Assessing Computational Amino Acid β-Turn Propensities with a Phage-Displayed Combinatorial Library and Directed Evolution

Hung Ju Hsu; Hong Ju Chang; Hung Pin Peng; Shan Sheng Huang; Ming Yen Lin; An Suei Yang

doi:10.1016/j.str.2006.08.006

Assessing Computational Amino Acid β-Turn Propensities with a Phage-Displayed Combinatorial Library and Directed Evolution

Hung Ju Hsu
, Hong Ju Chang
, Hung Pin Peng
, Shan Sheng Huang
, Ming Yen Lin
, An Suei Yang

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

26 Citations (Scopus)

Abstract

Structure propensities of amino acids are important determinants in guiding proteins' local and global structure formation. We constructed a phage display library-a hexa-HIS tag upstream of a CXXC (X stands for any of the 20 natural amino acids) motif appending N-terminal to the minor capsid protein pIII of M13KE filamentous phage-and developed a novel directed-evolution procedure to select for amino acid sequences forming increasingly stable β-turns in the disulfide-bridged CXXC motif. The sequences that emerged from the directed-evolution cycles were in good agreement with type II β-turn propensities derived from surveys of known protein structures, in particular, Pro-Gly forming a type II β-turn. The agreement strongly supported the notion that β-turn formation plays an active role in initiating local structure folding in proteins.

Original language	English
Pages (from-to)	1499-1510
Number of pages	12
Journal	Structure
Volume	14
Issue number	10
DOIs	https://doi.org/10.1016/j.str.2006.08.006
Publication status	Published - Oct 2006
Externally published	Yes

ASJC Scopus subject areas

Structural Biology
Molecular Biology

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10.1016/j.str.2006.08.006

Cite this

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title = "Assessing Computational Amino Acid β-Turn Propensities with a Phage-Displayed Combinatorial Library and Directed Evolution",

abstract = "Structure propensities of amino acids are important determinants in guiding proteins' local and global structure formation. We constructed a phage display library-a hexa-HIS tag upstream of a CXXC (X stands for any of the 20 natural amino acids) motif appending N-terminal to the minor capsid protein pIII of M13KE filamentous phage-and developed a novel directed-evolution procedure to select for amino acid sequences forming increasingly stable β-turns in the disulfide-bridged CXXC motif. The sequences that emerged from the directed-evolution cycles were in good agreement with type II β-turn propensities derived from surveys of known protein structures, in particular, Pro-Gly forming a type II β-turn. The agreement strongly supported the notion that β-turn formation plays an active role in initiating local structure folding in proteins.",

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AU - Chang, Hong Ju

AU - Peng, Hung Pin

AU - Huang, Shan Sheng

AU - Lin, Ming Yen

AU - Yang, An Suei

PY - 2006/10

Y1 - 2006/10

N2 - Structure propensities of amino acids are important determinants in guiding proteins' local and global structure formation. We constructed a phage display library-a hexa-HIS tag upstream of a CXXC (X stands for any of the 20 natural amino acids) motif appending N-terminal to the minor capsid protein pIII of M13KE filamentous phage-and developed a novel directed-evolution procedure to select for amino acid sequences forming increasingly stable β-turns in the disulfide-bridged CXXC motif. The sequences that emerged from the directed-evolution cycles were in good agreement with type II β-turn propensities derived from surveys of known protein structures, in particular, Pro-Gly forming a type II β-turn. The agreement strongly supported the notion that β-turn formation plays an active role in initiating local structure folding in proteins.

AB - Structure propensities of amino acids are important determinants in guiding proteins' local and global structure formation. We constructed a phage display library-a hexa-HIS tag upstream of a CXXC (X stands for any of the 20 natural amino acids) motif appending N-terminal to the minor capsid protein pIII of M13KE filamentous phage-and developed a novel directed-evolution procedure to select for amino acid sequences forming increasingly stable β-turns in the disulfide-bridged CXXC motif. The sequences that emerged from the directed-evolution cycles were in good agreement with type II β-turn propensities derived from surveys of known protein structures, in particular, Pro-Gly forming a type II β-turn. The agreement strongly supported the notion that β-turn formation plays an active role in initiating local structure folding in proteins.

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Assessing Computational Amino Acid β-Turn Propensities with a Phage-Displayed Combinatorial Library and Directed Evolution

Abstract

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