Here are all my published papers and works in progress.

See also for a complete list including published, submitted and working manuscripts.

Notice that the search results on are not complete.

Working Papers

☱ J. Gaither, Y.-H. Lin, and R. Bundschuh (2016)
RBPBind: quantitative prediction of protein-RNA interactions
arXiv:1611.01245

Publications

[14] S. Das, Y.-H. Lin, R. M. Vernon, J. D. Forman-Kay, and H. S. Chan (2020)
Comparative roles of charge, 𝜋, and hydrophobic interactions in sequence-dependent phase separation of intrinsically disordered proteins
Proc. Natl. Acad. Sci. U.S.A. 117 28795–28805 [13] A. N. Amin* Y.-H. Lin*, S. Das, and H. S. Chan (2020)
Analytical theory for sequence-specific binary fuzzy complexes of charged intrinsically disordered proteins
J. Phys. Chem. B 124 6709–6720 (*equal contribution; selected supplementary cover) [12] Y.-H. Lin, J. P. Brady, H. S. Chan, and K. Ghosh (2020)
A unified analytical theory of heteropolymers for sequence-specific phase behaviors of polyelectrolytes and polyampholytes
J. Chem. Phys. 152, 178101 [11] H. Cinar, R. Oliva, Y.-H. Lin, X. Chen, M. Zhang, H. S. Chan, and R. H. A. Winter (2020)
Pressure sensitivity of SynGAP/PSD-95 condensates as a model for postsynaptic densities and its biophysical and neurological ramifications
Chem. Eur. J. 26, 11024–11031 (cover feature) [10] S. Das, A. N. Amin, Y.-H. Lin, and H. S. Chan (2018)
Coarse-grained residue-based models of disordered protein condensates: utility and limitations of simple charge pattern parameters
Phys. Chem. Chem. Phys. 20, 28558–28574 [9] Y.-H. Lin, J. D. Forman-Kay, and H. S. Chan (2018)
Theories for sequence-dependent phase behaviors of biomolecular condensates
Biochemistry 57, 2499–2508 [8] S. Das, A. Eisen, Y.-H. Lin, and H. S. Chan (2018)
A lattice model of charge-pattern-dependent polyampholyte phase separation
J. Phys. Chem. B 122, 5418–5431 [7] Y.-H. Lin, J. P. Brady, J. D. Forman-Kay, and H. S. Chan (2017)
Charge pattern matching as a "fuzzy" mode of molecular recognition for the functional phase separations of intrinsically disordered proteins
New J. Phys. 19, 115003 [6] J. P. Brady, P. J. Farber, A. Sekhar, Y.-H. Lin, R. Huang, A. Bah, T. J. Nott, H. S. Chan, A. J. Baldwin, J. D. Forman-Kay, and L. E. Kay (2017)
Structural and hydrodynamic properties of an intrinsically disordered region of a germ-cell specific protein upon phase separation
Proc. Natl. Acad. Sci. U.S.A. 114, E8194–E8203 [5] Y.-H. Lin and H. S. Chan (2017)
Phase separation and single-chain compactness of charged disordered proteins are strongly correlated
Biophys. J. 112, 2043–2046 [4] Y.-H. Lin, J. Song, J. D. Forman-Kay, and H. S. Chan (2017)
Random-phase-approximation theory for sequence-dependent, biologically functional liquid-liquid phase separation of intrinsically disordered proteins
J. Mol. Liq. 228, 176–193 [3] Y.-H. Lin, J. D. Forman-Kay, and H. S. Chan (2016)
Sequence-specific polyampholyte phase separation in membraneless organelles
Phys. Rev. Lett. 117, 178101 [2] Y.-H. Lin and R. Bundschuh (2015)
RNA structure generates natural cooperativity between single-stranded RNA binding proteins targeting 5' and 3'UTRs
Nucleic Acids Res. 43, 1160–1169 [1] Y.-H. Lin and R. Bundschuh (2013)
Interplay between single-stranded binding proteins on RNA secondary structure
Phys. Rev. E 88, 052707