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Literature DB >> 29139171

Structural insights into a thermostable variant of human carbonic anhydrase II.

Kelsey M Kean¹, Joseph J Porter¹, Ryan A Mehl¹, P Andrew Karplus¹.

Abstract

Carbonic anhydrase is an enzyme of interest for many biotechnological developments including carbon sequestration. These applications often require harsh conditions, so there is a need for the development of thermostable variants. One of the most thermostable human carbonic anhydrase II (HCAIIts) variants was patented in 2006. Here, we report the ultra-high resolution crystal structure of HCAIIts. The structural changes seen are consistent with each of the six mutations involved acting largely independently and variously resulting in increased H-bonding, improved packing, and reduced side chain entropy loss on folding to yield the increased stability. We further suggest that for four of the mutations, improvements in backbone conformational energetics is also a contributor and that considerations of such conformational propensities of individual amino acids are often overlooked.

Entities: Chemical Gene Species

Keywords: carbon sequestration; conformational energetics; protein engineering; thermostability

Mesh：

Substances：

Year: 2017 PMID： 29139171 PMCID： PMC5775169 DOI： 10.1002/pro.3347

Source DB: PubMed Journal: Protein Sci ISSN： 0961-8368 Impact factor: 6.725

25 in total

1. Conformations of amino acids in proteins.

Authors: Sven Hovmöller; Tuping Zhou; Tomas Ohlson
Journal: Acta Crystallogr D Biol Crystallogr Date: 2002-04-26

2. Kinetic and structural characterization of thermostabilized mutants of human carbonic anhydrase II.

Authors: Zoë Fisher; Christopher D Boone; Shya Masri Biswas; Balasubramanian Venkatakrishnan; Mayank Aggarwal; Chingkuang Tu; Mavis Agbandje-McKenna; David Silverman; Robert McKenna
Journal: Protein Eng Des Sel Date: 2012-06-12 Impact factor: 1.650

Review 3. Engineering protein stability.

Authors: Ciarán O'Fágáin
Journal: Methods Mol Biol Date: 2011

Structural insights into a thermostable variant of human carbonic anhydrase II.

1. Conformations of amino acids in proteins.

2. Kinetic and structural characterization of thermostabilized mutants of human carbonic anhydrase II.

Review 3. Engineering protein stability.

4. Improved Incorporation of Noncanonical Amino Acids by an Engineered tRNA(Tyr) Suppressor.

5. Experimentally observed conformation-dependent geometry and hidden strain in proteins.

6. Linking crystallographic model and data quality.

7. High thermodynamic stability of parametrically designed helical bundles.

8. Features and development of Coot.

9. Refined structure of human carbonic anhydrase II at 2.0 A resolution.

10. Principles for designing ideal protein structures.

1. Structural and thermodynamic analysis of factors governing the stability and thermal folding/unfolding of SazCA.

2. In silico Design of Laccase Thermostable Mutants From Lacc 6 of Pleurotus Ostreatus.