The rational design of a peptide-based hydrogel responsive to H2S

Raoul Peltier; Ganchao Chen; Haipeng Lei; Mei Zhang; Liqian Gao; Su Seong Lee; Zuankai Wang; Hongyan Sun

doi:10.1039/c5cc06889d

The rational design of a peptide-based hydrogel responsive to H₂S

Raoul Peltier, Ganchao Chen, Haipeng Lei, Mei Zhang, Liqian Gao, Su Seong Lee, Zuankai Wang, Hongyan Sun^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

40 Citations (Scopus)

Abstract

The development of hydrogels that are responsive to external stimuli in a well-controlled manner is important for numerous biomedical applications. Herein we reported the first example of a hydrogel responsive to hydrogen sulphide (H₂S). H₂S is an important gasotransmitter whose deregulation has been associated with a number of pathological conditions. Our hydrogel design is based on the functionalization of an ultrashort hydrogelating peptide sequence with an azidobenzyl moiety, which was reported to react with H₂S selectively under physiological conditions. The resulting peptide was able to produce hydrogels at a concentration as low as 0.1 wt%. It could then be fully degraded in the presence of excess H₂S. We envision that the novel hydrogel developed in this study may provide useful tools for biomedical research.

Original language	English
Pages (from-to)	17273-17276
Journal	Chemical Communications
Volume	51
Issue number	97
Online published	2 Oct 2015
DOIs	https://doi.org/10.1039/c5cc06889d
Publication status	Published - 18 Dec 2015

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title = "The rational design of a peptide-based hydrogel responsive to H2S",

abstract = "The development of hydrogels that are responsive to external stimuli in a well-controlled manner is important for numerous biomedical applications. Herein we reported the first example of a hydrogel responsive to hydrogen sulphide (H2S). H2S is an important gasotransmitter whose deregulation has been associated with a number of pathological conditions. Our hydrogel design is based on the functionalization of an ultrashort hydrogelating peptide sequence with an azidobenzyl moiety, which was reported to react with H2S selectively under physiological conditions. The resulting peptide was able to produce hydrogels at a concentration as low as 0.1 wt%. It could then be fully degraded in the presence of excess H2S. We envision that the novel hydrogel developed in this study may provide useful tools for biomedical research.",

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AU - Peltier, Raoul

AU - Chen, Ganchao

AU - Lei, Haipeng

AU - Zhang, Mei

AU - Gao, Liqian

AU - Lee, Su Seong

AU - Wang, Zuankai

AU - Sun, Hongyan

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N2 - The development of hydrogels that are responsive to external stimuli in a well-controlled manner is important for numerous biomedical applications. Herein we reported the first example of a hydrogel responsive to hydrogen sulphide (H2S). H2S is an important gasotransmitter whose deregulation has been associated with a number of pathological conditions. Our hydrogel design is based on the functionalization of an ultrashort hydrogelating peptide sequence with an azidobenzyl moiety, which was reported to react with H2S selectively under physiological conditions. The resulting peptide was able to produce hydrogels at a concentration as low as 0.1 wt%. It could then be fully degraded in the presence of excess H2S. We envision that the novel hydrogel developed in this study may provide useful tools for biomedical research.

AB - The development of hydrogels that are responsive to external stimuli in a well-controlled manner is important for numerous biomedical applications. Herein we reported the first example of a hydrogel responsive to hydrogen sulphide (H2S). H2S is an important gasotransmitter whose deregulation has been associated with a number of pathological conditions. Our hydrogel design is based on the functionalization of an ultrashort hydrogelating peptide sequence with an azidobenzyl moiety, which was reported to react with H2S selectively under physiological conditions. The resulting peptide was able to produce hydrogels at a concentration as low as 0.1 wt%. It could then be fully degraded in the presence of excess H2S. We envision that the novel hydrogel developed in this study may provide useful tools for biomedical research.

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