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- The epimeric (±;)-3-aminocyclohexanecarboxylic acids. F. R. Hewgill, P. R. Jefferies
, J. Chem. Soc.
, 1955
, 2767
- The self-assembly of cystine-bridged γ-peptide-based cyclic peptide–dendron hybrids. Zhizhong Lin, Liangchun Li, Yujin Yang, Hongmei Zhan, Yu Hu, Zhiming Zhou, Jin Zhu, Qiwei Wang, Jingen Deng
, Org. Biomol. Chem.
, 2013
, 11
, 8443
- Synthesis of peptides containing cis- or trans-3- or 4-aminocyclohexane-carboxylic acid residues. Vinko Škarić, Miće Kovačević, Djurdja Škarić
, J. Chem. Soc., Perkin Trans. 1
, 1976
, 1199
- Self-assembling Venturi-like peptide nanotubes. Alberto Fuertes, Haxel Lionel Ozores, Manuel Amorín, Juan R. Granja
, Nanoscale
, 2017
, 9
, 748
- Theoretical design of the cyclic lipopeptide nanotube as a molecular channel in the lipid bilayer, molecular dynamics and quantum mechanics approach. Mohammad Khavani, Mohammad Izadyar, Mohammad Reza Housaindokht
, Phys. Chem. Chem. Phys.
, 2015
, 17
, 25536
- Molecular dynamics simulations for designing biomimetic pores based on internally functionalized self-assembling α,γ-peptide nanotubes. Martín Calvelo, Saulo Vázquez, Rebeca García-Fandiño
, Phys. Chem. Chem. Phys.
, 2015
, 17
, 28586
- Towards functional bionanomaterials based on self-assembling cyclic peptide
nanotubes. Roberto J. Brea, César Reiriz, Juan R. Granja
, Chem. Soc. Rev.
, 2010
, 39
, 1448
- Advances in hybrid peptide-based self-assembly systems and their applications. Alpana Boruah, Arup Roy
, Biomater. Sci.
, 2022
, 10
, 4694
- Self-assembling α,γ-cyclic peptides that generate cavities with tunable properties. Nuria Rodríguez-Vázquez, Rebeca García-Fandiño, Manuel Amorín, Juan R. Granja
, Chem. Sci.
, 2016
, 7
, 183
- Design and properties of functional nanotubes from the self-assembly of cyclic peptide templates. Robert Chapman, Maarten Danial, Ming Liang Koh, Katrina A. Jolliffe, Sébastien Perrier
, Chem. Soc. Rev.
, 2012
, 41
, 6023