, S. (2006) From Perception of Sound to Music Learning. In: Proceedings from the International Workshop on Analysis, Synthesis & Perception of Music Signals, C.V. Raman Centre for Physics & Music, Jadavpur University.

8. Banerjee, J., Manna, S. Verma, M.K. & Ghosh, S. (2006). Self-Organised Criticality in Ion Channels. In: National Conference on Nonlinear Systems & Dynamics, Chennai.

9. Ghosh, S. (2005) How Brain Learns Music. In: Proceedings from the Frontiers of Research on Speech & Music, Bhubaneswar, pp 32-37.

10. Ghosh, S. (2004) How Brain Learns Auditory Signals? Proceedings from International Conference on Systemics, Cybernatics & Informatics, Hyderabad, pp 476-479.

11. Ghosh, P., Bose, D. & Ghosh, S. (2004) Collective Behavior of Membrane Channels: Voltage-Clamp Studies on Gap Junctions. In: Function and Regulation of Cellular Systems: Experiments and Models, eds. A. Deutsch, M.Falcke, J.Howard, W. Zimmermann, Birkhauser, Basel, pp 89-97.

12. Ghosh, S. (2003) How we Learn Music. In: Proceedings from the Frontiers of Research on Speech & Music, IIT Kanpur, pp 1-5.

13. Ghosh, S. (2001) Electrophysiology of Passive Diffusion Channels. In: Biophysical Processes in Living Systems. Ed. P. Pardha Saradhi. Oxford & IBH Publishing Co., New Delhi, Science Publishers, Inc., Enfield (NH),USA, Plymouth, UK, pp133-147.

14. Ghosh, S. (2001) Collective Phenomena in Biology. In: Mathematics in Biology. Ed. Anjali Mookerjee. Ashutosh Institute, Calcutta, pp 293-303

15. Ghosh, S. (2000) Understanding Cognition of Musical Patterns: A Neuro-physiological Perspective. In: Proceedings from the Fifth International Workshop on Recent Trends in Speech, Music and Allied Signal Processing. Sangeet Research Academy, Calcutta. pp 63-72.

16. Ghosh, S. (2001) Computers, Brain & Music. In: Proceedings from the Sixth International Workshop on Recent Trends in Speech, Music and Allied Signal Processing. Sangeet Research Academy, Calcutta. pp 136-142.