TY - JOUR
T1 - Solid-state packing dictates the unexpected solubility of aromatic peptides
AU - Bera, Santu
AU - Dong, Xuewei
AU - Krishnarjuna, Bankala
AU - Raab, Shannon A.
AU - Hales, David A.
AU - Ji, Wei
AU - Tang, Yiming
AU - Shimon, Linda J.W.
AU - Ramamoorthy, Ayyalusamy
AU - Clemmer, David E.
AU - Wei, Guanghong
AU - Gazit, Ehud
N1 - Publisher Copyright:
© 2021 The Authors
PY - 2021/4/21
Y1 - 2021/4/21
N2 - The understanding and prediction of the solubility of biomolecules, even of the simplest ones, reflect an open question and unmet need. Short aromatic tripeptides are among the most highly aggregative biomolecules. However, in marked contrast, Ala-Phe-Ala (AFA) was surprisingly found to be non-aggregative and could be solubilized at millimolar concentrations. Here, aiming to uncover the underlying molecular basis of its high solubility, we explore in detail the solubility, aggregation propensity, and atomic-level structure of the tripeptide. We demonstrate an unexpectedly high water solubility of AFA reaching 672 mM, two orders of magnitude higher than reported previously. The single crystal structure reveals an anti-parallel β sheet conformation devoid of any aromatic interactions. This study provides clear mechanistic insight into the structural basis of solubility and suggests a simple and feasible tool for its estimation, bearing implications for design of peptide drugs, peptides materials, and advancement of peptide nanotechnology.
AB - The understanding and prediction of the solubility of biomolecules, even of the simplest ones, reflect an open question and unmet need. Short aromatic tripeptides are among the most highly aggregative biomolecules. However, in marked contrast, Ala-Phe-Ala (AFA) was surprisingly found to be non-aggregative and could be solubilized at millimolar concentrations. Here, aiming to uncover the underlying molecular basis of its high solubility, we explore in detail the solubility, aggregation propensity, and atomic-level structure of the tripeptide. We demonstrate an unexpectedly high water solubility of AFA reaching 672 mM, two orders of magnitude higher than reported previously. The single crystal structure reveals an anti-parallel β sheet conformation devoid of any aromatic interactions. This study provides clear mechanistic insight into the structural basis of solubility and suggests a simple and feasible tool for its estimation, bearing implications for design of peptide drugs, peptides materials, and advancement of peptide nanotechnology.
KW - Aromatic peptide
KW - NMR spectroscopy
KW - aggregation
KW - crystal packing-solubility relationship
KW - mass spectrometry
UR - http://www.scopus.com/inward/record.url?scp=85104393565&partnerID=8YFLogxK
U2 - 10.1016/j.xcrp.2021.100391
DO - 10.1016/j.xcrp.2021.100391
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C2 - 33928264
AN - SCOPUS:85104393565
SN - 2666-3864
VL - 2
JO - Cell Reports Physical Science
JF - Cell Reports Physical Science
IS - 4
M1 - 100391
ER -