Tanisha Singh, PhD
Research Scientist, University of Pittsburgh, School of Medicine
Research Expertise
Publications
Melatonin inhibits cytosolic mitochondrial DNA–induced neuroinflammatory signaling in accelerated aging and neurodegeneration
Journal of Clinical Investigation / May 11, 2020
Jauhari, A., Baranov, S. V., Suofu, Y., Kim, J., Singh, T., Yablonska, S., Li, F., Wang, X., Oberly, P., Minnigh, M. B., Poloyac, S. M., Carlisle, D. L., & Friedlander, R. M. (2020). Melatonin inhibits cytosolic mitochondrial DNA–induced neuroinflammatory signaling in accelerated aging and neurodegeneration. Journal of Clinical Investigation, 130(6), 3124–3136. https://doi.org/10.1172/jci135026
Critical role of the miR‐200 family in regulating differentiation and proliferation of neurons
Journal of Neurochemistry / Apr 21, 2015
Pandey, A., Singh, P., Jauhari, A., Singh, T., Khan, F., Pant, A. B., Parmar, D., & Yadav, S. (2015). Critical role of the miR‐200 family in regulating differentiation and proliferation of neurons. Journal of Neurochemistry, 133(5), 640–652. Portico. https://doi.org/10.1111/jnc.13089
Regulation of miR-34 Family in Neuronal Development
Molecular Neurobiology / Jan 13, 2017
Jauhari, A., Singh, T., Singh, P., Parmar, D., & Yadav, S. (2017). Regulation of miR-34 Family in Neuronal Development. Molecular Neurobiology, 55(2), 936–945. https://doi.org/10.1007/s12035-016-0359-4
Melatonin inhibits cytosolic mitochondrial DNA–induced neuroinflammatory signaling in accelerated aging and neurodegeneration
Journal of Clinical Investigation / May 03, 2021
Jauhari, A., Baranov, S. V., Suofu, Y., Kim, J., Singh, T., Yablonska, S., Li, F., Wang, X., Oberly, P., Minnigh, M. B., Poloyac, S. M., Carlisle, D. L., & Friedlander, R. M. (2021). Melatonin inhibits cytosolic mitochondrial DNA–induced neuroinflammatory signaling in accelerated aging and neurodegeneration. Journal of Clinical Investigation, 131(9). https://doi.org/10.1172/jci150328
Ageing at Molecular Level: Role of MicroRNAs
Biochemistry and Cell Biology of Ageing: Part III Biomedical Science / Jan 01, 2023
Yadav, S., Sarkar, S., Pandey, A., & Singh, T. (2023). Ageing at Molecular Level: Role of MicroRNAs. In Subcellular Biochemistry (pp. 195–248). Springer International Publishing. https://doi.org/10.1007/978-3-031-21410-3_9
Role of Stem Cells and Derived Exosomes as Novel Therapeutic Agents against Neuroinflammation and Stroke
Applications of Stem Cells and derived Exosomes in Neurodegenerative Disorders / Jan 01, 2023
Mirza, R. S., Rawat, N., Thakur, D., Bhardwaj, A., Gairola, S., & Singh, T. (2023). Role of Stem Cells and Derived Exosomes as Novel Therapeutic Agents against Neuroinflammation and Stroke. In Applications of Stem Cells and derived Exosomes in Neurodegenerative Disorders (pp. 193–230). Springer Nature Singapore. https://doi.org/10.1007/978-981-99-3848-3_9
Neurodevelopmental disorders and neurotoxicity: MicroRNA in focus
Journal of Chemical Neuroanatomy / Mar 01, 2022
Jauhari, A., Singh, T., & Yadav, S. (2022). Neurodevelopmental disorders and neurotoxicity: MicroRNA in focus. Journal of Chemical Neuroanatomy, 120, 102072. https://doi.org/10.1016/j.jchemneu.2022.102072
Neuronal mitochondrial dysfunction in sporadic amyotrophic lateral sclerosis is developmentally regulated
Scientific Reports / Sep 23, 2021
Singh, T., Jiao, Y., Ferrando, L. M., Yablonska, S., Li, F., Horoszko, E. C., Lacomis, D., Friedlander, R. M., & Carlisle, D. L. (2021). Neuronal mitochondrial dysfunction in sporadic amyotrophic lateral sclerosis is developmentally regulated. Scientific Reports, 11(1). https://doi.org/10.1038/s41598-021-97928-7
Coordinated Action of miR-146a and Parkin Gene Regulate Rotenone-induced Neurodegeneration
Toxicological Sciences / May 11, 2020
Jauhari, A., Singh, T., Mishra, S., Shankar, J., & Yadav, S. (2020). Coordinated Action of miR-146a and Parkin Gene Regulate Rotenone-induced Neurodegeneration. Toxicological Sciences, 176(2), 433–445. https://doi.org/10.1093/toxsci/kfaa066
