Triblock protein copolymers forming supramolecular nanotapes and pH-Responsive gels

Aernout A. Martens; Giuseppe Portale; Marc W.T. Werten; Renko J. de Vries; Gerrit Eggink; Martien A. Cohen Stuart; Frits A. de Wolf

doi:10.1021/ma801955q

Triblock protein copolymers forming supramolecular nanotapes and pH-Responsive gels

Aernout A. Martens
, Giuseppe Portale
, Marc W.T. Werten
, Renko J. de Vries
, Gerrit Eggink
, Martien A. Cohen Stuart
, Frits A. de Wolf (Corresponding author)

Research output: Contribution to journal › Article › Academic › peer-review

54 Citations (Scopus)

Abstract

We report on the biosynthesis of 65 kDa A-B-A triblock copolymers consisting of pH-responsive (acidic) silklike blocks and nonresponsive collagenlike blocks, and we show that at pH values where the silklike blocks become uncharged, these polymers form transparent high-modulus gels, that is, 7-15 kPa at 8 g • L^-1, that consist of supramolecular nanotapes with a height of 2.8 nm, a width of ∼14 nm, and an average length of > 10 μm. At the concentrations employed, both of these protein triblocks essentially form the same structure, irrespective of block order. The amount of product isolated from the extracellular medium is in the gram per liter range. This high yield makes various applications of this promising class of biocompatible materials possible.

Original language	English
Pages (from-to)	1002-1009
Number of pages	8
Journal	Macromolecules
Volume	42
Issue number	4
DOIs	https://doi.org/10.1021/ma801955q
Publication status	Published - 24 Feb 2009

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title = "Triblock protein copolymers forming supramolecular nanotapes and pH-Responsive gels",

abstract = "We report on the biosynthesis of 65 kDa A-B-A triblock copolymers consisting of pH-responsive (acidic) silklike blocks and nonresponsive collagenlike blocks, and we show that at pH values where the silklike blocks become uncharged, these polymers form transparent high-modulus gels, that is, 7-15 kPa at 8 g • L-1, that consist of supramolecular nanotapes with a height of 2.8 nm, a width of ∼14 nm, and an average length of > 10 μm. At the concentrations employed, both of these protein triblocks essentially form the same structure, irrespective of block order. The amount of product isolated from the extracellular medium is in the gram per liter range. This high yield makes various applications of this promising class of biocompatible materials possible.",

author = "Martens, \{Aernout A.\} and Giuseppe Portale and Werten, \{Marc W.T.\} and \{de Vries\}, \{Renko J.\} and Gerrit Eggink and \{Cohen Stuart\}, \{Martien A.\} and \{de Wolf\}, \{Frits A.\}",

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doi = "10.1021/ma801955q",

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T1 - Triblock protein copolymers forming supramolecular nanotapes and pH-Responsive gels

AU - Martens, Aernout A.

AU - Portale, Giuseppe

AU - Werten, Marc W.T.

AU - de Vries, Renko J.

AU - Eggink, Gerrit

AU - Cohen Stuart, Martien A.

AU - de Wolf, Frits A.

PY - 2009/2/24

Y1 - 2009/2/24

N2 - We report on the biosynthesis of 65 kDa A-B-A triblock copolymers consisting of pH-responsive (acidic) silklike blocks and nonresponsive collagenlike blocks, and we show that at pH values where the silklike blocks become uncharged, these polymers form transparent high-modulus gels, that is, 7-15 kPa at 8 g • L-1, that consist of supramolecular nanotapes with a height of 2.8 nm, a width of ∼14 nm, and an average length of > 10 μm. At the concentrations employed, both of these protein triblocks essentially form the same structure, irrespective of block order. The amount of product isolated from the extracellular medium is in the gram per liter range. This high yield makes various applications of this promising class of biocompatible materials possible.

AB - We report on the biosynthesis of 65 kDa A-B-A triblock copolymers consisting of pH-responsive (acidic) silklike blocks and nonresponsive collagenlike blocks, and we show that at pH values where the silklike blocks become uncharged, these polymers form transparent high-modulus gels, that is, 7-15 kPa at 8 g • L-1, that consist of supramolecular nanotapes with a height of 2.8 nm, a width of ∼14 nm, and an average length of > 10 μm. At the concentrations employed, both of these protein triblocks essentially form the same structure, irrespective of block order. The amount of product isolated from the extracellular medium is in the gram per liter range. This high yield makes various applications of this promising class of biocompatible materials possible.

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U2 - 10.1021/ma801955q

DO - 10.1021/ma801955q

M3 - Article

AN - SCOPUS:66549096373

SN - 0024-9297

VL - 42

SP - 1002

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JO - Macromolecules

JF - Macromolecules

IS - 4

ER -

Triblock protein copolymers forming supramolecular nanotapes and pH-Responsive gels

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