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Difference between revisions of "User:Vivek Bharadwaj"

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Dr. Vivek S. Bharadwaj is a Staff-Scientist at the Bioenergy Science and Technology (BEST) Directorate of the National Renewable Energy Laboratory (NREL) in Golden, Colorado. His research focuses on using computational molecular science to improve the economic viability of biochemical and thermochemical biomass valorization platforms. He joined NREL as a post-doctoral researcher in 2015 after obtaining his doctorate in Chemical Engineering from the Colorado School of Mines, where he studied hydrocarbon biodegradation and solvation of biomass components in ionic liquids.
 
Dr. Vivek S. Bharadwaj is a Staff-Scientist at the Bioenergy Science and Technology (BEST) Directorate of the National Renewable Energy Laboratory (NREL) in Golden, Colorado. His research focuses on using computational molecular science to improve the economic viability of biochemical and thermochemical biomass valorization platforms. He joined NREL as a post-doctoral researcher in 2015 after obtaining his doctorate in Chemical Engineering from the Colorado School of Mines, where he studied hydrocarbon biodegradation and solvation of biomass components in ionic liquids.
  
Vivek has been an active contributor to the CAZY community since 2015 and has worked on using molecular modeling techniques to fill in gaps of knowledge that are intractable with experiments. His work has involved using ''in silico'' docking techniques in conjunction with more rigorous molecular dynamics and quantum mechanics simulations to bridge structural biology data and biochemical data to illuminate the mechanistic underpinnings of glycosyl transferase and glycosyl hydrolase CAZymes.  
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Vivek has been an active contributor to the CAZY community since 2015 and has worked on using molecular modeling techniques to fill in gaps of knowledge that are intractable with experiments. His work has involved using ''in silico'' docking techniques in conjunction with more rigorous molecular dynamics and quantum mechanics simulations to bridge structural biology data and biochemical data to illuminate the mechanistic underpinnings of glycosyl transferase<cite>vsb2017</cite> and glycosyl hydrolase<cite>vsb2020</cite> CAZymes.  
  
 
* See [[User:Gerlind_Sulzenbacher]] for an example.  You may copy text from this example by opening the page in another browser window and clicking the "Edit" tab.
 
* See [[User:Gerlind_Sulzenbacher]] for an example.  You may copy text from this example by opening the page in another browser window and clicking the "Edit" tab.
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<biblio>
 
<biblio>
#Gilbert2008 pmid=18430603
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#vsb2020 pmid=32054684
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#vsb2017 pmid=28670741
  
 
</biblio>
 
</biblio>
 
 
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[[Category:Contributors|Bharadwaj,Vivek]]
 
[[Category:Contributors|Bharadwaj,Vivek]]

Revision as of 06:50, 3 November 2022

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Vivek S. Bharadwaj

Dr. Vivek S. Bharadwaj is a Staff-Scientist at the Bioenergy Science and Technology (BEST) Directorate of the National Renewable Energy Laboratory (NREL) in Golden, Colorado. His research focuses on using computational molecular science to improve the economic viability of biochemical and thermochemical biomass valorization platforms. He joined NREL as a post-doctoral researcher in 2015 after obtaining his doctorate in Chemical Engineering from the Colorado School of Mines, where he studied hydrocarbon biodegradation and solvation of biomass components in ionic liquids.

Vivek has been an active contributor to the CAZY community since 2015 and has worked on using molecular modeling techniques to fill in gaps of knowledge that are intractable with experiments. His work has involved using in silico docking techniques in conjunction with more rigorous molecular dynamics and quantum mechanics simulations to bridge structural biology data and biochemical data to illuminate the mechanistic underpinnings of glycosyl transferase[1] and glycosyl hydrolase[2] CAZymes.

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  1. Urbanowicz BR, Bharadwaj VS, Alahuhta M, Peña MJ, Lunin VV, Bomble YJ, Wang S, Yang JY, Tuomivaara ST, Himmel ME, Moremen KW, York WS, and Crowley MF. (2017). Structural, mutagenic and in silico studies of xyloglucan fucosylation in Arabidopsis thaliana suggest a water-mediated mechanism. Plant J. 2017;91(6):931-949. DOI:10.1111/tpj.13628 | PubMed ID:28670741 [vsb2017]
  2. Bharadwaj VS, Knott BC, Ståhlberg J, Beckham GT, and Crowley MF. (2020). The hydrolysis mechanism of a GH45 cellulase and its potential relation to lytic transglycosylase and expansin function. J Biol Chem. 2020;295(14):4477-4487. DOI:10.1074/jbc.RA119.011406 | PubMed ID:32054684 [vsb2020]

All Medline abstracts: PubMed