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Faria, J., Briggs, E. M., Black, J. A. and McCulloch, R. (2022) Emergence and adaptation of the cellular machinery directing antigenic variation in the African trypanosome. Current Opinion in Microbiology, 70, 102209. (doi: 10.1016/j.mib.2022.102209)

Briggs, E. M., Rojas, F., McCulloch, R. , Matthews, K. R. and Otto, T. D. (2021) Single-cell transcriptomic analysis of bloodstream Trypanosoma brucei reconstructs cell cycle progression and developmental quorum sensing. Nature Communications, 12, 5268. (doi: 10.1038/s41467-021-25607-2) (PMID:34489460) (PMCID:PMC8421343)

Briggs, E. M., Warren, F. S.L., Matthews, K. R., McCulloch, R. and Otto, T. D. (2021) Application of single cell transcriptomics to kinetoplastid research. Parasitology, 148(10), pp. 1223-1236. (doi: 10.1017/S003118202100041X) (PMID:33678213) (PMCID:PMC8311972)

Silva, G. L.A., Tosi, L. R.O., McCulloch, R. and Black, J. A. (2021) Unpicking the roles of DNA damage protein kinases in trypanosomatids. Frontiers in Cell and Developmental Biology, 9, 636615. (doi: 10.3389/fcell.2021.636615) (PMID:34422791) (PMCID:PMC8377203)

Damasceno, J. D., Marques, C. A., Black, J., Briggs, E. and McCulloch, R. (2021) Read, write, adapt: challenges and opportunities during kinetoplastid genome replication. Trends in Genetics, 37(1), pp. 21-34. (doi: 10.1016/j.tig.2020.09.002) (PMID:32993968) (PMCID:PMC9213392)

Damasceno, J. D., Marques, C. A. , Beraldi, D., Crouch, K. , Lapsley, C., Obonaga, R., Tosi, L. R.O. and McCulloch, R. (2020) Genome duplication in Leishmania major relies on persistent subtelomeric DNA replication. eLife, 9, e58030. (doi: 10.7554/eLife.58030) (PMID:32897188) (PMCID:PMC7511235)

Damasceno, J. D., Reis-Cunha, J., Crouch, K. , Beraldi, D., Lapsley, C., Tosi, L. R.O., Bartholomeu, D. and McCulloch, R. (2020) Conditional knockout of RAD51-related genes in Leishmania major reveals a critical role for homologous recombination during genome replication. PLoS Genetics, 16(7), e1008828. (doi: 10.1371/journal.pgen.1008828) (PMID:32609721) (PMCID:PMC7360064)

de Araujo, C. B. et al. (2020) Replication origin location might contribute to genetic variability in Trypanosoma cruzi. BMC Genomics, 21, 414. (doi: 10.1186/s12864-020-06803-8) (PMID:32571205) (PMCID:PMC7310030)

Grazielle-Silva, V., Zeb, T. F., Machado, C. R., McCulloch, R. and Teixeira, S. M. R. (2020) Trypanosoma brucei and Trypanosoma cruzi DNA mismatch repair proteins act differently in the response to DNA damage caused by oxidative stress. Frontiers in Cellular and Infection Microbiology, 10, 154. (doi: 10.3389/fcimb.2020.00154) (PMID:32373549) (PMCID:PMC7176904)

Briggs, E. M., Marques, C. A., Reis-Cunha, J., Black, J., Campbell, S., Damasceno, J., Bartholomeu, D., Crouch, K. and McCulloch, R. (2020) Next-generation analysis of trypanosomatid genome stability and instability. In: Michels, P. A.M., Ginger, M. L. and Zilberstein, D. (eds.) Trypanosomatids: Methods and Protocols. Series: Methods in Molecular Biology (2116). Springer, pp. 225-262. ISBN 9781071602935 (doi: 10.1007/978-1-0716-0294-2_15)

Black, J. A., Crouch, K. , Lemgruber, L. , Lapsley, C., Dickens, N. , Tosi, L. R.O., Mottram, J. C. and McCulloch, R. (2020) Trypanosoma brucei ATR links DNA damage signalling during antigenic variation with regulation of RNA Polymerase I-transcribed surface antigens. Cell Reports, 30(3), 836-851.e5. (doi: 10.1016/j.celrep.2019.12.049) (PMID:31968257) (PMCID:PMC6988115)

This list was generated on Tue Nov 29 08:16:20 2022 GMT.