DNA-binding specificities of human transcription factors

Arttu Jolma; Jian Yan; Thomas Whitington; Jarkko Toivonen; Kazuhiro R. Nitta; Pasi Rastas; Ekaterina Morgunova; Martin Enge; Mikko Taipale; Gonghong Wei; Kimmo Palin; Juan M. Vaquerizas; Renaud Vincentelli; Nicholas M. Luscombe; Timothy R. Hughes; Patrick Lemaire; Esko Ukkonen; Teemu Kivioja; Jussi Taipale

doi:10.1016/j.cell.2012.12.009

DNA-binding specificities of human transcription factors

Arttu Jolma, Jian Yan, Thomas Whitington, Jarkko Toivonen, Kazuhiro R. Nitta, Pasi Rastas, Ekaterina Morgunova, Martin Enge, Mikko Taipale, Gonghong Wei, Kimmo Palin, Juan M. Vaquerizas, Renaud Vincentelli, Nicholas M. Luscombe, Timothy R. Hughes, Patrick Lemaire, Esko Ukkonen, Teemu Kivioja, Jussi Taipale^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

981 Citations (Scopus)

Abstract

Although the proteins that read the gene regulatory code, transcription factors (TFs), have been largely identified, it is not well known which sequences TFs can recognize. We have analyzed the sequence-specific binding of human TFs using high-throughput SELEX and ChIP sequencing. A total of 830 binding profiles were obtained, describing 239 distinctly different binding specificities. The models represent the majority of human TFs, approximately doubling the coverage compared to existing systematic studies. Our results reveal additional specificity determinants for a large number of factors for which a partial specificity was known, including a commonly observed A- or T-rich stretch that flanks the core motifs. Global analysis of the data revealed that homodimer orientation and spacing preferences, and base-stacking interactions, have a larger role in TF-DNA binding than previously appreciated. We further describe a binding model incorporating these features that is required to understand binding of TFs to DNA.

Original language	English
Pages (from-to)	327-339
Journal	Cell
Volume	152
Issue number	1-2
Online published	17 Jan 2013
DOIs	https://doi.org/10.1016/j.cell.2012.12.009
Publication status	Published - 17 Jan 2013
Externally published	Yes

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Jolma, A., Yan, J., Whitington, T., Toivonen, J., Nitta, K. R., Rastas, P., Morgunova, E., Enge, M., Taipale, M., Wei, G., Palin, K., Vaquerizas, J. M., Vincentelli, R., Luscombe, N. M., Hughes, T. R., Lemaire, P., Ukkonen, E., Kivioja, T., & Taipale, J. (2013). DNA-binding specificities of human transcription factors. Cell, 152(1-2), 327-339. https://doi.org/10.1016/j.cell.2012.12.009

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title = "DNA-binding specificities of human transcription factors",

abstract = "Although the proteins that read the gene regulatory code, transcription factors (TFs), have been largely identified, it is not well known which sequences TFs can recognize. We have analyzed the sequence-specific binding of human TFs using high-throughput SELEX and ChIP sequencing. A total of 830 binding profiles were obtained, describing 239 distinctly different binding specificities. The models represent the majority of human TFs, approximately doubling the coverage compared to existing systematic studies. Our results reveal additional specificity determinants for a large number of factors for which a partial specificity was known, including a commonly observed A- or T-rich stretch that flanks the core motifs. Global analysis of the data revealed that homodimer orientation and spacing preferences, and base-stacking interactions, have a larger role in TF-DNA binding than previously appreciated. We further describe a binding model incorporating these features that is required to understand binding of TFs to DNA. ",

author = "Arttu Jolma and Jian Yan and Thomas Whitington and Jarkko Toivonen and Nitta, {Kazuhiro R.} and Pasi Rastas and Ekaterina Morgunova and Martin Enge and Mikko Taipale and Gonghong Wei and Kimmo Palin and Vaquerizas, {Juan M.} and Renaud Vincentelli and Luscombe, {Nicholas M.} and Hughes, {Timothy R.} and Patrick Lemaire and Esko Ukkonen and Teemu Kivioja and Jussi Taipale",

year = "2013",

month = jan,

day = "17",

doi = "10.1016/j.cell.2012.12.009",

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Jolma, A, Yan, J, Whitington, T, Toivonen, J, Nitta, KR, Rastas, P, Morgunova, E, Enge, M, Taipale, M, Wei, G, Palin, K, Vaquerizas, JM, Vincentelli, R, Luscombe, NM, Hughes, TR, Lemaire, P, Ukkonen, E, Kivioja, T & Taipale, J 2013, 'DNA-binding specificities of human transcription factors', Cell, vol. 152, no. 1-2, pp. 327-339. https://doi.org/10.1016/j.cell.2012.12.009

TY - JOUR

T1 - DNA-binding specificities of human transcription factors

AU - Jolma, Arttu

AU - Yan, Jian

AU - Whitington, Thomas

AU - Toivonen, Jarkko

AU - Nitta, Kazuhiro R.

AU - Rastas, Pasi

AU - Morgunova, Ekaterina

AU - Enge, Martin

AU - Taipale, Mikko

AU - Wei, Gonghong

AU - Palin, Kimmo

AU - Vaquerizas, Juan M.

AU - Vincentelli, Renaud

AU - Luscombe, Nicholas M.

AU - Hughes, Timothy R.

AU - Lemaire, Patrick

AU - Ukkonen, Esko

AU - Kivioja, Teemu

AU - Taipale, Jussi

PY - 2013/1/17

Y1 - 2013/1/17

N2 - Although the proteins that read the gene regulatory code, transcription factors (TFs), have been largely identified, it is not well known which sequences TFs can recognize. We have analyzed the sequence-specific binding of human TFs using high-throughput SELEX and ChIP sequencing. A total of 830 binding profiles were obtained, describing 239 distinctly different binding specificities. The models represent the majority of human TFs, approximately doubling the coverage compared to existing systematic studies. Our results reveal additional specificity determinants for a large number of factors for which a partial specificity was known, including a commonly observed A- or T-rich stretch that flanks the core motifs. Global analysis of the data revealed that homodimer orientation and spacing preferences, and base-stacking interactions, have a larger role in TF-DNA binding than previously appreciated. We further describe a binding model incorporating these features that is required to understand binding of TFs to DNA.

AB - Although the proteins that read the gene regulatory code, transcription factors (TFs), have been largely identified, it is not well known which sequences TFs can recognize. We have analyzed the sequence-specific binding of human TFs using high-throughput SELEX and ChIP sequencing. A total of 830 binding profiles were obtained, describing 239 distinctly different binding specificities. The models represent the majority of human TFs, approximately doubling the coverage compared to existing systematic studies. Our results reveal additional specificity determinants for a large number of factors for which a partial specificity was known, including a commonly observed A- or T-rich stretch that flanks the core motifs. Global analysis of the data revealed that homodimer orientation and spacing preferences, and base-stacking interactions, have a larger role in TF-DNA binding than previously appreciated. We further describe a binding model incorporating these features that is required to understand binding of TFs to DNA.

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U2 - 10.1016/j.cell.2012.12.009

DO - 10.1016/j.cell.2012.12.009

M3 - RGC 21 - Publication in refereed journal

C2 - 23332764

SN - 0092-8674

VL - 152

SP - 327

EP - 339

JO - Cell

JF - Cell

IS - 1-2

ER -

DNA-binding specificities of human transcription factors

Abstract

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