DNA Conformation Induces Adaptable Binding by Tandem Zinc Finger Proteins

Tandem zinc finger (ZF) proteins are the largest and most rapidly diverging family of DNA-binding transcription regulators in mammals. ZFP568 represses a transcript of placental-specific insulin like growth factor 2 (Igf2-P0) in mice. ZFP568 binds a 24-base pair sequence-specific element upstream of...

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Published inCell Vol. 173; no. 1; pp. 221 - 233.e12
Main Authors Patel, Anamika, Yang, Peng, Tinkham, Matthew, Pradhan, Mihika, Sun, Ming-An, Wang, Yixuan, Hoang, Don, Wolf, Gernot, Horton, John R., Zhang, Xing, Macfarlan, Todd, Cheng, Xiaodong
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 22.03.2018
Elsevier
Subjects
Amino Acid Sequence
Animals
AT-rich
Base Sequence
BASIC BIOLOGICAL SCIENCES
binding capacity
Binding Sites
C2H2 zinc fingers
Carrier Proteins - chemistry
Carrier Proteins - classification
Carrier Proteins - genetics
Carrier Proteins - metabolism
DNA
DNA - chemistry
DNA - metabolism
DNA conformation
evolution
Humans
Igf2
imprinting
insulin-like growth factor II
Insulin-Like Growth Factor II - chemistry
Insulin-Like Growth Factor II - genetics
Insulin-Like Growth Factor II - metabolism
KRAB
Mice
Molecular Dynamics Simulation
mutation
Nuclear Proteins - chemistry
Nuclear Proteins - classification
Nuclear Proteins - genetics
Nuclear Proteins - metabolism
Nucleic Acid Conformation
Pan troglodytes
Phylogeny
Polymorphism, Single Nucleotide
Protein Binding
Protein Structure, Tertiary
Recombinant Proteins - biosynthesis
Recombinant Proteins - chemistry
Recombinant Proteins - isolation & purification
Sequence Alignment
shortened minor groove
thymine
transcription factors
Zfp568
zinc finger motif
imprinting
Zfp568
C2H2 zinc fingers
DNA conformation
Igf2
shortened minor groove
KRAB
AT-rich
Online AccessGet full text

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Abstract Tandem zinc finger (ZF) proteins are the largest and most rapidly diverging family of DNA-binding transcription regulators in mammals. ZFP568 represses a transcript of placental-specific insulin like growth factor 2 (Igf2-P0) in mice. ZFP568 binds a 24-base pair sequence-specific element upstream of Igf2-P0 via the eleven-ZF array. Both DNA and protein conformations deviate from the conventional one finger-three bases recognition, with individual ZFs contacting 2, 3, or 4 bases and recognizing thymine on the opposite strand. These interactions arise from a shortened minor groove caused by an AT-rich stretch, suggesting adaptability of ZF arrays to sequence variations. Despite conservation in mammals, mutations at Igf2 and ZFP568 reduce their binding affinity in chimpanzee and humans. Our studies provide important insights into the evolutionary and structural dynamics of ZF-DNA interactions that play a key role in mammalian development and evolution. [Display omitted] •ZFP568 and its Igf2-P0 binding activity is conserved in eutheria•Mouse ZFP568 11-finger array makes numerous non-canonical ZF-DNA interactions•ZFP568 forms versatile contacts in response to sequence-specific deformation in DNA•Chimp and human ZFP568 have weakened or abolished binding to their Igf2-P0 sequence Evolutionary and structure-function dynamics of zinc finger-DNA interactions reveal unconventional recognition codes and co-evolution of ZFP568 and its target gene Igf2 in mammals.
