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Jeffrey D Kittendorf

Showing results (1-10 of 15) with videos related to

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Bioorganic & Medicinal Chemistry|November 26, 2008
The methymycin/pikromycin pathway: a model for metabolic diversity in natural product biosynthesisJeffrey D Kittendorf, David H Sherman
Bioorganic Chemistry|May 13, 2005
Transglycosylation: a mechanism for RNA modification (and editing?)George A Garcia, Jeffrey D Kittendorf
Current Opinion in Biotechnology|October 19, 2006
Developing tools for engineering hybrid polyketide synthetic pathwaysJeffrey D Kittendorf, David H Sherman
Methods in Enzymology|August 4, 2007
Probing the intermediacy of covalent RNA enzyme complexes in RNA modification enzymesStephanie M Chervin, Jeffrey D Kittendorf, George A Garcia
Journal of the American Chemical Society|October 9, 2009
Synthesis and biochemical analysis of complex chain-elongation intermediates for interrogation of molecular specificity in the erythromycin and pikromycin polyketide synthasesJonathan D Mortison, Jeffrey D Kittendorf, David H Sherman
Biochemistry|October 31, 2009
Identification of the rate-determining step of tRNA-guanine transglycosylase from Escherichia coliGeorge A Garcia, Stephanie M Chervin, Jeffrey D Kittendorf
The Journal of Biological Chemistry|August 12, 2003
An essential role for aspartate 264 in catalysis by tRNA-guanine transglycosylase from Escherichia coliJeffrey D Kittendorf, Tanja Sgraja, Klaus Reuter, et al.
Chemistry & Biology|August 28, 2007
Interrogating the molecular basis for multiple macrolactone ring formation by the pikromycin polyketide synthaseJeffrey D Kittendorf, Brian J Beck, Tonia J Buchholz, et al.
Nature Chemical Biology|September 14, 2006
Structural and mechanistic insights into polyketide macrolactonization from polyketide-based affinity labelsJohn W Giraldes, David L Akey, Jeffrey D Kittendorf, et al.
Nature Chemical Biology|September 14, 2006
Structural basis for macrolactonization by the pikromycin thioesteraseDavid L Akey, Jeffrey D Kittendorf, John W Giraldes, et al.
Pageof 2

Showing results (1-10 of 15) with videos related to

Sort By:
Pageof 2
Bioorganic & Medicinal Chemistry|November 26, 2008
The methymycin/pikromycin pathway: a model for metabolic diversity in natural product biosynthesisJeffrey D Kittendorf, David H Sherman
Bioorganic Chemistry|May 13, 2005
Transglycosylation: a mechanism for RNA modification (and editing?)George A Garcia, Jeffrey D Kittendorf
Current Opinion in Biotechnology|October 19, 2006
Developing tools for engineering hybrid polyketide synthetic pathwaysJeffrey D Kittendorf, David H Sherman
Methods in Enzymology|August 4, 2007
Probing the intermediacy of covalent RNA enzyme complexes in RNA modification enzymesStephanie M Chervin, Jeffrey D Kittendorf, George A Garcia
Journal of the American Chemical Society|October 9, 2009
Synthesis and biochemical analysis of complex chain-elongation intermediates for interrogation of molecular specificity in the erythromycin and pikromycin polyketide synthasesJonathan D Mortison, Jeffrey D Kittendorf, David H Sherman
Biochemistry|October 31, 2009
Identification of the rate-determining step of tRNA-guanine transglycosylase from Escherichia coliGeorge A Garcia, Stephanie M Chervin, Jeffrey D Kittendorf
The Journal of Biological Chemistry|August 12, 2003
An essential role for aspartate 264 in catalysis by tRNA-guanine transglycosylase from Escherichia coliJeffrey D Kittendorf, Tanja Sgraja, Klaus Reuter, et al.
Chemistry & Biology|August 28, 2007
Interrogating the molecular basis for multiple macrolactone ring formation by the pikromycin polyketide synthaseJeffrey D Kittendorf, Brian J Beck, Tonia J Buchholz, et al.
Nature Chemical Biology|September 14, 2006
Structural and mechanistic insights into polyketide macrolactonization from polyketide-based affinity labelsJohn W Giraldes, David L Akey, Jeffrey D Kittendorf, et al.
Nature Chemical Biology|September 14, 2006
Structural basis for macrolactonization by the pikromycin thioesteraseDavid L Akey, Jeffrey D Kittendorf, John W Giraldes, et al.
Pageof 2