Reading between the genes: Computational models to discover function from noncoding DNA

Yves A. Lussier; Joanne Berghout; Francesca Vitali; Kenneth S. Ramos; Maricel Kann; Jason H. Moore

doi:10.1142/9789813235533_0046

Reading between the genes: Computational models to discover function from noncoding DNA

Yves A. Lussier, Joanne Berghout, Francesca Vitali, Kenneth S. Ramos, Maricel Kann, Jason H. Moore

Research output: Contribution to journal › Conference article › peer-review

Abstract

Noncoding DNA-once called “junk” has revealed itself to be full of function. Technology development has allowed researchers to gather genome-scale data pointing towards complex regulatory regions, expression and function of noncoding RNA genes, and conserved elements. Variation in these regions has been tied to variation in biological function and human disease. This PSB session tackles the problem of handling, analyzing and interpreting the data relating to variation in and interactions between noncoding regions through computational biology. We feature an invited speaker to how variation in transcription factor coding sequences impacts on sequence preference, along with submitted papers that span graph based methods, integrative analyses, machine learning, and dimension reduction to explore questions of basic biology, cancer, diabetes, and clinical relevance.

Original language	English (US)
Pages (from-to)	507-511
Number of pages	5
Journal	Pacific Symposium on Biocomputing
Volume	0
Issue number	212669
DOIs	https://doi.org/10.1142/9789813235533_0046
State	Published - 2018
Event	23rd Pacific Symposium on Biocomputing, PSB 2018 - Kohala Coast, United States Duration: Jan 3 2018 → Jan 7 2018

Keywords

Intergenic
LINE1
LINEs
LncRNA
MiRNA
MicroRNA
Non-coding DNA
PiRNA
Repetitive elements
SncRNA

ASJC Scopus subject areas

Biomedical Engineering
Computational Theory and Mathematics

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10.1142/9789813235533_0046

Cite this

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title = "Reading between the genes: Computational models to discover function from noncoding DNA",

abstract = "Noncoding DNA-once called “junk” has revealed itself to be full of function. Technology development has allowed researchers to gather genome-scale data pointing towards complex regulatory regions, expression and function of noncoding RNA genes, and conserved elements. Variation in these regions has been tied to variation in biological function and human disease. This PSB session tackles the problem of handling, analyzing and interpreting the data relating to variation in and interactions between noncoding regions through computational biology. We feature an invited speaker to how variation in transcription factor coding sequences impacts on sequence preference, along with submitted papers that span graph based methods, integrative analyses, machine learning, and dimension reduction to explore questions of basic biology, cancer, diabetes, and clinical relevance.",

keywords = "Intergenic, LINE1, LINEs, LncRNA, MiRNA, MicroRNA, Non-coding DNA, PiRNA, Repetitive elements, SncRNA",

author = "Lussier, {Yves A.} and Joanne Berghout and Francesca Vitali and Ramos, {Kenneth S.} and Maricel Kann and Moore, {Jason H.}",

note = "Funding Information: †Work partially supported by This work was supported in part by The University of Arizona Health Sciences CB2, the BIO5 Institute, NIH (U01AI122275, HL132532, CA023074, 1UG3OD023171, 1R01AG053589-01A1, 1S10RR029030) {\textcopyright} 2017 The Authors. Open Access chapter published by World Scientific Publishing Company and distributed under the terms of the Creative Commons Attribution Non-Commercial (CC BY-NC) 4.0 License. Publisher Copyright: {\textcopyright} 2017 The Authors.; 23rd Pacific Symposium on Biocomputing, PSB 2018 ; Conference date: 03-01-2018 Through 07-01-2018",

year = "2018",

doi = "10.1142/9789813235533_0046",

language = "English (US)",

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AU - Ramos, Kenneth S.

AU - Kann, Maricel

AU - Moore, Jason H.

N1 - Funding Information: †Work partially supported by This work was supported in part by The University of Arizona Health Sciences CB2, the BIO5 Institute, NIH (U01AI122275, HL132532, CA023074, 1UG3OD023171, 1R01AG053589-01A1, 1S10RR029030) © 2017 The Authors. Open Access chapter published by World Scientific Publishing Company and distributed under the terms of the Creative Commons Attribution Non-Commercial (CC BY-NC) 4.0 License. Publisher Copyright: © 2017 The Authors.

PY - 2018

Y1 - 2018

N2 - Noncoding DNA-once called “junk” has revealed itself to be full of function. Technology development has allowed researchers to gather genome-scale data pointing towards complex regulatory regions, expression and function of noncoding RNA genes, and conserved elements. Variation in these regions has been tied to variation in biological function and human disease. This PSB session tackles the problem of handling, analyzing and interpreting the data relating to variation in and interactions between noncoding regions through computational biology. We feature an invited speaker to how variation in transcription factor coding sequences impacts on sequence preference, along with submitted papers that span graph based methods, integrative analyses, machine learning, and dimension reduction to explore questions of basic biology, cancer, diabetes, and clinical relevance.

AB - Noncoding DNA-once called “junk” has revealed itself to be full of function. Technology development has allowed researchers to gather genome-scale data pointing towards complex regulatory regions, expression and function of noncoding RNA genes, and conserved elements. Variation in these regions has been tied to variation in biological function and human disease. This PSB session tackles the problem of handling, analyzing and interpreting the data relating to variation in and interactions between noncoding regions through computational biology. We feature an invited speaker to how variation in transcription factor coding sequences impacts on sequence preference, along with submitted papers that span graph based methods, integrative analyses, machine learning, and dimension reduction to explore questions of basic biology, cancer, diabetes, and clinical relevance.

KW - Intergenic

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KW - LINEs

KW - LncRNA

KW - MiRNA

KW - MicroRNA

KW - Non-coding DNA

KW - PiRNA

KW - Repetitive elements

KW - SncRNA

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Reading between the genes: Computational models to discover function from noncoding DNA

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Keywords

ASJC Scopus subject areas

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