Finding human promoter groups based on DNA physical properties

Jia Zeng; Xiao-Qin Cao; Hongya Zhao; Hong Yan

doi:10.1103/PhysRevE.80.041917

Finding human promoter groups based on DNA physical properties

Jia Zeng
, Xiao-Qin Cao
, Hongya Zhao
, Hong Yan

Research output: Journal Publications and Reviews › RGC 22 - Publication in policy or professional journal

8 Citations (Scopus)

45 Downloads (CityUHK Scholars)

Abstract

DNA rigidity is an important physical property originating from the DNA three-dimensional structure. Although the general DNA rigidity patterns in human promoters have been investigated, their distinct roles in transcription are largely unknown. In this paper, we discover four highly distinct human promoter groups based on similarity of their rigidity profiles. First, we find that all promoter groups conserve relatively rigid DNAs at the canonical TATA box [a consensus TATA (A/T) A (A/T) sequence] position, which are important physical signals in binding transcription factors. Second, we find that the genes activated by each group of promoters share significant biological functions based on their gene ontology annotations. Finally, we find that these human promoter groups correlate with the tissue-specific gene expression. © 2009 The American Physical Society.

Original language	English
Article number	41917
Journal	Physical Review E - Statistical, Nonlinear, and Soft Matter Physics
Volume	80
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevE.80.041917
Publication status	Published - 14 Oct 2009

Publisher's Copyright Statement

COPYRIGHT TERMS OF DEPOSITED FINAL PUBLISHED VERSION FILE: Zeng, J., Cao, X-Q., Zhao, H., & Yan, H. (2009). Finding human promoter groups based on DNA physical properties. Physical Review E - Statistical, Nonlinear, and Soft Matter Physics, 80(4), [41917]. https://doi.org/10.1103/PhysRevE.80.041917. The copyright of this article is owned by American Physical Society.

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title = "Finding human promoter groups based on DNA physical properties",

abstract = "DNA rigidity is an important physical property originating from the DNA three-dimensional structure. Although the general DNA rigidity patterns in human promoters have been investigated, their distinct roles in transcription are largely unknown. In this paper, we discover four highly distinct human promoter groups based on similarity of their rigidity profiles. First, we find that all promoter groups conserve relatively rigid DNAs at the canonical TATA box [a consensus TATA (A/T) A (A/T) sequence] position, which are important physical signals in binding transcription factors. Second, we find that the genes activated by each group of promoters share significant biological functions based on their gene ontology annotations. Finally, we find that these human promoter groups correlate with the tissue-specific gene expression. {\textcopyright} 2009 The American Physical Society.",

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AU - Zeng, Jia

AU - Cao, Xiao-Qin

AU - Zhao, Hongya

AU - Yan, Hong

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N2 - DNA rigidity is an important physical property originating from the DNA three-dimensional structure. Although the general DNA rigidity patterns in human promoters have been investigated, their distinct roles in transcription are largely unknown. In this paper, we discover four highly distinct human promoter groups based on similarity of their rigidity profiles. First, we find that all promoter groups conserve relatively rigid DNAs at the canonical TATA box [a consensus TATA (A/T) A (A/T) sequence] position, which are important physical signals in binding transcription factors. Second, we find that the genes activated by each group of promoters share significant biological functions based on their gene ontology annotations. Finally, we find that these human promoter groups correlate with the tissue-specific gene expression. © 2009 The American Physical Society.

AB - DNA rigidity is an important physical property originating from the DNA three-dimensional structure. Although the general DNA rigidity patterns in human promoters have been investigated, their distinct roles in transcription are largely unknown. In this paper, we discover four highly distinct human promoter groups based on similarity of their rigidity profiles. First, we find that all promoter groups conserve relatively rigid DNAs at the canonical TATA box [a consensus TATA (A/T) A (A/T) sequence] position, which are important physical signals in binding transcription factors. Second, we find that the genes activated by each group of promoters share significant biological functions based on their gene ontology annotations. Finally, we find that these human promoter groups correlate with the tissue-specific gene expression. © 2009 The American Physical Society.

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U2 - 10.1103/PhysRevE.80.041917

DO - 10.1103/PhysRevE.80.041917

M3 - RGC 22 - Publication in policy or professional journal

SN - 1063-651X

VL - 80

JO - Physical Review E - Statistical, Nonlinear, and Soft Matter Physics

JF - Physical Review E - Statistical, Nonlinear, and Soft Matter Physics

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ER -

Finding human promoter groups based on DNA physical properties

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