Characterization of Differential Dynamics, Specificity, and Allostery of Lipoxygenase Family Members

Karolina Mikulska-Ruminska; Indira Shrivastava; James Krieger; She Zhang; Hongchun Li; Hülya Baylr; Sally E. Wenzel; Andrew P. Vandemark; Valerian E. Kagan; Ivet Bahar

doi:10.1021/acs.jcim.9b00006

Characterization of Differential Dynamics, Specificity, and Allostery of Lipoxygenase Family Members

Karolina Mikulska-Ruminska
, Indira Shrivastava
, James Krieger
, She Zhang
, Hongchun Li
, Hülya Baylr
, Sally E. Wenzel
, Andrew P. Vandemark
, Valerian E. Kagan
, Ivet Bahar

Laufer Center for Physical and Quantitative Biology

Stony Brook University

University of Pittsburgh
Nicolaus Copernicus University in Toruń
Sechenov First Moscow State Medical University

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

35 Scopus citations

Abstract

Accurate modeling of structural dynamics of proteins and their differentiation across different species can help us understand generic mechanisms of function shared by family members and the molecular basis of the specificity of individual members. We focused here on the family of lipoxygenases, enzymes that catalyze lipid oxidation, the mammalian and bacterial structures of which have been elucidated. We present a systematic method of approach for characterizing the sequence, structure, dynamics, and allosteric signaling properties of these enzymes using a combination of structure-based models and methods and bioinformatics tools applied to a data set of 88 structures. The analysis elucidates the signature dynamics of the lipoxygenase family and its differentiation among members, as well as key sites that enable its adaptation to specific substrate binding and allosteric activity.

Original language	English
Pages (from-to)	2496-2508
Number of pages	13
Journal	Journal of Chemical Information and Modeling
Volume	59
Issue number	5
DOIs	https://doi.org/10.1021/acs.jcim.9b00006
State	Published - May 28 2019

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title = "Characterization of Differential Dynamics, Specificity, and Allostery of Lipoxygenase Family Members",

abstract = "Accurate modeling of structural dynamics of proteins and their differentiation across different species can help us understand generic mechanisms of function shared by family members and the molecular basis of the specificity of individual members. We focused here on the family of lipoxygenases, enzymes that catalyze lipid oxidation, the mammalian and bacterial structures of which have been elucidated. We present a systematic method of approach for characterizing the sequence, structure, dynamics, and allosteric signaling properties of these enzymes using a combination of structure-based models and methods and bioinformatics tools applied to a data set of 88 structures. The analysis elucidates the signature dynamics of the lipoxygenase family and its differentiation among members, as well as key sites that enable its adaptation to specific substrate binding and allosteric activity.",

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doi = "10.1021/acs.jcim.9b00006",

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T1 - Characterization of Differential Dynamics, Specificity, and Allostery of Lipoxygenase Family Members

AU - Mikulska-Ruminska, Karolina

AU - Shrivastava, Indira

AU - Krieger, James

AU - Zhang, She

AU - Li, Hongchun

AU - Baylr, Hülya

AU - Wenzel, Sally E.

AU - Vandemark, Andrew P.

AU - Kagan, Valerian E.

AU - Bahar, Ivet

PY - 2019/5/28

Y1 - 2019/5/28

N2 - Accurate modeling of structural dynamics of proteins and their differentiation across different species can help us understand generic mechanisms of function shared by family members and the molecular basis of the specificity of individual members. We focused here on the family of lipoxygenases, enzymes that catalyze lipid oxidation, the mammalian and bacterial structures of which have been elucidated. We present a systematic method of approach for characterizing the sequence, structure, dynamics, and allosteric signaling properties of these enzymes using a combination of structure-based models and methods and bioinformatics tools applied to a data set of 88 structures. The analysis elucidates the signature dynamics of the lipoxygenase family and its differentiation among members, as well as key sites that enable its adaptation to specific substrate binding and allosteric activity.

AB - Accurate modeling of structural dynamics of proteins and their differentiation across different species can help us understand generic mechanisms of function shared by family members and the molecular basis of the specificity of individual members. We focused here on the family of lipoxygenases, enzymes that catalyze lipid oxidation, the mammalian and bacterial structures of which have been elucidated. We present a systematic method of approach for characterizing the sequence, structure, dynamics, and allosteric signaling properties of these enzymes using a combination of structure-based models and methods and bioinformatics tools applied to a data set of 88 structures. The analysis elucidates the signature dynamics of the lipoxygenase family and its differentiation among members, as well as key sites that enable its adaptation to specific substrate binding and allosteric activity.

UR - https://www.scopus.com/pages/publications/85066862095

U2 - 10.1021/acs.jcim.9b00006

DO - 10.1021/acs.jcim.9b00006

M3 - Article

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SN - 1549-9596

VL - 59

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EP - 2508

JO - Journal of Chemical Information and Modeling

JF - Journal of Chemical Information and Modeling

IS - 5

ER -

Characterization of Differential Dynamics, Specificity, and Allostery of Lipoxygenase Family Members

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