Matthew Lang
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Vanderbilt engineers’ innovative research directly monitors cellulose production from individual synthase enzymes
Vanderbilt researchers have uncovered conditions needed to produce cellulose at the single molecule level that could one day aid in the dismantling of bacterial defenses as well as potentially lead to the engineering of more efficient and cost-effective biofuel feedstock sources. The findings were published in the scientific journal… Read MoreDec. 14, 2022
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Team’s sustained work in T-cell immune response awarded P01 grant totaling $11 million
Vanderbilt researchers have uncovered conditions needed to produce cellulose at the single molecule level that could one day aid in the dismantling of bacterial defenses as well as potentially lead to the engineering of more efficient and cost-effective biofuel feedstock sources. The findings were published in the scientific journal… Read MoreOct. 4, 2020
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Cancer-fighting T cells smarter, stronger than experts thought
Vanderbilt researchers have uncovered conditions needed to produce cellulose at the single molecule level that could one day aid in the dismantling of bacterial defenses as well as potentially lead to the engineering of more efficient and cost-effective biofuel feedstock sources. The findings were published in the scientific journal… Read MoreAug. 20, 2017
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Anatomy of a microscopic wood chipper: New observations reveal how an individual cellulase enzyme operates
Vanderbilt researchers have uncovered conditions needed to produce cellulose at the single molecule level that could one day aid in the dismantling of bacterial defenses as well as potentially lead to the engineering of more efficient and cost-effective biofuel feedstock sources. The findings were published in the scientific journal… Read MoreDec. 11, 2015
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School of Engineering recruits 4 new faculty members
Vanderbilt researchers have uncovered conditions needed to produce cellulose at the single molecule level that could one day aid in the dismantling of bacterial defenses as well as potentially lead to the engineering of more efficient and cost-effective biofuel feedstock sources. The findings were published in the scientific journal… Read MoreSep. 20, 2010