Publications

A number of our publications have been featured on the cover of journals:

 

Kehoe Lab Publications (since 1997)

 

  • Grossman, A. R., and D. M. Kehoe.  1997.  Phosphorelay control of phycobilisome biogenesis during complementary chromatic adaptation. Photosynthesis Research, 53:95-108.
  • Kehoe, D. M. and A. R. Grossman.  1997.  New classes of mutants in complementary chromatic adaptation provide evidence for a novel four-step phosphorelay system. Journal of Bacteriology, 197: 3914-3921.
  • Casey, E. M., Kehoe, D. M., and A. R. Grossman.  1997.  Suppression of mutants aberrant in light intensity responses of complementary chromatic adaptation. Journal of Bacteriology, 179: 4599-4606.
  • Kehoe, D. M. and A. R. Grossman.  1998.  Use of molecular genetics to investigate complementary chromatic adaptation: advances in transformation and complementation. Methods in Enzymology, 297: 279-290.
  • Kehoe, D. M., and A. R. Grossman.  1999.  The molecular mechanisms controlling complementary chromatic adaptation. In The Phototrophic Prokaryotes, (eds. G. A. Peschek, W. Löffelhardt, and G. Schmetterer)(Kluwer Academic/Plenum Publishers, New York) pp. 61-69.
  • Kehoe, D. M., Villand, P., and S. Somerville.  1999.  DNA microarrays for studies of higher plants and other photosynthetic organisms. Trends in Plant Sciences, 4: 38-41. (NOTE: This article was featured on the cover of the journal.)
  • Grossman, A. R. and D. M. Kehoe.  2000.  Transformation of the filamentous cyanobacterium Fremyella diplosiphon. In Electrotransformation of Bacteria, Springer Lab Manual (eds. N. Eynard and J. Teissie)(Springer-Verlag, Heidelberg)
  • Seib, L. O. and D. M. Kehoe.  2002.  A Turquoise mutant genetically separates the expression of the genes encoding phycoerythrin and its associated linker peptides. Journal of Bacteriology, 184: 962-970
  • Alvey, R. M., Karty, J. A., Roos, E., Reilly, J. P., and D. M. Kehoe.  2003.  pebAB, the operon encoding 15,16-dihydrobiliverdin oxidoreductase and PEB oxidoreductase, is coordinately regulated with cpeBA during complementary chromatic adaptation in Fremyella diplosiphon. The Plant Cell, 15: 2448-2463. (NOTE: This article was featured on the cover of the journal and was also selected for poster production and dissemination to members of the American Society of Plant Biologists at the 2004 National Meeting.)
  • Grossman, A. R., van Waasbergen, L. G., and D. M Kehoe.  2003.  Environmental Regulation of Phycobilisome Biosynthesis. In Advances in Photosynthesis and Respiration, Volume 13: Light Harvesting Antennas in Photosynthesis (Ed. B. Green and W. Parson) (Kluwer Publishers, Dordrecht). pp. 471-493.
  • Balabas, B., Montgomery, B. L., Ong, L. E., and D. M. Kehoe.  2003.  CotB is essential for complete activation of green light induced genes during complementary chromatic adaptation in Fremyella diplosiphon. Molecular Microbiology, 50: 781-793. (NOTE: This article was featured on the cover of the journal.)
  • Terauchi, K., Montgomery, B. L., Grossman, A. R., Lagarias, J. C., and D. M. Kehoe.  2004.  RcaE is a complementary chromatic adaptation photoreceptor required for green and red light responsiveness. Molecular Microbiology, 51:567-577.
  • Stowe-Evans, E. L. and D. M. Kehoe.  2004.  Signal transduction during light quality acclimation in cyanobacteria: a model system for understanding phytochrome response pathways in prokaryotes. Journal of Photochemical and Photobiological Sciences, 3: 495-502. (Peer Reviewed, Invited Review Article) (NOTE: This article was featured on the cover of the journal and was one of the top 10 articles accessed in this journal in June 2004.)
  • Stowe-Evans, E. L., Ford, J., and D. M. Kehoe.  2004.  Genomic DNA microarray analysis: identification of new genes regulated by light color in the cyanobacterium Fremyella diplosiphon. Journal of Bacteriology, 186: 4338-4349.
  • Montgomery, B. L., Casey, E. S., Grossman, A. R., and D. M. Kehoe.  2004.  AplA: a member of a new class of phycobiliproteins lacking a traditional role in photosynthetic light harvesting. Journal of Bacteriology, 186: 7420-7428.
  • Li, L. and D. M. Kehoe.  2005.  In vivo analysis of the roles of conserved aspartate and histidine residues within a complex response regulator. Molecular Microbiology, 55: 1538-1552.
  • Alvey, R. M., Li, L., Balabas, B., Stowe-Evans, E. L., and D. M. Kehoe.  2005.  Signal transduction pathways regulating chromatic adaptation. In Light Sensing in Plants (Ed. M. Wada, K. Shimazaki, and M. Iino) (Springer-Verlag Publishers, Tokyo) pp. 299-306.
  • Kehoe, D. M. and A. Gutu.  2006.  Responding to color: the regulation of complementary chromatic adaptation. Annual Review of Plant Biology, 57: 127-150.
  • Alvey, R. M., Bezy, R. P., Frankenberg-Dinkle, N., and D. M. Kehoe.  2007. A light regulated OmpR-class promoter element coordinates light harvesting protein and chromophore biosynthetic enzyme gene expression. Molecular Microbiology, 64: 319-332.
  • Li, L., Alvey, R. M., Bezy, R. P., and D. M. Kehoe.  2008. Inverse transcriptional activities during complementary chromatic adaptation are controlled by binding of the response regulator RcaC to red and green light responsive promoters. Molecular Microbiology, 68: 286-297.
  • Li, L. and D. M. Kehoe.  2008. Abundance changes of the response regulator RcaC require specific aspartate and histidine residues and are necessary for normal light color responsiveness. Journal of Bacteriology, 190: 7241-7250.

 


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