Structure of the transcriptional network controlling white-opaque switching in  Candida albicans .  Hernday, A.D., Lohse, M.B.*,  Fordyce, P.M.* , Nobile, C.J., DeRisi, J.L., & Johnson, A.D.  Molecular Microbiology  (2013). (* denotes equal authorship).  ( pdf ) ( web )
  Microfluidic affinity and ChIP-Seq analyses converge on a conserved FOXP2-binding motif in chimp and human, which enables the detection of evolutionarily novel targets.   Nelson, C.S., Fuller, C.K.,  Fordyce, P.M.,  Greninger, A.L., Li, H., & DeRisi, J.L.  Nucleic Acids Research  (2013).  ( pdf ) ( web )
  Identification and characterization of a previously undescribed family of sequence-specific DNA-binding domains.  Lohse, M.B., Hernday, A.D.,  Fordyce, P.M. , Noiman, L., Sorrells, T.R., Hanson-Smith, V., Nobile, C., DeRisi, J.L., & Johnson, A.D.  PNAS  (2013).  (pdf) ( web )

Structure of the transcriptional network controlling white-opaque switching in Candida albicans. Hernday, A.D., Lohse, M.B.*, Fordyce, P.M.*, Nobile, C.J., DeRisi, J.L., & Johnson, A.D. Molecular Microbiology (2013). (* denotes equal authorship).

(pdf) (web)

Microfluidic affinity and ChIP-Seq analyses converge on a conserved FOXP2-binding motif in chimp and human, which enables the detection of evolutionarily novel targets.  Nelson, C.S., Fuller, C.K., Fordyce, P.M., Greninger, A.L., Li, H., & DeRisi, J.L. Nucleic Acids Research (2013).

(pdf) (web)

Identification and characterization of a previously undescribed family of sequence-specific DNA-binding domains. Lohse, M.B., Hernday, A.D., Fordyce, P.M., Noiman, L., Sorrells, T.R., Hanson-Smith, V., Nobile, C., DeRisi, J.L., & Johnson, A.D. PNAS (2013).

(pdf) (web)