3qu6 Citations

Structures of apo IRF-3 and IRF-7 DNA binding domains: effect of loop L1 on DNA binding.

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De Ioannes P, Escalante CR, Aggarwal AK
OpenAccess logo Nucleic Acids Res 39 7300-7 (2011)
Cited: 11 times
EuropePMC logo PMID: 21596780

Abstract

Interferon regulatory factors IRF-3 and IRF-7 are transcription factors essential in the activation of interferon-β (IFN-β) gene in response to viral infections. Although, both proteins recognize the same consensus IRF binding site AANNGAAA, they have distinct DNA binding preferences for sites in vivo. The X-ray structures of IRF-3 and IRF-7 DNA binding domains (DBDs) bound to IFN-β promoter elements revealed flexibility in the loops (L1-L3) and the residues that make contacts with the target sequence. To characterize the conformational changes that occur on DNA binding and how they differ between IRF family members, we have solved the X-ray structures of IRF-3 and IRF-7 DBDs in the absence of DNA. We found that loop L1, carrying the conserved histidine that interacts with the DNA minor groove, is disordered in apo IRF-3 but is ordered in apo IRF-7. This is reflected in differences in DNA binding affinities when the conserved histidine in loop L1 is mutated to alanine in the two proteins. The stability of loop L1 in IRF-7 derives from a unique combination of hydrophobic residues that pack against the protein core. Together, our data show that differences in flexibility of loop L1 are an important determinant of differential IRF-DNA binding.

Reviews - 3qu6 mentioned but not cited (1)

  1. Direct Inhibition of IRF-Dependent Transcriptional Regulatory Mechanisms Associated With Disease. Antonczyk A, Krist B, Sajek M, Michalska A, Piaszyk-Borychowska A, Plens-Galaska M, Wesoly J, Bluyssen HAR. Front Immunol 10 1176 (2019)

Articles - 3qu6 mentioned but not cited (3)

  1. Structures of apo IRF-3 and IRF-7 DNA binding domains: effect of loop L1 on DNA binding. De Ioannes P, Escalante CR, Aggarwal AK. Nucleic Acids Res 39 7300-7307 (2011)
  2. The dipeptidyl peptidase IV inhibitors vildagliptin and K-579 inhibit a phospholipase C: a case of promiscuous scaffolds in proteins. Chakraborty S, Rendón-Ramírez A, Ásgeirsson B, Dutta M, Ghosh AS, Oda M, Venkatramani R, Rao BJ, Dandekar AM, Goñi FM. F1000Res 2 286 (2013)
  3. pyDockDNA: A new web server for energy-based protein-DNA docking and scoring. Rodríguez-Lumbreras LA, Jiménez-García B, Giménez-Santamarina S, Fernández-Recio J. Front Mol Biosci 9 988996 (2022)


Reviews citing this publication (1)

  1. Transcriptional and chromatin regulation in interferon and innate antiviral gene expression. Au-Yeung N, Horvath CM. Cytokine Growth Factor Rev 44 11-17 (2018)

Articles citing this publication (6)

  1. Structural Features of Transcription Factors Associating with Nucleosome Binding. Fernandez Garcia M, Moore CD, Schulz KN, Alberto O, Donague G, Harrison MM, Zhu H, Zaret KS. Mol Cell 75 921-932.e6 (2019)
  2. The crystal structure of the DNA-binding domain of vIRF-1 from the oncogenic KSHV reveals a conserved fold for DNA binding and reinforces its role as a transcription factor. Hew K, Dahlroth SL, Venkatachalam R, Nasertorabi F, Lim BT, Cornvik T, Nordlund P. Nucleic Acids Res 41 4295-4306 (2013)
  3. Expression of porcine fusion protein IRF7/3(5D) efficiently controls foot-and-mouth disease virus replication. Ramírez-Carvajal L, Díaz-San Segundo F, Hickman D, Long CR, Zhu J, Rodríguez LL, de los Santos T. J Virol 88 11140-11153 (2014)
  4. Genome-Wide Mapping of the Binding Sites and Structural Analysis of Kaposi's Sarcoma-Associated Herpesvirus Viral Interferon Regulatory Factor 2 Reveal that It Is a DNA-Binding Transcription Factor. Hu H, Dong J, Liang D, Gao Z, Bai L, Sun R, Hu H, Zhang H, Dong Y, Lan K. J Virol 90 1158-1168 (2016)
  5. Interferon Regulatory Factor 5 Mediates Lipopolysaccharide-Induced Neuroinflammation. Fan Z, Zhao S, Zhu Y, Li Z, Liu Z, Yan Y, Tian J, Chen Y, Zhang B. Front Immunol 11 600479 (2020)
  6. Structural determinants of the IRF4/DNA homodimeric complex. Sundararaj S, Seneviratne S, Williams SJ, Enders A, Casarotto MG. Nucleic Acids Res 49 2255-2265 (2021)


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