Faculty and Research
Faculty by Name
Kathleen Collins
|
Kathleen Collins
Professor of Biochemistry and Molecular Biology*
*And Affiliate, Division of Cell and Developmental Biology
Research Interests
-
The laboratory studies ribonucleoproteins including the eukaryotic reverse transcriptase telomerase. Telomerase adds simple-sequence repeats to chromosome ends by copying a template within its RNA subunit. This telomeric repeat synthesis balances the loss of repeats that occurs with each cycle of genome replication. Cells that do not activate enough telomerase, including most human cells, lose telomeric repeats with every cell division. When telomeric repeat number reaches a critical minimum, short telomeres signal for cell senescence or death. Cancer cells escape this proliferation barrier by activating telomerase. We study telomerase both in vitro, to understand the structural and biochemical principles of this RNA-protein enzyme, and in vivo, to define the complex cellular regulation of telomerase-telomere interaction. We are also investigating the principles of RNA and protein coordination in biological pathways of RNA silencing. Questions of particular interest include how an RNA-dependent RNA polymerase selects specific transcripts as aberrant, in order to target the corresponding loci for silencing, and how RNA silencing effector RNPs are specialized and coordinated in function.
Current Projects
-
Novel types of protein-nucleic acid interaction establish unique features of the telomerase catalytic cycle. For example, telomerase must define a precise region of its RNA subunit as the template for reverse transcription. Also, telomerase must recognize authentic chromosome ends as substrates while ignoring random breaks. Both of these specificities are partially recapitulated with recombinant enzyme and are likely to be enhanced by yet uncharacterized other factors. We employ many techniques to study protein, RNA and DNA interactions and to identify new telomerase regulatory proteins using the ciliate Tetrahymena and human cells as major model systems. Because the principles governing co-folding of protein and RNA in vivo remain largely unknown, we are investigating cellular pathways of RNP biogenesis.
RNA-dependent RNA polymerases copy RNA templates to produce yet more RNA, contrary to the central dogma. Although viral RdRPs have clear roles in viral genome replication, the biological significance of eukaryotic RdRP enzymes is just beginning to be investigated. With Tetrahymena as a highly favorable model system, we are using biochemical and genetic methods to dissect how an essential eukaryotic RdRP accomplishes its specificity of aberrant transcript recognition. We are also interested in understanding how different RNA transcripts are recognized as substrates for RNA silencing machinery, how these transcripts are assembled into distinct silencing effector RNP complexes for alternative functional outcomes.
Selected Publications
-
Lee, S.R., Talsky, K.B. and Collins, K. A single RNA-dependent RNA polymerase assembles with mutually exclusive nucleotidyl transferase subunits to direct different pathways of small RNA biogenesis. RNA 15: 1363-74 (2009).
Errington T.M., Fu D., Wong J.M.Y. and Collins, K. Disease-associated human telomerase RNA variants show loss of function for telomere synthesis without dominant-negative interference. Mol. Cell. Biol. 28: 6510-20 (2008).
Collins, K. Physiological assembly and activity of human telomerase complexes. Mech. Ageing Dev. 129: 91-8 (2008).
Hogg, J.R. and Collins, K. Structured non-coding RNAs and the RNP renaissance. Curr. Op. Chem. Biol. 12: 684-9 (2008).
Hogg, J.R. and Collins, K. Human Y5 RNA specializes a Ro ribonucleoprotein for 5S ribosomal RNA quality control. Genes Dev. 21: 3067-72 (2007).
Hogg, J.R. and Collins, K. RNA-based affinity purification reveals 7SK RNPs with distinct composition and regulation. RNA 13: 868-80 (2007).
Fu, D. and Collins, K. Purification of endogenous human telomerase complexes identifies factors involved in telomerase biogenesis and telomere length regulation. Mol. Cell 28: 773-85 (2007).
Lee, S.R. and Collins, K. Physical and functional coupling of RNA-dependent RNA polymerase and Dicer in the biogenesis of endogenous siRNAs. Nat. Struct. Mol. Biol. 14: 604-10 (2007).
Stone, M.S., Mihalusova, M., O'Connor, C.M., Prathapam, R., Collins, K. and Zhuang, X. Stepwise protein-mediated RNA folding directs assembly of telomerase ribonucleoprotein. Nature 446: 458-61 (2007).
Witkin, K.L., Prathapam, R., and Collins, K. Positive and negative regulation of Tetrahymena telomerase holoenzyme. Mol. Cell. Biol. 27: 2074-83 (2007).
Last Updated 2009-06-23