A. Bruce Cahoon

Department of Natural Sciences

 

Publications

Bhawana*, Jeannie Stubblefield*, Anthony Newsome, A. Bruce Cahoon (in press)  Surface decontamination of plant tissue explants with chlorine dioxide gas. In Vitro Cellular and Developmental Biology - Plant

 Bhawana*, Joyce L. Miller, and A. Bruce Cahoon (2014) Visualization of 3-Dimensional Plant Cell Architecture in Different Tissues of Arabidopsis thaliana with Focused Ion Beam-Scanning Electron Microscopy.  Applications in Plant Science 2:6

 Benjamin T. Grimes*, Awa K. Sisay*, Hyrum D. Carroll, A. Bruce Cahoon (2014) Deep Sequencing of the Tobacco Mitochondrial Transcriptome Reveals Expressed ORFs and Numerous Editing Sites Outside Coding Regions.  BMC Genomics 15:31

 Jacob B. Hall*, Vincent A. Cobb, A.Bruce Cahoon. (2013) The complete mitochondrial DNA sequence of Crotalus horridus (timber rattlesnake).  Mitochondrial DNA.  24:94-96

 Sheri Mersch* and A. Bruce Cahoon (2012) Ky31 tall fescue can outcompete MaxQ through more efficient utilization of a hydrophilic compound produced by the endophyte Neotyphodium coenophialum. Grass and Forage Science.  67:299-304

 Abby M. Drumwright*, Brian W. Allen, Krista A. Huff*, Patricia A. Ritchey*, A. Bruce Cahoon.  (2011).  Survey and DNA Barcoding of Poaecea in Flat Rock Cedar Glades and Barrens State Natural Area, Murfreesboro, TN.  Castanea 76:300-310

 R.M. Sharpe*, A. Mahajan*, E. Takacs, D. B. Stern, A. B. Cahoon (2011) Developmental and cell type characterization of bundle sheath and mesophyll chloroplast-encoded transcript abundance in maize.  Current Genetics 57:89-102

 A. Bruce Cahoon, R. M. Sharpe*, C. Mysayphonh*, E. J. Thompson*, A. D. Ward*, Anhua Lin (2010)  The Complete Chloroplast Genome of Tall Fescue (Lolium arundinaceum, “Poaceae”) and the Comparison of Whole Plastomes from the Family Poaceae.  American Journal of Botany 97: 49-58

 Sharpe RM*, Dunn SN*, Cahoon AB (2008) A Plastome Primer Set for Comprehensive Quantitative Real Time RT-PCR Analysis of Zea mays: A Starter Primer Set for Other Poaceae Species.  Plant Methods 4:14

 A. B. Cahoon, E. M. Takacs, R.M. Sharpe*, D. B. Stern. (2008)  Nuclear, Chloroplast, and Mitochondrial Transcript Abundance Along a Maize Leaf Developmental Gradient.  Plant Molecular Biology 66:33-46

 A. B. Cahoon, Y. Komine, D.B. Stern. (2006)  Plastid Transcription:  Competition, Regulation and Promotion by Plastid- and Nuclear Encoded Polymerases.  In The Structure and Function of Plastids.  R. R. Wise, J. K, Hoober (Eds.) Advances in Photosynthesis and Respiration.  Volume 23: pp 167-181

 A. B. Cahoon, F.M. Harris & D. B. Stern.  (2004) Analysis of developing maize plastids reveals two mRNA stability classes correlating with RNA polymerase type.  EMBO Reports  5:801-806

 A.B. Cahoon, K.A. Cunningham, T.J. Bollenbach, D.B. Stern. (2003)   Maize BMS cultured cell lines survive with massive plastid gene loss. Current Genetics 44:104-113

 A.B. Cahoon, K.A. Cunningham, D.B. Stern. (2003)  The plastid clpP gene may not be essential for plant cell viability.  Plant and Cell Physiology 44: 93-95

*This paper was one of the top 10 downloaded articles from this journal in February 2003.

 A.B. Cahoon and M.P. Timko (2003) Biochemistry and Regulation of Chlorophyll Biosynthesis. , In Photosynthesis in Algae.  A.W. Larkum, S. Douglas, J.A. Raven (Eds.)  Kluwer Academic Publishers, Netherlands.

 A.B. Cahoon and D.B. Stern (2001) Plastid transcription: a menage á trois? Trends in Plant Science. 6:45-46.

 A.B. Cahoon and M.P. Timko (2000) The phenotype of “yellow-in-the-dark” mutants of Chlamydomonas Results from the Loss of Expression of CHLL.  Plant Cell  12:559-568.

 A.B. Cahoon and M. P. Timko (1999).  Effects of nuclear y mutations on expression of plastid genes required for light-independent chlorophyll formation in Chlamydomonas.  pp195-200. in The Chloroplast:  From Molecular Biology to Biotechnology.  J.H. Argyroudi-Akoyunoglou and H. Senger (Eds.)  Kluwer Academic Publishers.  Dordrecht/Boston/London.

 M. P. Timko and A. B. Cahoon (1999).  Transgenic Plants for the Production of Human Therapeutics.  pp. 155-179. in  Applied Plant Biotechnology.  V.L. Chopra, V.S. Malik and S.R. Bhat (Eds.)  Science Publishers, Inc. New Hampshire, U.S.A.  (International edition).

Fang-Sheng Wu and A. Bruce Cahoon. (1995) Plasmolysis facilitates the accumulation of protein and DNA into extra-plasmalemma spaces of intact plant cells. Plant Science 104 : 201-214.