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Alexander I Taylor

Showing results (1-10 of 23) with videos related to

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Nature Protocols|September 25, 2015
Directed evolution of artificial enzymes (XNAzymes) from diverse repertoires of synthetic genetic polymersAlexander I Taylor, Philipp Holliger
Nature Chemistry|July 19, 2022
On gene silencing by the X10-23 DNAzymeAlexander I Taylor, Philipp Holliger
Current Protocols in Chemical Biology|June 22, 2018
Selecting Fully-Modified XNA Aptamers Using Synthetic GeneticsAlexander I Taylor, Philipp Holliger
Cold Spring Harbor Perspectives in Biology|June 5, 2019
Beyond DNA and RNA: The Expanding Toolbox of Synthetic GeneticsAlexander I Taylor, Gillian Houlihan, Philipp Holliger
RSC Chemical Biology|September 15, 2025
Sources of mismeasurement of RNA knockdown by DNAzymes and XNAzymesMaria J Donde, Alicia Montulet, Alexander I Taylor
Current Opinion in Chemical Biology|October 7, 2014
Towards applications of synthetic genetic polymers in diagnosis and therapyAlexander I Taylor, Sebastian Arangundy-Franklin, Philipp Holliger
Developmental and Comparative Immunology|September 8, 2009
Mutations in an avian IgY-Fc fragment reveal the locations of monocyte Fc receptor binding sitesAlexander I Taylor, Brian J Sutton, Rosaleen A Calvert
Communications Biology|September 24, 2022
Targeting non-coding RNA family members with artificial endonuclease XNAzymesMaria J Donde, Adam M Rochussen, Saksham Kapoor, et al.
Biochemistry|January 1, 2009
The crystal structure of an avian IgY-Fc fragment reveals conservation with both mammalian IgG and IgEAlexander I Taylor, Stella M Fabiane, Brian J Sutton, et al.
The Journal of Biological Chemistry|April 11, 2008
Avian IgY binds to a monocyte receptor with IgG-like kinetics despite an IgE-like structureAlexander I Taylor, Hannah J Gould, Brian J Sutton, et al.
Pageof 3

Showing results (1-10 of 23) with videos related to

Sort By:
Pageof 3
Nature Protocols|September 25, 2015
Directed evolution of artificial enzymes (XNAzymes) from diverse repertoires of synthetic genetic polymersAlexander I Taylor, Philipp Holliger
Nature Chemistry|July 19, 2022
On gene silencing by the X10-23 DNAzymeAlexander I Taylor, Philipp Holliger
Current Protocols in Chemical Biology|June 22, 2018
Selecting Fully-Modified XNA Aptamers Using Synthetic GeneticsAlexander I Taylor, Philipp Holliger
Cold Spring Harbor Perspectives in Biology|June 5, 2019
Beyond DNA and RNA: The Expanding Toolbox of Synthetic GeneticsAlexander I Taylor, Gillian Houlihan, Philipp Holliger
RSC Chemical Biology|September 15, 2025
Sources of mismeasurement of RNA knockdown by DNAzymes and XNAzymesMaria J Donde, Alicia Montulet, Alexander I Taylor
Current Opinion in Chemical Biology|October 7, 2014
Towards applications of synthetic genetic polymers in diagnosis and therapyAlexander I Taylor, Sebastian Arangundy-Franklin, Philipp Holliger
Developmental and Comparative Immunology|September 8, 2009
Mutations in an avian IgY-Fc fragment reveal the locations of monocyte Fc receptor binding sitesAlexander I Taylor, Brian J Sutton, Rosaleen A Calvert
Communications Biology|September 24, 2022
Targeting non-coding RNA family members with artificial endonuclease XNAzymesMaria J Donde, Adam M Rochussen, Saksham Kapoor, et al.
Biochemistry|January 1, 2009
The crystal structure of an avian IgY-Fc fragment reveals conservation with both mammalian IgG and IgEAlexander I Taylor, Stella M Fabiane, Brian J Sutton, et al.
The Journal of Biological Chemistry|April 11, 2008
Avian IgY binds to a monocyte receptor with IgG-like kinetics despite an IgE-like structureAlexander I Taylor, Hannah J Gould, Brian J Sutton, et al.
Pageof 3