Inferring regulatory mechanisms from patterns of evolutionary divergence

Itay Tirosh; Naama Barkai

doi:10.1038/msb.2011.60

Inferring regulatory mechanisms from patterns of evolutionary divergence

Itay Tirosh, Naama Barkai

Department of Molecular Genetics

Weizmann Institute of Science

Research output: Contribution to journal › Article › peer-review

Abstract

The number of sequenced species is increasing at a staggering rate, calling for new approaches for incorporating evolutionary information in the study of biological mechanisms. Evolutionary conservation is widely used for assigning a function to new proteins and for predicting functional coding or non-coding sequences. Here, we argue for a complementary approach that focuses on the divergence of regulatory programs. Regulatory mechanisms can be learned from patterns of evolutionary divergence in regulatory properties such as gene expression, transcription factor binding or nucleosome positioning. We review examples of this concept using yeast as a model system, and highlight a hybrid-based approach that is highly instrumental in this analysis. Molecular Systems Biology 7: 530; published online 13 September 2011; doi:10.1038/msb.2011.60

Original language	English
Article number	530
Number of pages	10
Journal	Molecular Systems Biology
Volume	7
DOIs	https://doi.org/10.1038/msb.2011.60
State	Published - Sep 2011

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title = "Inferring regulatory mechanisms from patterns of evolutionary divergence",

abstract = "The number of sequenced species is increasing at a staggering rate, calling for new approaches for incorporating evolutionary information in the study of biological mechanisms. Evolutionary conservation is widely used for assigning a function to new proteins and for predicting functional coding or non-coding sequences. Here, we argue for a complementary approach that focuses on the divergence of regulatory programs. Regulatory mechanisms can be learned from patterns of evolutionary divergence in regulatory properties such as gene expression, transcription factor binding or nucleosome positioning. We review examples of this concept using yeast as a model system, and highlight a hybrid-based approach that is highly instrumental in this analysis. Molecular Systems Biology 7: 530; published online 13 September 2011; doi:10.1038/msb.2011.60",

author = "Itay Tirosh and Naama Barkai",

note = "NIH [P50GM068763]; Binational Science Foundation; European Research Council (Ideas); Clore center at the Weizmann Institute of ScienceWe thank members of the Barkai laboratory for helpful discussions. This work was supported by the NIH (P50GM068763), the Binational Science Foundation and the European Research Council (Ideas) (to NB). IT is supported by the Clore center at the Weizmann Institute of Science.",

year = "2011",

month = sep,

doi = "10.1038/msb.2011.60",

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AU - Barkai, Naama

N1 - NIH [P50GM068763]; Binational Science Foundation; European Research Council (Ideas); Clore center at the Weizmann Institute of ScienceWe thank members of the Barkai laboratory for helpful discussions. This work was supported by the NIH (P50GM068763), the Binational Science Foundation and the European Research Council (Ideas) (to NB). IT is supported by the Clore center at the Weizmann Institute of Science.

PY - 2011/9

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N2 - The number of sequenced species is increasing at a staggering rate, calling for new approaches for incorporating evolutionary information in the study of biological mechanisms. Evolutionary conservation is widely used for assigning a function to new proteins and for predicting functional coding or non-coding sequences. Here, we argue for a complementary approach that focuses on the divergence of regulatory programs. Regulatory mechanisms can be learned from patterns of evolutionary divergence in regulatory properties such as gene expression, transcription factor binding or nucleosome positioning. We review examples of this concept using yeast as a model system, and highlight a hybrid-based approach that is highly instrumental in this analysis. Molecular Systems Biology 7: 530; published online 13 September 2011; doi:10.1038/msb.2011.60

AB - The number of sequenced species is increasing at a staggering rate, calling for new approaches for incorporating evolutionary information in the study of biological mechanisms. Evolutionary conservation is widely used for assigning a function to new proteins and for predicting functional coding or non-coding sequences. Here, we argue for a complementary approach that focuses on the divergence of regulatory programs. Regulatory mechanisms can be learned from patterns of evolutionary divergence in regulatory properties such as gene expression, transcription factor binding or nucleosome positioning. We review examples of this concept using yeast as a model system, and highlight a hybrid-based approach that is highly instrumental in this analysis. Molecular Systems Biology 7: 530; published online 13 September 2011; doi:10.1038/msb.2011.60

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DO - 10.1038/msb.2011.60

M3 - مقالة

SN - 1744-4292

VL - 7

JO - Molecular Systems Biology

JF - Molecular Systems Biology

M1 - 530

ER -

Inferring regulatory mechanisms from patterns of evolutionary divergence

Abstract

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