APA

Wilkinson A. C., Goode D. K., Cheng Y., Dickel D. E., Foster S., Sendall T., Tijssen M. R., Sanchez M., Pennacchio L. A., Kirkpatrick A. M. & Göttgens B. (20131118). Single site-specific integration targeting coupled with embryonic stem cell differentiation provides a high-throughput alternative to in vivo enhancer analyses. : Biology open.

Chicago

Wilkinson Adam C, Goode Debbie K, Cheng Yi-Han, Dickel Diane E, Foster Sam, Sendall Tim, Tijssen Marloes R, Sanchez Maria-Jose, Pennacchio Len A, Kirkpatrick Aileen M and Göttgens Berthold. 20131118. Single site-specific integration targeting coupled with embryonic stem cell differentiation provides a high-throughput alternative to in vivo enhancer analyses. : Biology open.

Harvard

Wilkinson A. C., Goode D. K., Cheng Y., Dickel D. E., Foster S., Sendall T., Tijssen M. R., Sanchez M., Pennacchio L. A., Kirkpatrick A. M. and Göttgens B. (20131118). Single site-specific integration targeting coupled with embryonic stem cell differentiation provides a high-throughput alternative to in vivo enhancer analyses. : Biology open.

MLA

Wilkinson Adam C, Goode Debbie K, Cheng Yi-Han, Dickel Diane E, Foster Sam, Sendall Tim, Tijssen Marloes R, Sanchez Maria-Jose, Pennacchio Len A, Kirkpatrick Aileen M and Göttgens Berthold. Single site-specific integration targeting coupled with embryonic stem cell differentiation provides a high-throughput alternative to in vivo enhancer analyses. : Biology open. 20131118.