Domains involved in TAF15 subcellular localisation: Dependence on cell type and ongoing transcription

Marko M, Vlassis A, Guialis A, Leichter M (2012)
Gene 506(2): 331-338.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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DOI
Autor*in
Marko, Marija; Vlassis, Arsenios; Guialis, Apostolia; Leichter, MichaelUniBi
Einrichtung
Fakultät für Biologie > RNA Biologie und Molekulare Physiologie
Erscheinungsjahr
2012
Zeitschriftentitel
Gene
Band
506
Ausgabe
2
Seite(n)
331-338
ISSN
0378-1119
Page URI
https://pub.uni-bielefeld.de/record/2584255

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Marko M, Vlassis A, Guialis A, Leichter M. Domains involved in TAF15 subcellular localisation: Dependence on cell type and ongoing transcription. Gene. 2012;506(2):331-338.
Marko, M., Vlassis, A., Guialis, A., & Leichter, M. (2012). Domains involved in TAF15 subcellular localisation: Dependence on cell type and ongoing transcription. Gene, 506(2), 331-338. doi:10.1016/j.gene.2012.06.088
Marko, Marija, Vlassis, Arsenios, Guialis, Apostolia, and Leichter, Michael. 2012. “Domains involved in TAF15 subcellular localisation: Dependence on cell type and ongoing transcription”. Gene 506 (2): 331-338.
Marko, M., Vlassis, A., Guialis, A., and Leichter, M. (2012). Domains involved in TAF15 subcellular localisation: Dependence on cell type and ongoing transcription. Gene 506, 331-338.
Marko, M., et al., 2012. Domains involved in TAF15 subcellular localisation: Dependence on cell type and ongoing transcription. Gene, 506(2), p 331-338.
M. Marko, et al., “Domains involved in TAF15 subcellular localisation: Dependence on cell type and ongoing transcription”, Gene, vol. 506, 2012, pp. 331-338.
Marko, M., Vlassis, A., Guialis, A., Leichter, M.: Domains involved in TAF15 subcellular localisation: Dependence on cell type and ongoing transcription. Gene. 506, 331-338 (2012).
Marko, Marija, Vlassis, Arsenios, Guialis, Apostolia, and Leichter, Michael. “Domains involved in TAF15 subcellular localisation: Dependence on cell type and ongoing transcription”. Gene 506.2 (2012): 331-338.

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Ravanidis S, Kattan FG, Doxakis E., Int J Mol Sci 19(8), 2018
PMID: 30081499
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Zhao M, Kim JR, van Bruggen R, Park J., Mol Cells 41(9), 2018
PMID: 30157547
Nuclear trafficking in amyotrophic lateral sclerosis and frontotemporal lobar degeneration.
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PMID: 28389532
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Role of FET proteins in neurodegenerative disorders.
Svetoni F, Frisone P, Paronetto MP., RNA Biol 13(11), 2016
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Izhar L, Adamson B, Ciccia A, Lewis J, Pontano-Vaites L, Leng Y, Liang AC, Westbrook TF, Harper JW, Elledge SJ., Cell Rep 11(9), 2015
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Sephton CF, Yu G., Cell Mol Life Sci 72(19), 2015
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