| 1 |
Shin, Y. (2022). Rich phase separation behavior of biomolecules. Mol. Cells 45, 6-15./
|
|
| 2 |
Baek, K.Y., Kim, S., and Koh, H.R. (2022). Molecular tension probes to quantify cell-generated mechanical forces. Mol. Cells 45, 26-32./
|
|
| 3 |
Jeong, D. and Kim, D. (2022). Recent developments in correlative super-resolution fluorescence microscopy and electron microscopy. Mol. Cells 45, 41-50./
|
|
| 4 |
Yang, T., Park, C., Rah, S.H., and Shon, M.J. (2022). Nano-precision tweezers for mechanosensitive proteins and beyond. Mol. Cells 45, 16-25./
|
|
| 5 |
Yeou, S. and Lee, N.K. (2022). Single-molecule methods for investigating the double-stranded DNA bendability. Mol. Cells 45, 33-40./
|
|
| 6 |
Hong, N. and Nam, Y. (2022). Neurons-on-a-chip: in vitro neurotools. Mol. Cells 45, 76-83./
|
|
| 7 |
Lee, J.H. and Sun, W. (2022). Neural organoids, a versatile model for neuroscience. Mol. Cells 45, 53-64./
|
|
| 8 |
Park, S., Ryoo, J., and Kim, D. (2022). Neural and genetic basis of evasion, approach and predation. Mol. Cells 45, 93-97./
|
|
| 9 |
Sa, M., Park, M.G., and Lee, C.J. (2022). Role of hypothalamic reactive astrocytes in diet-induced obesity. Mol. Cells 45, 65-75./
|
|
| 10 |
Rah, J.C. and Choi, J.H. (2022). Finding needles in a haystack with light: resolving the microcircuit of the brain with fluorescence microscopy. Mol. Cells 45, 84-92./
|
|