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[HTML][HTML] The conserved molecular machinery in DNA mismatch repair enzyme structures

FS Groothuizen, TK Sixma - DNA repair, 2016 - Elsevier
The machinery of DNA mismatch repair enzymes is highly conserved in evolution. The
process is initiated by recognition of a DNA mismatch, and validated by ATP and the …
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The conserved molecular machinery in DNA mismatch repair enzyme structures

FS Groothuizen, TK Sixma - DNA Repair, 2016 - infona.pl
The machinery of DNA mismatch repair enzymes is highly conserved in evolution. The
process is initiated by recognition of a DNA mismatch, and validated by ATP and the …
[PDF] archive.org

[PDF][PDF] The conserved molecular machinery in DNA mismatch repair enzyme structures

FS Groothuizen, TK Sixma - DNA Repair, 2016 - scholar.archive.org
abstract The machinery of DNA mismatch repair enzymes is highly conserved in evolution.
The process is initiated by recognition of a DNA mismatch, and validated by ATP and the …

The conserved molecular machinery in DNA mismatch repair enzyme structures.

FS Groothuizen, TK Sixma - DNA Repair, 2015 - europepmc.org
The machinery of DNA mismatch repair enzymes is highly conserved in evolution. The
process is initiated by recognition of a DNA mismatch, and validated by ATP and the …

The conserved molecular machinery in DNA mismatch repair enzyme structures

FS Groothuizen, TK Sixma - DNA repair, 2016 - pubmed.ncbi.nlm.nih.gov
The machinery of DNA mismatch repair enzymes is highly conserved in evolution. The
process is initiated by recognition of a DNA mismatch, and validated by ATP and the …

[引用][C] The conserved molecular machinery in DNA mismatch repair enzyme structures

FS Groothuizen, TK Sixma - DNA Repair, 2016 - cir.nii.ac.jp
The conserved molecular machinery in DNA mismatch repair enzyme structures | CiNii
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