AbstractList Tandem zinc finger (ZF) proteins are the largest and most rapidly diverging family of DNA-binding transcription regulators in mammals. ZFP568 represses a transcript of placental-specific insulin like growth factor 2 (Igf2-P0) in mice. ZFP568 binds a 24-base pair sequence-specific element upstream of Igf2-P0 via the eleven-ZF array. Both DNA and protein conformations deviate from the conventional one finger-three bases recognition, with individual ZFs contacting 2, 3, or 4 bases and recognizing thymine on the opposite strand. These interactions arise from a shortened minor groove caused by an AT-rich stretch, suggesting adaptability of ZF arrays to sequence variations. Despite conservation in mammals, mutations at Igf2 and ZFP568 reduce their binding affinity in chimpanzee and humans. Furthermore, our studies provide important insights into the evolutionary and structural dynamics of ZF-DNA interactions that play a key role in mammalian development and evolution.
Tandem zinc finger (ZF) proteins are the largest and most rapidly diverging family of DNA-binding transcription regulators in mammals. ZFP568 represses a transcript of placental-specific insulin like growth factor 2 ( Igf2 -P0) in mice. ZFP568 binds a 24-base pair sequence-specific element upstream of Igf2 -P0 via the eleven-ZF array. Both DNA and protein conformations deviate from the conventional one finger-three bases recognition, with individual ZFs contacting 2, 3, or 4 bases and recognizing thymine on the opposite strand. These interactions arise from a shortened minor groove caused by an AT-rich stretch, suggesting adaptability of ZF arrays to sequence variations. Despite conservation in mammals, mutations at Igf2 and ZFP568 reduce their binding affinity in Chimpanzee and humans. Our studies provide important insights into the evolutionary and structural dynamics of ZF-DNA interactions that play a key role in mammalian development and evolution. Evolutionary and structure-function dynamics of zinc finger-DNA interactions reveal unconventional recognition codes and co-evolution of ZFP568 and its target gene Igf2 in mammals.
Tandem zinc finger (ZF) proteins are the largest and most rapidly diverging family of DNA-binding transcription regulators in mammals. ZFP568 represses a transcript of placental-specific insulin like growth factor 2 (Igf2-P0) in mice. ZFP568 binds a 24-base pair sequence-specific element upstream of Igf2-P0 via the eleven-ZF array. Both DNA and protein conformations deviate from the conventional one finger-three bases recognition, with individual ZFs contacting 2, 3, or 4 bases and recognizing thymine on the opposite strand. These interactions arise from a shortened minor groove caused by an AT-rich stretch, suggesting adaptability of ZF arrays to sequence variations. Despite conservation in mammals, mutations at Igf2 and ZFP568 reduce their binding affinity in chimpanzee and humans. Our studies provide important insights into the evolutionary and structural dynamics of ZF-DNA interactions that play a key role in mammalian development and evolution.
Tandem zinc finger (ZF) proteins are the largest and most rapidly diverging family of DNA-binding transcription regulators in mammals. ZFP568 represses a transcript of placental-specific insulin like growth factor 2 (Igf2-P0) in mice. ZFP568 binds a 24-base pair sequence-specific element upstream of Igf2-P0 via the eleven-ZF array. Both DNA and protein conformations deviate from the conventional one finger-three bases recognition, with individual ZFs contacting 2, 3, or 4 bases and recognizing thymine on the opposite strand. These interactions arise from a shortened minor groove caused by an AT-rich stretch, suggesting adaptability of ZF arrays to sequence variations. Despite conservation in mammals, mutations at Igf2 and ZFP568 reduce their binding affinity in chimpanzee and humans. Our studies provide important insights into the evolutionary and structural dynamics of ZF-DNA interactions that play a key role in mammalian development and evolution. [Display omitted] •ZFP568 and its Igf2-P0 binding activity is conserved in eutheria•Mouse ZFP568 11-finger array makes numerous non-canonical ZF-DNA interactions•ZFP568 forms versatile contacts in response to sequence-specific deformation in DNA•Chimp and human ZFP568 have weakened or abolished binding to their Igf2-P0 sequence Evolutionary and structure-function dynamics of zinc finger-DNA interactions reveal unconventional recognition codes and co-evolution of ZFP568 and its target gene Igf2 in mammals.
