Structural basis for nucleolin recognition of MYC promoter G-quadruplex

Luying Chen; Jonathan Dickerhoff; Ke Wei Zheng; Satchal Erramilli; Hanqiao Feng; Guanhui Wu; Buket Onel; Yuwei Chen; Kai Bo Wang; Megan Carver; Clement Lin; Saburo Sakai; Jun Wan; Charles Vinson; Laurence Hurley; Anthony A. Kossiakoff; Nanjie Deng; Yawen Bai; Nicholas Noinaj; Danzhou Yang

doi:10.1126/science.adr1752

Structural basis for nucleolin recognition of MYC promoter G-quadruplex

Luying Chen
, Jonathan Dickerhoff
, Ke Wei Zheng
, Satchal Erramilli
, Hanqiao Feng
, Guanhui Wu
, Buket Onel
, Yuwei Chen
, Kai Bo Wang
, Megan Carver
, Clement Lin
, Saburo Sakai
, Jun Wan
, Charles Vinson
, Laurence Hurley
, Anthony A. Kossiakoff
, Nanjie Deng
, Yawen Bai
, Nicholas Noinaj
, Danzhou Yang

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

31 Scopus citations

Abstract

The MYC oncogene promoter G-quadruplex (MycG4) regulates transcription and is a prevalent G4 locus in immortal cells. Nucleolin, a major MycG4-binding protein, exhibits greater affinity for MycG4 than for nucleolin recognition element (NRE) RNA. Nucleolin's four RNA binding domains (RBDs) are essential for high-affinity MycG4 binding. We present the 2.6-angstrom crystal structure of the nucleolin-MycG4 complex, revealing a folded parallel three-tetrad G-quadruplex with two coordinating potassium ions (K⁺), interacting with RBD1, RBD2, and Linker12 through its 6–nucleotide (nt) central loop and 5′ flanking region. RBD3 and RBD4 bind MycG4's 1-nt loops as demonstrated by nuclear magnetic resonance (NMR). Cleavage under targets and tagmentation sequencing confirmed nucleolin’s binding to MycG4 in cells. Our results revealed a G4 conformation-based recognition by a regulating protein through multivalent interactions, suggesting that G4s are nucleolin's primary cellular substrates, indicating G4 epigenetic transcriptional regulation and helping G4-targeted drug discovery.

Original language	English (US)
Article number	eadr1752
Journal	Science
Volume	388
Issue number	6744
DOIs	https://doi.org/10.1126/science.adr1752
State	Published - Apr 18 2025
Externally published	Yes

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Chen, L., Dickerhoff, J., Zheng, K. W., Erramilli, S., Feng, H., Wu, G., Onel, B., Chen, Y., Wang, K. B., Carver, M., Lin, C., Sakai, S., Wan, J., Vinson, C., Hurley, L., Kossiakoff, A. A., Deng, N., Bai, Y., Noinaj, N., & Yang, D. (2025). Structural basis for nucleolin recognition of MYC promoter G-quadruplex. Science, 388(6744), Article eadr1752. https://doi.org/10.1126/science.adr1752

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title = "Structural basis for nucleolin recognition of MYC promoter G-quadruplex",

abstract = "The MYC oncogene promoter G-quadruplex (MycG4) regulates transcription and is a prevalent G4 locus in immortal cells. Nucleolin, a major MycG4-binding protein, exhibits greater affinity for MycG4 than for nucleolin recognition element (NRE) RNA. Nucleolin's four RNA binding domains (RBDs) are essential for high-affinity MycG4 binding. We present the 2.6-angstrom crystal structure of the nucleolin-MycG4 complex, revealing a folded parallel three-tetrad G-quadruplex with two coordinating potassium ions (K+), interacting with RBD1, RBD2, and Linker12 through its 6–nucleotide (nt) central loop and 5′ flanking region. RBD3 and RBD4 bind MycG4's 1-nt loops as demonstrated by nuclear magnetic resonance (NMR). Cleavage under targets and tagmentation sequencing confirmed nucleolin{\textquoteright}s binding to MycG4 in cells. Our results revealed a G4 conformation-based recognition by a regulating protein through multivalent interactions, suggesting that G4s are nucleolin's primary cellular substrates, indicating G4 epigenetic transcriptional regulation and helping G4-targeted drug discovery.",

