北京大学定量生物学中心

代表性论文：

1.Liu, F., A.H. Morrison, and T. Gregor (2013). ”Dynamic interpretation of transcription factor concentration in the Drosophila segmentation gene network”, PNAS, 110 (17), 6724-6729. Research highlight in Nature Reviews Genetics.

2.Liu, F., D.G. Du, A.A. Fuller, J.E. Davoren, P. Wipf, J.W. Kelly, and M. Gruebele (2008). “An experimental survey of the transition between two-state and downhill protein folding scenarios”, PNAS, 105, 2369-2374

3.Fuller, A.A., D.G. Du, F. Liu, J.E. Davoren, G. Kroon, H. J. Dyson, E.T. Powers, P. Wip, M. Gruebele, and J.W. Kelly (2009). “Evaluating β-Turn mimics as β-Sheet folding nucleators”. PNAS, 106,11067-11072

4.Liu, F., Y.G. Gao, and M. Gruebele (2010). “A survey of lambda repressor fragments from two-state to downhill folding”. Journal Molecular Biology, 397(3), 789-9. 

5.Liu, F., M. Nakaema, and M. Gruebele (2009). “The transition state transit time of WW domain folding is controlled by energy landscape roughness”. Journal of Chemical Physics, 131, 19,195101-195110. JCP Editor's Choice – 2009

6.Liu, F. and M. Gruebele (2008). “Downhill dynamics and the molecular phase in protein folding”. Chemical Physics Letters, Frontiers Article, 461,1-8. Invited review, cover highlight

7.Liu, F., Y.G. Gao, and M. Gruebele (2010). “A survey of lambda repressor fragments from two-state to downhill folding”. Journal Molecular Biology, 397(3), 789-9

8.Liu, F., C. Maynard, G. Scott, A. Melnykov, K.B. Hall, and M. Gruebele (2010). “A natural missing link between activated and downhill protein folding scenarios”. Physical Chemistry Chemical Physics, 12, 3542 – 3549.

9.Liu, F., C. Dumont, Y.J. Zhu, F. Gai and M. Gruebele (2009). “A one-dimensional free energy surface does not account for two-probe folding kinetics of protein 3D”. Journal of Chemical Physics, 130,6-11.

10.Liu, F. and M. Gruebele (2007). “Tuning λ6-85 towards downhill folding near the unfolding transition midpoint”, Journal Molecular Biology, 370 (3), 574-584.

11.Freddolino, P.L., F. Liu, M. Gruebele, and K. Schulten (2008). “Ten-microsecond MD simulation of a fast-folding WW domain”. Biophysical Journal, 94, L75-L77.

12.Petkova, MD, Little, SC, F. Liu, and T. Gregor (2014). “Maternal origins of developmental reproducibility”, Current Biology, 24(11), 1283-1288

重离子物理研究所

代表性论文

Wang,P.F., Wang, M., F. Liu.*; et al., Y.G. Wang* (2018). “Ultrafast ion sieving using nanoporous polymeric membranes”. Nature communications, 9(1), 569.

Yang, Z., Wu, X.X., N. Yang, F. Liu* (2018). “Noise transmission during the dynamic pattern formation in fly embryos”. Quantitative Biology, https://doi.org/10.1007/s40484-018-0135-8

Wang, W.K., Tao, K., J. Wang, et al., L. Zhang, F. Liu* (2017). “Exploring the inhibitory effect of membrane tension on cell polarization”. PLOS Computational Biology, 13(1): e1005354

Wen, Q.; D.X Yan, F. Liu.*; et al., Y.G. Wang*（2016），Highly selective ionic transport through subnanometer pores in polymer films, Advanced Functional Material, 26(32),5796.

Liang,Y., G. Yang, F. Liu.*; Y.G. Wang（2016）, Monte Carlo simulation of ionizing radiation induced DNA strand breaks utilizing coarse grained high-order chromatin structures, Phys Med Biol., 61(1), 445-60.

Wang, J., G. Yang, F. Liu* (2015), The application of physics in the study of cell polarity during tumor cell migration, Acta Phys. Sin. 64(5): 058707, Invited Review

Petkova, MD, Little, SC, F. Liu, and T. Gregor (2014). “Maternal origins of developmental reproducibility”, Current Biology, 24(11), 1283-1288

Liu, F., A.H. Morrison, and T. Gregor (2013). ”Dynamic interpretation of transcription factor concentration in the Drosophila segmentation gene network”, PNAS, 110 (17), 6724- Research highlight in Nature Reviews Genetics.

Liu, F., Y.G. Gao, and M. Gruebele (2010). “A survey of lambda repressor fragments from two-state to downhill folding”. Journal Molecular Biology, 397(3), 789-9.

Liu, F., Y.G. Gao, and M. Gruebele (2010). “A survey of lambda repressor fragments from two-state to downhill folding”. Journal Molecular Biology, 397(3), 789-9

Liu, F., C. Maynard, G. Scott, A. Melnykov, K.B. Hall, and M. Gruebele (2010). “A natural missing link between activated and downhill protein folding scenarios”. Physical Chemistry Chemical Physics, 12, 3542 – 3549.

Liu, F., M. Nakaema, and M. Gruebele (2009). “The transition state transit time of WW domain folding is controlled by energy landscape roughness”. Journal of Chemical Physics, 131, 19,195101-195110. JCP Editor’s Choice – 2009

Liu, F., C. Dumont, Y.J. Zhu, F. Gai and M. Gruebele (2009). “A one-dimensional free energy surface does not account for two-probe folding kinetics of protein 3D”. Journal of Chemical Physics, 130,6-11

Fuller, A.A., D.G. Du, F. Liu, J.E. Davoren, G. Kroon, H. J. Dyson, E.T. Powers, P. Wip, M. Gruebele, and J.W. Kelly (2009). “Evaluating β-Turn mimics as β-Sheet folding nucleators”. PNAS, 106,11067-11072

Liu, F., D.G. Du, A.A. Fuller, J.E. Davoren, P. Wipf, J.W. Kelly, and M. Gruebele (2008). “An experimental survey of the transition between two-state and downhill protein folding scenarios”, PNAS, 105, 2369-2374

Liu, F. and M. Gruebele (2008). “Downhill dynamics and the molecular phase in protein folding”. Chemical Physics Letters, Frontiers Article, 461,1-8. Invited review, cover highlight

Freddolino, P.L., F. Liu, M. Gruebele, and K. Schulten (2008). “Ten-microsecond MD simulation of a fast-folding WW domain”. Biophysical Journal, 94, L75-L77.

Liu, F. and M. Gruebele (2007). “Tuning λ6-85 towards downhill folding near the unfolding transition midpoint”, Journal Molecular Biology, 370 (3), 574-584.