Fred Dietrich, PhD
Affiliations: | Molecular Genetics and Microbiology | Duke University, Durham, NC |
Area:
Yeast GeneticsGoogle:
"Fred Dietrich"Children
Sign in to add trainee| Zhihong Zhang | grad student | 2005 | Duke |
| Philippe P. Ludi | grad student | 2006 | Duke |
| Jennifer R. Weidman | grad student | 2006 | Duke |
| Jason E. Stajich | grad student | 2001-2006 | Duke |
| Charles R. Hall | grad student | 2007 | Duke |
| Michael A. Slifer | grad student | 2007 | Duke |
| Laura A. Kavanaugh | grad student | 2008 | Duke |
| Stephanie Diezmann | grad student | 2009 | Duke |
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Publications
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| Ianiri G, Coelho MA, Ruchti F, et al. (2020) HGT in the human and skin commensal : A bacterially derived flavohemoglobin is required for NO resistance and host interaction. Proceedings of the National Academy of Sciences of the United States of America |
| Armaleo D, Müller O, Lutzoni F, et al. (2019) The lichen symbiosis re-viewed through the genomes of Cladonia grayi and its algal partner Asterochloris glomerata. Bmc Genomics. 20: 605 |
| Strope PK, Skelly DA, Kozmin SG, et al. (2015) The 100-genomes strains, an S. cerevisiae resource that illuminates its natural phenotypic and genotypic variation and emergence as an opportunistic pathogen. Genome Research. 25: 762-74 |
| Zhao Y, Strope PK, Kozmin SG, et al. (2014) Structures of naturally evolved CUP1 tandem arrays in yeast indicate that these arrays are generated by unequal nonhomologous recombination. G3 (Bethesda, Md.). 4: 2259-69 |
| Janbon G, Ormerod KL, Paulet D, et al. (2014) Analysis of the genome and transcriptome of Cryptococcus neoformans var. grubii reveals complex RNA expression and microevolution leading to virulence attenuation. Plos Genetics. 10: e1004261 |
| Engel SR, Dietrich FS, Fisk DG, et al. (2014) The reference genome sequence of Saccharomyces cerevisiae: then and now. G3 (Bethesda, Md.). 4: 389-98 |
| Froyd CA, Kapoor S, Dietrich F, et al. (2013) The deacetylase Sir2 from the yeast Clavispora lusitaniae lacks the evolutionarily conserved capacity to generate subtelomeric heterochromatin. Plos Genetics. 9: e1003935 |
| Martin MD, Cappellini E, Samaniego JA, et al. (2013) Reconstructing genome evolution in historic samples of the Irish potato famine pathogen. Nature Communications. 4: 2172 |
| Dietrich FS, Voegeli S, Kuo S, et al. (2013) Genomes of Ashbya fungi isolated from insects reveal four mating-type loci, numerous translocations, lack of transposons, and distinct gene duplications. G3 (Bethesda, Md.). 3: 1225-39 |
| McDonald TR, Mueller O, Dietrich FS, et al. (2013) High-throughput genome sequencing of lichenizing fungi to assess gene loss in the ammonium transporter/ammonia permease gene family. Bmc Genomics. 14: 225 |