Tandem zinc finger (ZF) proteins are the largest and most rapidly diverging family of DNA-binding transcription regulators in mammals. ZFP568 represses a transcript of placental-specific insulin like growth factor 2 (Igf2-P0) in mice. ZFP568 binds a 24-base pair sequence-specific element upstream of Igf2-P0 via the eleven-ZF array. Both DNA and protein conformations deviate from the conventional one finger-three bases recognition, with individual ZFs contacting 2, 3, or 4 bases and recognizing thymine on the opposite strand. These interactions arise from a shortened minor groove caused by an AT-rich stretch, suggesting adaptability of ZF arrays to sequence variations. Despite conservation in mammals, mutations at Igf2 and ZFP568 reduce their binding affinity in chimpanzee and humans. Our studies provide important insights into the evolutionary and structural dynamics of ZF-DNA interactions that play a key role in mammalian development and evolution.Tandem zinc finger (ZF) proteins are the largest and most rapidly diverging family of DNA-binding transcription regulators in mammals. ZFP568 represses a transcript of placental-specific insulin like growth factor 2 (Igf2-P0) in mice. ZFP568 binds a 24-base pair sequence-specific element upstream of Igf2-P0 via the eleven-ZF array. Both DNA and protein conformations deviate from the conventional one finger-three bases recognition, with individual ZFs contacting 2, 3, or 4 bases and recognizing thymine on the opposite strand. These interactions arise from a shortened minor groove caused by an AT-rich stretch, suggesting adaptability of ZF arrays to sequence variations. Despite conservation in mammals, mutations at Igf2 and ZFP568 reduce their binding affinity in chimpanzee and humans. Our studies provide important insights into the evolutionary and structural dynamics of ZF-DNA interactions that play a key role in mammalian development and evolution.
Author Yang, Peng
Wolf, Gernot
Zhang, Xing
Cheng, Xiaodong
Macfarlan, Todd
Wang, Yixuan
Horton, John R.
Sun, Ming-An
Tinkham, Matthew
Pradhan, Mihika
Patel, Anamika
Hoang, Don
AuthorAffiliation 3 Department of Molecular and Cellular Oncology, The University of Texas MD Anderson Cancer Center, Houston, TX 77030, USA
1 Department of Biochemistry, Emory University School of Medicine, 1510 Clifton Road, Atlanta, GA 30322, USA
2 The Eunice Kennedy Shriver National Institutes of Child Health and Human Development, The National Institutes of Health, Bethesda, MD 20892, USA
AuthorAffiliation_xml – name: 1 Department of Biochemistry, Emory University School of Medicine, 1510 Clifton Road, Atlanta, GA 30322, USA
– name: 2 The Eunice Kennedy Shriver National Institutes of Child Health and Human Development, The National Institutes of Health, Bethesda, MD 20892, USA
– name: 3 Department of Molecular and Cellular Oncology, The University of Texas MD Anderson Cancer Center, Houston, TX 77030, USA
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  organization: The Eunice Kennedy Shriver National Institutes of Child Health and Human Development, NIH, Bethesda, MD 20892, USA
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  givenname: Matthew
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  fullname: Tinkham, Matthew
  organization: The Eunice Kennedy Shriver National Institutes of Child Health and Human Development, NIH, Bethesda, MD 20892, USA
– sequence: 4
  givenname: Mihika
  surname: Pradhan
  fullname: Pradhan, Mihika
  organization: Department of Biochemistry, Emory University School of Medicine, 1510 Clifton Road, Atlanta, GA 30322, USA
– sequence: 5
  givenname: Ming-An
  surname: Sun
  fullname: Sun, Ming-An
  organization: The Eunice Kennedy Shriver National Institutes of Child Health and Human Development, NIH, Bethesda, MD 20892, USA
– sequence: 6
  givenname: Yixuan
  surname: Wang
  fullname: Wang, Yixuan
  organization: The Eunice Kennedy Shriver National Institutes of Child Health and Human Development, NIH, Bethesda, MD 20892, USA
– sequence: 7
  givenname: Don
  surname: Hoang
  fullname: Hoang, Don
  organization: The Eunice Kennedy Shriver National Institutes of Child Health and Human Development, NIH, Bethesda, MD 20892, USA
– sequence: 8
  givenname: Gernot
  surname: Wolf
  fullname: Wolf, Gernot
  organization: The Eunice Kennedy Shriver National Institutes of Child Health and Human Development, NIH, Bethesda, MD 20892, USA
– sequence: 9
  givenname: John R.
