Structural basis for the initiation of eukaryotic transcription-coupled DNA repair
Cryo-electron microscopy analysis of yeast Rad26 bound to RNA polymerase II provides insight into the initiation of the transcription-coupled DNA repair mechanism in eukaryotes. Transcription-coupled repair complex Transcription-coupled DNA repair removes DNA lesions from the template strand that pr...
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| Published in: | Nature (London) Vol. 551; no. 7682; pp. 653 - 657 |
|---|---|
| Main Authors: | , , , , , , , , , , |
| Format: | Journal Article |
| Language: | English |
| Published: |
London
Nature Publishing Group UK
30.11.2017
Nature Publishing Group |
| Subjects: | |
| ISSN: | 0028-0836, 1476-4687, 1476-4687 |
| Online Access: | Get full text |
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| Abstract | Cryo-electron microscopy analysis of yeast Rad26 bound to RNA polymerase II provides insight into the initiation of the transcription-coupled DNA repair mechanism in eukaryotes.
Transcription-coupled repair complex
Transcription-coupled DNA repair removes DNA lesions from the template strand that present obstacles to the translocation of RNA polymerase II (Pol II). The process is initiated by the recruitment of the Cockayne syndrome group B (CSB) protein in humans—or the equivalent Rad26 in the yeast (
Saccharomyces cerevisiae
)—to the arrested polymerase complex. Here, Andres Leschziner, Dong Wang and colleagues have used cryo-electron microscopy to solve the structure of a complex of
S. cerevisiae
Rad26 bound to Pol II. Rad26 binds to DNA upstream of Pol II and causes marked bending of the DNA, and the Swi2/Snf2-family ATPase domain of Rad26 is proposed to promote forward movement of Pol II. The authors suggest a mechanistic model whereby Rad26 ensures transcription-coupled recognition of DNA lesions while also functioning as a transcription elongation factor.
Eukaryotic transcription-coupled repair (TCR) is an important and well-conserved sub-pathway of nucleotide excision repair that preferentially removes DNA lesions from the template strand that block translocation of RNA polymerase II (Pol II)
1
,
2
. Cockayne syndrome group B (CSB, also known as ERCC6) protein in humans (or its yeast orthologues, Rad26 in
Saccharomyces cerevisiae
and Rhp26 in
Schizosaccharomyces pombe
) is among the first proteins to be recruited to the lesion-arrested Pol II during the initiation of eukaryotic TCR
1
,
3
,
4
,
5
,
6
,
7
,
8
,
9
,
10
. Mutations in CSB are associated with the autosomal-recessive neurological disorder Cockayne syndrome, which is characterized by progeriod features, growth failure and photosensitivity
1
. The molecular mechanism of eukaryotic TCR initiation remains unclear, with several long-standing unanswered questions. How cells distinguish DNA lesion-arrested Pol II from other forms of arrested Pol II, the role of CSB in TCR initiation, and how CSB interacts with the arrested Pol II complex are all unknown. The lack of structures of CSB or the Pol II–CSB complex has hindered our ability to address these questions. Here we report the structure of the
S. cerevisiae
Pol II–Rad26 complex solved by cryo-electron microscopy. The structure reveals that Rad26 binds to the DNA upstream of Pol II, where it markedly alters its path. Our structural and functional data suggest that the conserved Swi2/Snf2-family core ATPase domain promotes the forward movement of Pol II, and elucidate key roles for Rad26 in both TCR and transcription elongation. |
|---|---|
| AbstractList | Eukaryotic transcription-coupled repair (TCR) is an important and well-conserved sub-pathway of nucleotide excision repair that preferentially removes DNA lesions from the template strand that block translocation of RNA polymerase II (Pol II). Cockayne syndrome group B (CSB, also known as ERCC6) protein in humans (or its yeast orthologues, Rad26 in Saccharomyces cerevisiae and Rhp26 in Schizosaccharomyces pombe) is among the first proteins to be recruited to the lesion-arrested Pol II during the initiation of eukaryotic TCR. Mutations in CSB are associated with the autosomal-recessive neurological disorder Cockayne syndrome, which is characterized by progeriod features, growth failure and photosensitivity. The molecular mechanism of eukaryotic TCR initiation remains unclear, with several long-standing unanswered questions. How cells distinguish DNA lesion-arrested Pol II from other forms of arrested Pol II, the role of CSB in TCR initiation, and how CSB interacts with the arrested Pol II complex are all unknown. The lack of structures of CSB or the Pol II-CSB complex has hindered our ability to address these questions. Here we report the structure of the