Chan:Han Tan: Difference between revisions
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Han is interested in chromosome shattering during genomic catastrophes and is | Currently, Han is interested in chromosome shattering during genomic catastrophes and is investigating complex chromosomal rearrangements caused by chromosome segregation errors. He is also developing tools to engineer minichromosome platforms. | ||
2005-2011 Washington University in St Louis, Ph.D. | (2005-2011) Washington University in St Louis, Ph.D., Molecular Genetics & Genomics | ||
Graduate work was focused on | Graduate work was focused on variant non-catalytic RNA polymerase subunits and their surprising role for the functional specification of RNA silencing RNA Polymerases IV and V in the small RNA directed DNA methylation pathway, as well as the role of DNA demethylation in multi-megabase epigenetic silencing in the laboratory of Craig Pikaard. | ||
2001-2005 Duke University, B.S., Biology & Visual Arts Double Major, Chemistry Minor | (2001-2005) Duke University, B.S., Biology & Visual Arts Double Major, Chemistry Minor | ||
Undergraduate research | Undergraduate research project included map-based cloning and characterization of mutants from a forward genetics screen for genes regulating Innate Immunity in the laboratory of Xinnian Dong. | ||
Email Han: ekhtan@ucdavis.edu | |||
'''List of publications:''' | '''List of publications:''' | ||
Tan, E.H., Ream, T.S., Blevins, T. and Pikaard, C.S. (2012) Functional consequences of subunit diversity in RNA Polymerase II and V. Cell Reports | Tan, E.H., Ream, T.S., Blevins, T. and Pikaard, C.S. (2012) Functional consequences of subunit diversity in RNA Polymerase II and V. Cell Reports 1, 208–214, March 29, 2012. | ||
Mosher, A. R., Tan, E.H., Shin, J., Fischer, R.L., Pikaard, C.S., Baulcombe, D.C. (2011) An atypical epigenetic mechanism affects uniparental expression of Pol IV-dependent siRNAs. PloS ONE 6(10): e25756. | Mosher, A. R., Tan, E.H., Shin, J., Fischer, R.L., Pikaard, C.S., Baulcombe, D.C. (2011) An atypical epigenetic mechanism affects uniparental expression of Pol IV-dependent siRNAs. PloS ONE 6(10): e25756. | ||
Song, J., Durrant, W.E., Wang, S., Yan, S., Tan, E.H., Dong, X. (2011) DNA repair proteins are directly involved in regulation of gene expression during plant Immune Response. Cell Host & Microbe, 9(2): 115-124. | Song, J., Durrant, W.E., Wang, S., Yan, S., Tan, E.H., Dong, X. (2011) DNA repair proteins are directly involved in regulation of gene expression during plant Immune Response. Cell Host & Microbe, 9(2): 115-124. |
Latest revision as of 13:03, 25 April 2012
Chan Lab
Department of Plant Biology at UC Davis
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Graduate work was focused on variant non-catalytic RNA polymerase subunits and their surprising role for the functional specification of RNA silencing RNA Polymerases IV and V in the small RNA directed DNA methylation pathway, as well as the role of DNA demethylation in multi-megabase epigenetic silencing in the laboratory of Craig Pikaard.
Undergraduate research project included map-based cloning and characterization of mutants from a forward genetics screen for genes regulating Innate Immunity in the laboratory of Xinnian Dong.
Tan, E.H., Ream, T.S., Blevins, T. and Pikaard, C.S. (2012) Functional consequences of subunit diversity in RNA Polymerase II and V. Cell Reports 1, 208–214, March 29, 2012. Mosher, A. R., Tan, E.H., Shin, J., Fischer, R.L., Pikaard, C.S., Baulcombe, D.C. (2011) An atypical epigenetic mechanism affects uniparental expression of Pol IV-dependent siRNAs. PloS ONE 6(10): e25756. Song, J., Durrant, W.E., Wang, S., Yan, S., Tan, E.H., Dong, X. (2011) DNA repair proteins are directly involved in regulation of gene expression during plant Immune Response. Cell Host & Microbe, 9(2): 115-124. |