  surname: Horton
  fullname: Horton, John R.
  organization: Department of Molecular and Cellular Oncology, The University of Texas MD Anderson Cancer Center, Houston, TX 77030, USA
– sequence: 10
  givenname: Xing
  surname: Zhang
  fullname: Zhang, Xing
  organization: Department of Molecular and Cellular Oncology, The University of Texas MD Anderson Cancer Center, Houston, TX 77030, USA
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  givenname: Todd
  surname: Macfarlan
  fullname: Macfarlan, Todd
  email: todd.macfarlan@nih.gov
  organization: The Eunice Kennedy Shriver National Institutes of Child Health and Human Development, NIH, Bethesda, MD 20892, USA
– sequence: 12
  givenname: Xiaodong
  surname: Cheng
  fullname: Cheng, Xiaodong
  email: xcheng5@mdanderson.org
  organization: Department of Biochemistry, Emory University School of Medicine, 1510 Clifton Road, Atlanta, GA 30322, USA
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Keywords imprinting
Zfp568
C2H2 zinc fingers
DNA conformation
Igf2
shortened minor groove
KRAB
AT-rich
Language English
License This article is made available under the Elsevier license.
Copyright © 2018 Elsevier Inc. All rights reserved.
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Elsevier
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Snippet Tandem zinc finger (ZF) proteins are the largest and most rapidly diverging family of DNA-binding transcription regulators in mammals. ZFP568 represses a...
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SubjectTerms Amino Acid Sequence
Animals
AT-rich
Base Sequence
BASIC BIOLOGICAL SCIENCES
binding capacity
Binding Sites
C2H2 zinc fingers
Carrier Proteins - chemistry
Carrier Proteins - classification
Carrier Proteins - genetics
Carrier Proteins - metabolism
DNA
DNA - chemistry
DNA - metabolism
DNA conformation
evolution
Humans
Igf2
imprinting
insulin-like growth factor II
Insulin-Like Growth Factor II - chemistry
Insulin-Like Growth Factor II - genetics
Insulin-Like Growth Factor II - metabolism
KRAB
Mice
Molecular Dynamics Simulation
mutation
Nuclear Proteins - chemistry
Nuclear Proteins - classification
Nuclear Proteins - genetics
Nuclear Proteins - metabolism
Nucleic Acid Conformation
Pan troglodytes
Phylogeny
Polymorphism, Single Nucleotide
Protein Binding
Protein Structure, Tertiary
Recombinant Proteins - biosynthesis
Recombinant Proteins - chemistry
Recombinant Proteins - isolation & purification
Sequence Alignment
shortened minor groove
thymine
transcription factors
Zfp568
zinc finger motif
Title DNA Conformation Induces Adaptable Binding by Tandem Zinc Finger Proteins
URI https://dx.doi.org/10.1016/j.cell.2018.02.058
https://www.ncbi.nlm.nih.gov/pubmed/29551271
https://www.proquest.com/docview/2015409297
https://www.proquest.com/docview/2221055973
https://www.osti.gov/servlets/purl/1434722
https://pubmed.ncbi.nlm.nih.gov/PMC5877318
Volume 173
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