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Krug, L. (March 2016) The Role of Transposable Elements in TDP-43-Mediated Neurodegeneration. PhD thesis, Cold Spring Harbor Laboratory.
Krug, L., Chatterjee, N., Borges-Monroy, R., Hearn, S., Liao, W., Morrill, K., Prazak, L., Rozhkov, N., Theodorou, D., Hammell, M., Dubnau, J. (2017) Datasets from "Krug, L., Chatterjee, N., Borges-Monroy, R., Hearn, S., Liao, W. W., Morrill, K., Prazak, L., Rozhkov, N., Theodorou, D., Hammell, M., Dubnau, J. (2017) Retrotransposon activation contributes to neurodegeneration in a Drosophila TDP-43 model of ALS. PLoS Genet". [Dataset]
Krug, L., Chatterjee, N., Borges-Monroy, R., Hearn, S., Liao, W. W., Morrill, K., Prazak, L., Rozhkov, N., Theodorou, D., Hammell, M., Dubnau, J. (March 2017) Retrotransposon activation contributes to neurodegeneration in a Drosophila TDP-43 model of ALS. PLoS Genet, 13 (3). e1006635. ISSN 1553-7390 (Public Dataset)
Tam, O. H., Rozhkov, N. V., Shaw, R., Kim, D., Hubbard, I., Fennessey, S., Propp, N., Fagegaltier, D., Harris, B. T., Ostrow, L. W., Phatnani, H., Ravits, J., Dubnau, J., Gale Hammell, M. (October 2019) Postmortem Cortex Samples Identify Distinct Molecular Subtypes of ALS: Retrotransposon Activation, Oxidative Stress, and Activated Glia. Cell Rep, 29 (5). 1164-1177.e5.