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© Research
Publication : Nature communications

Genome-wide mapping of individual replication fork velocities using nanopore sequencing.

Scientific Fields
Diseases
Organisms
Applications
Technique

Published in Nature communications - 08 Jun 2022

Theulot B, Lacroix L, Arbona JM, Millot GA, Jean E, Cruaud C, Pellet J, Proux F, Hennion M, Engelen S, Lemainque A, Audit B, Hyrien O, Le Tallec B,

Link to Pubmed [PMID] – 35676270

Link to DOI – 10.1038/s41467-022-31012-0

Nat Commun 2022 06; 13(1): 3295

Little is known about replication fork velocity variations along eukaryotic genomes, since reference techniques to determine fork speed either provide no sequence information or suffer from low throughput. Here we present NanoForkSpeed, a nanopore sequencing-based method to map and extract the velocity of individual forks detected as tracks of the thymidine analogue bromodeoxyuridine incorporated during a brief pulse-labelling of asynchronously growing cells. NanoForkSpeed retrieves previous Saccharomyces cerevisiae mean fork speed estimates (≈2 kb/min) in the BT1 strain exhibiting highly efficient bromodeoxyuridine incorporation and wild-type growth, and precisely quantifies speed changes in cells with altered replisome progression or exposed to hydroxyurea. The positioning of >125,000 fork velocities provides a genome-wide map of fork progression based on individual fork rates, showing a uniform fork speed across yeast chromosomes except for a marked slowdown at known pausing sites.