![Human DNA Polymerase κ Encircles DNA: Implications for Mismatch Extension and Lesion Bypass: Molecular Cell Human DNA Polymerase κ Encircles DNA: Implications for Mismatch Extension and Lesion Bypass: Molecular Cell](https://els-jbs-prod-cdn.jbs.elsevierhealth.com/cms/attachment/593694/4591494/gr1.jpg)
Human DNA Polymerase κ Encircles DNA: Implications for Mismatch Extension and Lesion Bypass: Molecular Cell
![Mechanism of Replicative DNA Polymerase Delta Pausing and a Potential Role for DNA Polymerase Kappa in Common Fragile Site Replication - ScienceDirect Mechanism of Replicative DNA Polymerase Delta Pausing and a Potential Role for DNA Polymerase Kappa in Common Fragile Site Replication - ScienceDirect](https://ars.els-cdn.com/content/image/1-s2.0-S0022283612008881-fx1.jpg)
Mechanism of Replicative DNA Polymerase Delta Pausing and a Potential Role for DNA Polymerase Kappa in Common Fragile Site Replication - ScienceDirect
![A Catalytically Independent Function of Human DNA Polymerase Kappa Controls the Stability and Abundance of Checkpoint Kinase 1 | Molecular and Cellular Biology A Catalytically Independent Function of Human DNA Polymerase Kappa Controls the Stability and Abundance of Checkpoint Kinase 1 | Molecular and Cellular Biology](https://journals.asm.org/cms/10.1128/MCB.00090-21/asset/4d5eccf7-bbb6-4957-a86d-ee7be0c2d2bf/assets/images/large/mcb.00090-21-f008.jpg)
A Catalytically Independent Function of Human DNA Polymerase Kappa Controls the Stability and Abundance of Checkpoint Kinase 1 | Molecular and Cellular Biology
![In vivo evidence that DNA polymerase kappa is responsible for error-free bypass across DNA cross-links induced by mitomycin C - ScienceDirect In vivo evidence that DNA polymerase kappa is responsible for error-free bypass across DNA cross-links induced by mitomycin C - ScienceDirect](https://ars.els-cdn.com/content/image/1-s2.0-S156878641400233X-fx1.jpg)
In vivo evidence that DNA polymerase kappa is responsible for error-free bypass across DNA cross-links induced by mitomycin C - ScienceDirect
![DNA polymerase eta: A potential pharmacological target for cancer therapy - Saha - 2021 - Journal of Cellular Physiology - Wiley Online Library DNA polymerase eta: A potential pharmacological target for cancer therapy - Saha - 2021 - Journal of Cellular Physiology - Wiley Online Library](https://onlinelibrary.wiley.com/cms/asset/fe1454c3-5fc5-4e4f-811d-10262737207e/jcp30155-fig-0003-m.jpg)
DNA polymerase eta: A potential pharmacological target for cancer therapy - Saha - 2021 - Journal of Cellular Physiology - Wiley Online Library
![DNA polymerase eta: A potential pharmacological target for cancer therapy - Saha - 2021 - Journal of Cellular Physiology - Wiley Online Library DNA polymerase eta: A potential pharmacological target for cancer therapy - Saha - 2021 - Journal of Cellular Physiology - Wiley Online Library](https://onlinelibrary.wiley.com/cms/asset/c219b9fb-161b-4f61-b050-7391981444f7/jcp30155-fig-0004-m.jpg)