author = "Luying Chen and Jonathan Dickerhoff and Zheng, \{Ke Wei\} and Satchal Erramilli and Hanqiao Feng and Guanhui Wu and Buket Onel and Yuwei Chen and Wang, \{Kai Bo\} and Megan Carver and Clement Lin and Saburo Sakai and Jun Wan and Charles Vinson and Laurence Hurley and Kossiakoff, \{Anthony A.\} and Nanjie Deng and Yawen Bai and Nicholas Noinaj and Danzhou Yang",

year = "2025",

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doi = "10.1126/science.adr1752",

language = "English (US)",

volume = "388",

journal = "Science",

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publisher = "American Association for the Advancement of Science",

number = "6744",

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T1 - Structural basis for nucleolin recognition of MYC promoter G-quadruplex

AU - Chen, Luying

AU - Dickerhoff, Jonathan

AU - Zheng, Ke Wei

AU - Erramilli, Satchal

AU - Feng, Hanqiao

AU - Wu, Guanhui

AU - Onel, Buket

AU - Chen, Yuwei

AU - Wang, Kai Bo

AU - Carver, Megan

AU - Lin, Clement

AU - Sakai, Saburo

AU - Wan, Jun

AU - Vinson, Charles

AU - Hurley, Laurence

AU - Kossiakoff, Anthony A.

AU - Deng, Nanjie

AU - Bai, Yawen

AU - Noinaj, Nicholas

AU - Yang, Danzhou

PY - 2025/4/18

Y1 - 2025/4/18

N2 - The MYC oncogene promoter G-quadruplex (MycG4) regulates transcription and is a prevalent G4 locus in immortal cells. Nucleolin, a major MycG4-binding protein, exhibits greater affinity for MycG4 than for nucleolin recognition element (NRE) RNA. Nucleolin's four RNA binding domains (RBDs) are essential for high-affinity MycG4 binding. We present the 2.6-angstrom crystal structure of the nucleolin-MycG4 complex, revealing a folded parallel three-tetrad G-quadruplex with two coordinating potassium ions (K+), interacting with RBD1, RBD2, and Linker12 through its 6–nucleotide (nt) central loop and 5′ flanking region. RBD3 and RBD4 bind MycG4's 1-nt loops as demonstrated by nuclear magnetic resonance (NMR). Cleavage under targets and tagmentation sequencing confirmed nucleolin’s binding to MycG4 in cells. Our results revealed a G4 conformation-based recognition by a regulating protein through multivalent interactions, suggesting that G4s are nucleolin's primary cellular substrates, indicating G4 epigenetic transcriptional regulation and helping G4-targeted drug discovery.

AB - The MYC oncogene promoter G-quadruplex (MycG4) regulates transcription and is a prevalent G4 locus in immortal cells. Nucleolin, a major MycG4-binding protein, exhibits greater affinity for MycG4 than for nucleolin recognition element (NRE) RNA. Nucleolin's four RNA binding domains (RBDs) are essential for high-affinity MycG4 binding. We present the 2.6-angstrom crystal structure of the nucleolin-MycG4 complex, revealing a folded parallel three-tetrad G-quadruplex with two coordinating potassium ions (K+), interacting with RBD1, RBD2, and Linker12 through its 6–nucleotide (nt) central loop and 5′ flanking region. RBD3 and RBD4 bind MycG4's 1-nt loops as demonstrated by nuclear magnetic resonance (NMR). Cleavage under targets and tagmentation sequencing confirmed nucleolin’s binding to MycG4 in cells. Our results revealed a G4 conformation-based recognition by a regulating protein through multivalent interactions, suggesting that G4s are nucleolin's primary cellular substrates, indicating G4 epigenetic transcriptional regulation and helping G4-targeted drug discovery.

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UR - https://www.scopus.com/pages/publications/105003705272#tab=citedBy

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DO - 10.1126/science.adr1752

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AN - SCOPUS:105003705272

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VL - 388

JO - Science

JF - Science

IS - 6744

M1 - eadr1752

ER -

Structural basis for nucleolin recognition of MYC promoter G-quadruplex

Abstract

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