S. cerevisiae Pol II-Rad26 complex solved by cryo-electron microscopy. The structure reveals that Rad26 binds to the DNA upstream of Pol II, where it markedly alters its path. Our structural and functional data suggest that the conserved Swi2/Snf2-family core ATPase domain promotes the forward movement of Pol II, and elucidate key roles for Rad26 in both TCR and transcription elongation. Cryo-electron microscopy analysis of yeast Rad26 bound to RNA polymerase II provides insight into the initiation of the transcription-coupled DNA repair mechanism in eukaryotes. Transcription-coupled repair complex Transcription-coupled DNA repair removes DNA lesions from the template strand that present obstacles to the translocation of RNA polymerase II (Pol II). The process is initiated by the recruitment of the Cockayne syndrome group B (CSB) protein in humans—or the equivalent Rad26 in the yeast ( Saccharomyces cerevisiae )—to the arrested polymerase complex. Here, Andres Leschziner, Dong Wang and colleagues have used cryo-electron microscopy to solve the structure of a complex of S. cerevisiae Rad26 bound to Pol II. Rad26 binds to DNA upstream of Pol II and causes marked bending of the DNA, and the Swi2/Snf2-family ATPase domain of Rad26 is proposed to promote forward movement of Pol II. The authors suggest a mechanistic model whereby Rad26 ensures transcription-coupled recognition of DNA lesions while also functioning as a transcription elongation factor. Eukaryotic transcription-coupled repair (TCR) is an important and well-conserved sub-pathway of nucleotide excision repair that preferentially removes DNA lesions from the template strand that block translocation of RNA polymerase II (Pol II) 1 , 2 . Cockayne syndrome group B (CSB, also known as ERCC6) protein in humans (or its yeast orthologues, Rad26 in Saccharomyces cerevisiae and Rhp26 in Schizosaccharomyces pombe ) is among the first proteins to be recruited to the lesion-arrested Pol II during the initiation of eukaryotic TCR 1 , 3 , 4 , 5 , 6 , 7 , 8 , 9 , 10 . Mutations in CSB are associated with the autosomal-recessive neurological disorder Cockayne syndrome, which is characterized by progeriod features, growth failure and photosensitivity 1 . The molecular mechanism of eukaryotic TCR initiation remains unclear, with several long-standing unanswered questions. How cells distinguish DNA lesion-arrested Pol II from other forms of arrested Pol II, the role of CSB in TCR initiation, and how CSB interacts with the arrested Pol II complex are all unknown. The lack of structures of CSB or the Pol II–CSB complex has hindered our ability to address these questions. Here we report the structure of the S. cerevisiae Pol II–Rad26 complex solved by cryo-electron microscopy. The structure reveals that Rad26 binds to the DNA upstream of Pol II, where it markedly alters its path. Our structural and functional data suggest that the conserved Swi2/Snf2-family core ATPase domain promotes the forward movement of Pol II, and elucidate key roles for Rad26 in both TCR and transcription elongation. Eukaryotic transcription-coupled repair (TCR) is an important and well-conserved sub-pathway of nucleotide excision repair that preferentially removes DNA lesions from the template strand that block translocation of RNA polymerase II (Pol II). Cockayne syndrome group B (CSB, also known as ERCC6) protein in humans (or its yeast orthologues, Rad26 in Saccharomyces cerevisiae and Rhp26 in Schizosaccharomyces pombe) is among the first proteins to be recruited to the lesion-arrested Pol II during the initiation of eukaryotic TCR. Mutations in CSB are associated with the autosomal-recessive neurological disorder Cockayne syndrome, which is characterized by progeriod features, growth failure and photosensitivity. The molecular mechanism of eukaryotic TCR initiation remains unclear, with several long-standing unanswered questions. How cells distinguish DNA lesion-arrested Pol II from other forms of arrested Pol II, the role of CSB in TCR initiation, and how CSB interacts with the arrested Pol II complex are all unknown. The lack of structures of CSB or the Pol II-CSB complex has hindered our ability to address these questions. Here we report the structure of the S. cerevisiae Pol II-Rad26 complex solved by cryo-electron microscopy. The structure reveals that Rad26 binds to the DNA upstream of Pol II, where it markedly alters its path. Our structural and functional data suggest that the conserved Swi2/Snf2-family core ATPase domain promotes the forward movement of Pol II, and elucidate key roles for Rad26 in both TCR and transcription elongation.Eukaryotic transcription-coupled repair (TCR) is an important and well-conserved sub-pathway of nucleotide excision repair