Adam H. Marblestone, Ph.D.
Affiliations: | 2014 | Biophysics | Harvard University, Cambridge, MA, United States |
Area:
Computational GeneticsGoogle:
"Adam Marblestone"Mean distance: 9.43 | S | N | B | C | P |
Parents
Sign in to add mentor| George M. Church | grad student | 2014 | Harvard | |
| (Designing scalable biological interfaces.) | ||||
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Publications
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| Zador A, Escola S, Richards B, et al. (2023) Catalyzing next-generation Artificial Intelligence through NeuroAI. Nature Communications. 14: 1597 |
| Alon S, Goodwin DR, Sinha A, et al. (2021) Expansion sequencing: Spatially precise in situ transcriptomics in intact biological systems. Science (New York, N.Y.). 371 |
| Rodriques SG, Marblestone AH, Boyden ES. (2019) A theoretical analysis of single molecule protein sequencing via weak binding spectra. Plos One. 14: e0212868 |
| de Paz AM, Cybulski TR, Marblestone AH, et al. (2018) High-resolution mapping of DNA polymerase fidelity using nucleotide imbalances and next-generation sequencing. Nucleic Acids Research |
| Wu J, de Paz A, Zamft BM, et al. (2017) DNA binding strength increases the processivity and activity of a Y-Family DNA polymerase. Scientific Reports. 7: 4756 |
| Chen F, Wassie AT, Cote AJ, et al. (2016) Nanoscale imaging of RNA with expansion microscopy. Nature Methods. 13: 679-84 |
| Cybulski TR, Glaser JI, Marblestone AH, et al. (2014) Spatial information in large-scale neural recordings. Frontiers in Computational Neuroscience. 8: 172 |
| Lee JH, Daugharthy ER, Scheiman J, et al. (2014) Highly multiplexed subcellular RNA sequencing in situ. Science (New York, N.Y.). 343: 1360-3 |
| Marblestone AH, Zamft BM, Maguire YG, et al. (2013) Physical principles for scalable neural recording. Frontiers in Computational Neuroscience. 7: 137 |
| Payne AC, Andregg M, Kemmish K, et al. (2013) Molecular threading: mechanical extraction, stretching and placement of DNA molecules from a liquid-air interface. Plos One. 8: e69058 |