2024
Sokolova, Vladyslava et al. “Structural mechanism of HP1⍺-dependent transcriptional repression and chromatin compaction.” Structure (London, England : 1993) vol. 32,11 (2024): 2094-2106.e6. doi:10.1016/j.str.2024.09.013
Jung, H., Sokolova, V., Lee, G., Stevens, V., Tan, D. (2024) Structural and Biochemical Characterization of the Nucleosome Containing Variant H3.3 and H2A.Z. Epigenomes , 8(2), 21; doi.org/10.3390/epigenomes8020021
2023
Sokolova, V., Lee, G., Mullins, A., Mody, P., Watanabe, S., Tan, D. (2023) DNA-translocation-independent role of INO80 remodeler in DNA damage repairs, Journal of Biological Chemistry.105245. PMID:37696438
Sokolova, V., Sarkar, S., Tan, D. (2023) Histone Variants and Chromatin Structure, Update of Advances, Computational and Structural Biotechnology Journal. 21: 299–311
2021
Lewis, T. S.*, Sokolova, V.*, Jung, H., Ng, H., & Tan, D. (2021). Structural basis of chromatin regulation by histone variant H2A.Z. Nucleic Acids Research, 49(19), 11379–11391. https://doi.org/10.1093/nar/gkab907
2016
Hunziker M, Barandun J, Petfalski E, Tan D, Delan-Forino C, Molloy KR, Kim KH, Dunn-Davies H, Shi Y, Chaker-Margot M, Chait BT, Walz T, Tollervey D, Klinge S. (2016) UtpA and UtpB chaperone nascent pre-ribosomal RNA and U3 snoRNA to initiate eukaryotic ribosome assembly. Nature Communication 7: 12090.
2015
Tan D*, Blok NB*, Rapoport TA, Walz T. (2015) Structures of the double-ring AAA ATPase Pex1/Pex6 involved in peroxisome biogenesis. FEBS Journal. 283(6): 986-92. (* denotes equal contribution)
Blok NB*, Tan D*, Wang RY*, Penczek PA, Baker D, DiMaio F, Rapoport TA, Walz T. (2015) Unique double-ring structure of the peroxisomal Pex1/Pex6 ATPase complex revealed by cryo-electron microscopy. Proc Natl Acad Sci U S A.112, E4017–4025 (* denotes equal contribution)
Watanabe S*, Tan D*, Lakshminarasimhan M, Washburn MP, Hong EJ, Walz T, Peterson CL. (2015) Structural analyses of the chromatin remodelling enzymes INO80-C and SWR-C. Nature Communication 6:7108 (* denotes equal contribution)
2014
Wang J, Tan D, Cai Y, Reinisch KM, Walz T, Ferro-Novick S. (2014) A requirement for ER-derived COPII vesicles in phagophore initiation. Autophagy 10(4): 708-709.
2013
Tan D*, Cai Y*, Wang J, Zhang J, Menon S, Chou HT, Ferro-Novick S, Reinisch KM, Walz T. (2013) The EM structure of the TRAPPIII complex leads to the identification of a requirement for COPII vesicles on the macroautophagy pathway. Proc Natl Acad Sci U S A 110(48): 19432-19437. (* denotes equal contribution)
Asenjo AB, Chatterjee C, Tan D, Depaoli V, Rice WJ, Diaz-Avalos R, Silvestry M, Sosa H. (2013) Structural model for tubulin recognition and deformation by Kinesin-13 microtubule depolymerases. Cell Rep 3(3): 759-68.
2009
Rath U, Rogers GC, Tan D, Gomez-Ferreria M, Buster DW, Sosa HJ, and Sharp DJ (2009) The Drosophila kinesin-13, KLP59D, impacts Pacman- and Flux-based chromosome movement. Mol. Biol. Of Cell 20(22): 4696-705.
2008
Tan D, Rice WJ, and Sosa HJ, (2008) Structure of the Kinesin-13-microtubule ring complex. Structure. 16(11): 1723-1729.
Mennella V, Tan DY, Buster DW, Asenjo A, Sosa HJ, and Sharp DJ (2009) Motor domain phosphorylation and regulation of the Drosophila kinesin 13, KLP10A. J. Cell Biol. 186(4): 481-90.
2006
Tan D, Asenjo AB, Mennella V, Sharp DJ, and Sosa H. (2006) Kinesin-13s form rings around microtubules. J. Cell Biol. 175(1): 25-31. (Cover Story)
2003
Zhang Q, Cui J, Huang X, Lin W, Tan DY, Xu JW, Yang YF, Zhang JQ, Zhang X, Li H, Zheng HY, Chen QX, Yan XG, Zheng K, Wan ZY, Huang JC. (2003) Morphology and Morphogenesis of Severe Acute Respiratory Syndrome (SARS)-associated Virus. Acta Biochimica ET Biophysica sinica. 35(6): 587-591.