that preferentially removes DNA lesions from the template strand that block translocation of RNA polymerase II (Pol II). Cockayne syndrome group B (CSB, also known as ERCC6) protein in humans (or its yeast orthologues, Rad26 in Saccharomyces cerevisiae and Rhp26 in Schizosaccharomyces pombe) is among the first proteins to be recruited to the lesion-arrested Pol II during the initiation of eukaryotic TCR. Mutations in CSB are associated with the autosomal-recessive neurological disorder Cockayne syndrome, which is characterized by progeriod features, growth failure and photosensitivity. The molecular mechanism of eukaryotic TCR initiation remains unclear, with several long-standing unanswered questions. How cells distinguish DNA lesion-arrested Pol II from other forms of arrested Pol II, the role of CSB in TCR initiation, and how CSB interacts with the arrested Pol II complex are all unknown. The lack of structures of CSB or the Pol II-CSB complex has hindered our ability to address these questions. Here we report the structure of the S. cerevisiae Pol II-Rad26 complex solved by cryo-electron microscopy. The structure reveals that Rad26 binds to the DNA upstream of Pol II, where it markedly alters its path. Our structural and functional data suggest that the conserved Swi2/Snf2-family core ATPase domain promotes the forward movement of Pol II, and elucidate key roles for Rad26 in both TCR and transcription elongation. |
| Audience | Academic |
| Author | Leschziner, Andres E. Lahiri, Indrajit Wang, Wei Wang, Dong Xu, Jun Dervan, Peter B. DiMaio, Frank Chong, Jenny Wier, Adam Cianfrocco, Michael A. Hare, Alissa A. |
| Author_xml | – sequence: 1 givenname: Jun surname: Xu fullname: Xu, Jun organization: Division of Pharmaceutical Sciences, Skaggs School of Pharmacy & Pharmaceutical Sciences, University of California San Diego – sequence: 2 givenname: Indrajit surname: Lahiri fullname: Lahiri, Indrajit organization: Department of Cellular & Molecular Medicine, School of Medicine, University of California San Diego – sequence: 3 givenname: Wei surname: Wang fullname: Wang, Wei organization: Division of Pharmaceutical Sciences, Skaggs School of Pharmacy & Pharmaceutical Sciences, University of California San Diego – sequence: 4 givenname: Adam surname: Wier fullname: Wier, Adam organization: Department of Cellular & Molecular Medicine, School of Medicine, University of California San Diego – sequence: 5 givenname: Michael A. surname: Cianfrocco fullname: Cianfrocco, Michael A. organization: Department of Cellular & Molecular Medicine, School of Medicine, University of California San Diego, Life Sciences Institute and Department of Biological Chemistry, University of Michigan – sequence: 6 givenname: Jenny surname: Chong fullname: Chong, Jenny organization: Division of Pharmaceutical Sciences, Skaggs School of Pharmacy & Pharmaceutical Sciences, University of California San Diego – sequence: 7 givenname: Alissa A. surname: Hare fullname: Hare, Alissa A. organization: Division of Chemistry and Chemical Engineering, California Institute of Technology – sequence: 8 givenname: Peter B. surname: Dervan fullname: Dervan, Peter B. organization: Division of Chemistry and Chemical Engineering, California Institute of Technology – sequence: 9 givenname: Frank surname: DiMaio fullname: DiMaio, Frank organization: Department of Biochemistry, University of Washington – sequence: 10 givenname: Andres E. surname: Leschziner fullname: Leschziner, Andres E. email: aleschziner@ucsd.edu organization: Department of Cellular & Molecular Medicine, School of Medicine, University of California San Diego, Division of Biological Sciences, Section of Molecular Biology, University of California San Diego – sequence: 11 givenname: Dong surname: Wang fullname: Wang, Dong email: dongwang@ucsd.edu organization: Division of Pharmaceutical Sciences, Skaggs School of Pharmacy & Pharmaceutical Sciences, University of California San Diego, Department of Cellular & Molecular Medicine, School of Medicine, University of California San Diego |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/29168508$$D View this record in MEDLINE/PubMed |
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| Snippet | Cryo-electron microscopy analysis of yeast Rad26 bound to RNA polymerase II provides insight into the initiation of the transcription-coupled DNA repair... Eukaryotic transcription-coupled repair (TCR) is an important and well-conserved sub-pathway of nucleotide excision repair that preferentially removes DNA... |
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| Title | Structural basis for the initiation of eukaryotic transcription-coupled DNA repair |
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