Basic leucine zipper transcription factor Hac1 binds DNA in two distinct modes as revealed by microfluidic analyses.   Fordyce, P.M.,  Pincus, D., Kimmig, P., Nelson, C.S., El-Samad, H., Walter, P., & DeRisi, J.L.  PNAS (2012).

Programmable microfluidic synthesis of spectrally encoded microspheres.  Gerver, R.E.*, Gomez-Sjoberg, R.*, Baxter, B.C.*, Thorn, K.S.*, Fordyce, P.M.* , Diaz-Botia, C.A., Helms, B.A., & DeRisi, J.L.  Lab on a Chip (2012). (* denote

Systematic characterization of feature dimensions and closing pressures for microfluidic valves produced via photoresist reflow.   Fordyce, P.M. , Diaz-Botia, C.A., DeRisi, J.L., & Gomez-Sjoberg, R.  Lab on a Chip (2012). ( pdf ) (

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Basic leucine zipper transcription factor Hac1 binds DNA in two distinct modes as revealed by microfluidic analyses. Fordyce, P.M., Pincus, D., Kimmig, P., Nelson, C.S., El-Samad, H., Walter, P., & DeRisi, J.L. PNAS (2012).

(pdf) (web)

Programmable microfluidic synthesis of spectrally encoded microspheres. Gerver, R.E.*, Gomez-Sjoberg, R.*, Baxter, B.C.*, Thorn, K.S.*, Fordyce, P.M.*, Diaz-Botia, C.A., Helms, B.A., & DeRisi, J.L. Lab on a Chip (2012). (* denotes equal authorship, author order was determined by random draw).

(pdf) (web)

Systematic characterization of feature dimensions and closing pressures for microfluidic valves produced via photoresist reflow. Fordyce, P.M., Diaz-Botia, C.A., DeRisi, J.L., & Gomez-Sjoberg, R. Lab on a Chip (2012).

(pdf) (web)