Author Correction: High-affinity chromodomains engineered for improved detection of histone methylation and enhanced CRISPR-based gene repression

Veggiani, G.; Villaseñor, R.; Martyn, G. D.; Tang, J. Q.; Krone, M. W.; Gu, J.; Chen, C.; Waters, M. L.; Pearce, K. H.; Baubec, T.; Sidhu, S. S.

Author Correction: High-affinity chromodomains engineered for improved detection of histone methylation and enhanced CRISPR-based gene repression

G. Veggiani (), R. Villaseñor, G. D. Martyn, J. Q. Tang, M. W. Krone, J. Gu, C. Chen, M. L. Waters, K. H. Pearce, T. Baubec and S. S. Sidhu ()
Additional contact information
G. Veggiani: The Anvil Institute
R. Villaseñor: Ludwig-Maximilians-University
G. D. Martyn: The Anvil Institute
J. Q. Tang: The Anvil Institute
M. W. Krone: University of North Carolina at Chapel Hill, CB 3290
J. Gu: The Anvil Institute
C. Chen: The Anvil Institute
M. L. Waters: University of North Carolina at Chapel Hill, CB 3290
K. H. Pearce: University of North Carolina at Chapel Hill
T. Baubec: University of Zurich
S. S. Sidhu: The Anvil Institute

Nature Communications, 2022, vol. 13, issue 1, 1-1

Date: 2022
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DOI: 10.1038/s41467-022-35175-8

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