Role of microRNAs in neurodegeneration induced by environmental neurotoxicants and aging
Ageing Research Reviews / Jul 01, 2020
Singh, T., & Yadav, S. (2020). Role of microRNAs in neurodegeneration induced by environmental neurotoxicants and aging. Ageing Research Reviews, 60, 101068. https://doi.org/10.1016/j.arr.2020.101068
Correction to: Expression of miR-145 and Its Target Proteins Are Regulated by miR-29b in Differentiated Neurons
Molecular Neurobiology / Jul 03, 2019
Jauhari, A., Singh, T., & Yadav, S. (2019). Correction to: Expression of miR-145 and Its Target Proteins Are Regulated by miR-29b in Differentiated Neurons. Molecular Neurobiology, 56(9), 6664–6665. https://doi.org/10.1007/s12035-019-01686-7
Expression of miR-145 and Its Target Proteins Are Regulated by miR-29b in Differentiated Neurons
Molecular Neurobiology / Apr 04, 2018
Jauhari, A., Singh, T., & Yadav, S. (2018). Expression of miR-145 and Its Target Proteins Are Regulated by miR-29b in Differentiated Neurons. Molecular Neurobiology, 55(12), 8978–8990. https://doi.org/10.1007/s12035-018-1009-9
Differentiation Induces Dramatic Changes in miRNA Profile, Where Loss of Dicer Diverts Differentiating SH-SY5Y Cells Toward Senescence
Molecular Neurobiology / Aug 15, 2016
Jauhari, A., Singh, T., Pandey, A., Singh, P., Singh, N., Srivastava, A. K., Pant, A. B., Parmar, D., & Yadav, S. (2016). Differentiation Induces Dramatic Changes in miRNA Profile, Where Loss of Dicer Diverts Differentiating SH-SY5Y Cells Toward Senescence. Molecular Neurobiology, 54(7), 4986–4995. https://doi.org/10.1007/s12035-016-0042-9
MicroRNAs are Emerging as Most Potential Molecular Biomarkers
Biochemistry & Analytical Biochemistry / Jan 01, 2015
Abhishek, S. Y. (2015). MicroRNAs are Emerging as Most Potential Molecular Biomarkers. Biochemistry & Analytical Biochemistry, 04(03). https://doi.org/10.4172/2161-1009.1000191
Transactivation of P53 by cypermethrin induced miR-200 and apoptosis in neuronal cells
Toxicology Research / Jan 01, 2015
Pandey, A., Jauhari, A., Singh, T., Singh, P., Singh, N., Srivastava, A. K., Khan, F., Pant, A. B., Parmar, D., & Yadav, S. (2015). Transactivation of P53 by cypermethrin induced miR-200 and apoptosis in neuronal cells. Toxicology Research, 4(6), 1578–1586. https://doi.org/10.1039/c5tx00200a
Regulatory Triangle of Neurodegeneration, Adult Neurogenesis and MicroRNAs
CNS & Neurological Disorders - Drug Targets / Feb 01, 2014
Singh, T., Jauhari, A., Pandey, A., Singh, P., Pant, A., Parmar, D., & Yadav, S. (2014). Regulatory Triangle of Neurodegeneration, Adult Neurogenesis and MicroRNAs. CNS & Neurological Disorders - Drug Targets, 13(1), 96–103. https://doi.org/10.2174/18715273113126660190
Education
Babu Banarasi Das University
PhD , Registered at BBDU
Experience
University of Pittsburgh
Research Scientist / September, 2023 — Present
Postdoctoral Research Associate / October, 2017 — August, 2023
CSIR-Indian Institute of Toxicology Research
Women Scientist A / February, 2016 — September, 2017
Join Tanisha on NotedSource!
Join Now
At NotedSource, we believe that professors, post-docs, scientists and other researchers have deep, untapped knowledge and expertise that can be leveraged to drive innovation within companies. NotedSource is committed to bridging the gap between academia and industry by providing a platform for collaboration with industry and networking with other researchers.
For industry, NotedSource identifies the right academic experts in 24 hours to help organizations build and grow. With a platform of thousands of knowledgeable PhDs, scientists, and industry experts, NotedSource makes connecting and collaborating easy.
For academic researchers such as professors, post-docs, and Ph.D.s, NotedSource provides tools to discover and connect to your colleagues with messaging and news feeds, in addition to the opportunity to be paid for your collaboration with vetted partners.
Expert Institutions
Proudly trusted by
