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H Masłowska

Showing results (1-10 of 5) with videos related to

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Postepy Biochemii|January 1, 1983
[Properties, structure and function of chloroplast coupling factor (CF1)]P Masłowski, H Masłowska
Frontiers in Molecular Biosciences|December 19, 2022
Rad5 participates in lesion bypass through its Rev1-binding and ubiquitin ligase domains, but not through its helicase functionKatarzyna H Masłowska, Vincent Pagès
Nucleic Acids Research|August 17, 2019
iDamage: a method to integrate modified DNA into the yeast genomeKatarzyna H Masłowska, Luisa Laureti, Vincent Pagès
Nucleic Acids Research|February 1, 2022
Eukaryotic stress-induced mutagenesis is limited by a local control of translesion synthesisKatarzyna H Masłowska, Florencia Villafañez, Luisa Laureti, et al.
Nucleic Acids Research|March 21, 2025
Post-replicative lesion processing limits DNA damage-induced mutagenesisKatarzyna H Masłowska, Ronald P Wong, Helle D Ulrich, et al.
Pageof 1

Showing results (1-10 of 5) with videos related to

Sort By:
Pageof 1
Postepy Biochemii|January 1, 1983
[Properties, structure and function of chloroplast coupling factor (CF1)]P Masłowski, H Masłowska
Frontiers in Molecular Biosciences|December 19, 2022
Rad5 participates in lesion bypass through its Rev1-binding and ubiquitin ligase domains, but not through its helicase functionKatarzyna H Masłowska, Vincent Pagès
Nucleic Acids Research|August 17, 2019
iDamage: a method to integrate modified DNA into the yeast genomeKatarzyna H Masłowska, Luisa Laureti, Vincent Pagès
Nucleic Acids Research|February 1, 2022
Eukaryotic stress-induced mutagenesis is limited by a local control of translesion synthesisKatarzyna H Masłowska, Florencia Villafañez, Luisa Laureti, et al.
Nucleic Acids Research|March 21, 2025
Post-replicative lesion processing limits DNA damage-induced mutagenesisKatarzyna H Masłowska, Ronald P Wong, Helle D Ulrich, et al.
Pageof 1