Mapping of Amino Acid Substitutions Conferring Herbicide Resistance in Wheat Glutathione Transferase | Zendy

Sridhar Govindarajan | Zendy; Bengt Mannervik | Zendy; J. Silverman | Zendy; Kathy Wright | Zendy; Drew Regitsky | Zendy; Usama M. Hegazy | Zendy; Thomas J. Purcell | Zendy; Mark Welch | Zendy; Jeremy Minshull | Zendy; Claes Gustafsson | Zendy

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Mapping of Amino Acid Substitutions Conferring Herbicide Resistance in Wheat Glutathione Transferase

Author(s) -

Sridhar Govindarajan,

Bengt Mannervik,

J. Silverman,

Kathy Wright,

Drew Regitsky,

Usama M. Hegazy,

Thomas J. Purcell,

Mark Welch,

Jeremy Minshull,

Claes Gustafsson

Publication year - 2014

Publication title -

acs synthetic biology

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.156

H-Index - 66

ISSN - 2161-5063

DOI - 10.1021/sb500242x

Subject(s) - glutathione transferase , herbicide resistance , glutathione , biochemistry , transferase , amino acid , glutathione s transferase , biology , chemistry , genetics , microbiology and biotechnology , enzyme , gene

We have used design of experiments (DOE) and systematic variance to efficiently explore glutathione transferase substrate specificities caused by amino acid substitutions. Amino acid substitutions selected using phylogenetic analysis were synthetically combined using a DOE design to create an information-rich set of gene variants, termed infologs. We used machine learning to identify and quantify protein sequence-function relationships against 14 different substrates. The resulting models were quantitative and predictive, serving as a guide for engineering of glutathione transferase activity toward a diverse set of herbicides. Predictive quantitative models like those presented here have broad applicability for bioengineering.

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