Profile Details

Contact

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USD 90 /hr

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Hire Dr. Venkatesh M.

United Kingdom

USD 90 /hr

Profile Summary

Molecular biology PhD candidate. Uses proteomics to analyse how changes to stem cell niche determine physiological ageing in populations of mesenchymal-derived stem cells. Technical experience in proteomics, genetics, stem cell culture, standard molecular biology techniques and mitochondrial biochemistry used to answer questions relating to how and why we age. Seeks interesting projects concerning therapeutics to reverse age-related diseases (i.e. stem cell therapeutics, tissue engineering, genome editing and drug discovery) .

Subject Matter Expertise

• ☆ STEM
• ☆ Biochemistry
• ☆ Molecular Biology
• ☆ Proteomics
• ☆ Biotechnology & Bioengineering
• ☆ Tissue Engineering
• ☆ Cell Aging
• ☆ Gerontology
• ☆ Technical & Scientific Writing

Services

• Writing
• Consulting
• Data & AI
• Product Development

Work Experience

Post-doctoral research associate

University of Virginia

September 2019 - Present

PhD candidate

University of Manchester

January 2016 - July 2019

Postgraduate researcher

Newcastle University

March 2014 - August 2015

Postgraduate researcher

Tampereen Yliopisto

February 2012 - March 2014

Education

BSc/Biological Sciences (Hons Genetics) (Department of Science and Engineering)

University of Edinburgh

2006 - 2010

Certifications

• Certification details not provided.

Publications

JOURNAL ARTICLE

(2020). BayesENproteomics: Bayesian Elastic Nets for Quantification of Peptidoforms in Complex Samples . Journal of Proteome Research.

(2020). Circadian control of the secretory pathway maintains collagen homeostasis . Nature Cell Biology.

(2019). Nuclear decoupling is part of a rapid protein-level cellular response to high-intensity mechanical loading . Nature Communications.

(2019). MicroRNA-dependent regulation of biomechanical genes establishes tissue stiffness homeostasis . Nature Cell Biology.

(2016). Therapeutic manipulation of ageing: repurposing old dogs and discovering new tricks . EBioMedicine.

Mallikarjun, V., Sriram, A., Scialo, F., Sanz, A.(2014). The interplay between mitochondrial protein and iron homeostasis and its possible role in ageing . Experimental Gerontology. 56. p. 123-134.

Scialo, F., Mallikarjun, V., Stefanatos, R., Sanz, A.(2013). Regulation of lifespan by the mitochondrial electron transport chain: Reactive oxygen species-dependent and reactive oxygen species-independent mechanisms . Antioxidants and Redox Signaling. 19. (16). p. 1953-1969.

Auchinvole, C.A.R., Richardson, P., McGuinnes, C., Mallikarjun, V., Donaldson, K., McNab, H., Campbell, C.J.(2012). Monitoring intracellular redox potential changes using SERS nanosensors . ACS Nano. 6. (1). p. 888-896.

Mallikarjun, V., Clarke, D.J., Campbell, C.J.(2012). Cellular redox potential and the biomolecular electrochemical series: A systems hypothesis . Free Radical Biology and Medicine. 53. (2). p. 280-288.