1xrk

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(New page: 200px<br /><applet load="1xrk" size="450" color="white" frame="true" align="right" spinBox="true" caption="1xrk, resolution 1.50&Aring;" /> '''Crystal structure of...)
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caption="1xrk, resolution 1.50&Aring;" />
caption="1xrk, resolution 1.50&Aring;" />
'''Crystal structure of a mutant bleomycin binding protein from Streptoalloteichus hindustanus displaying increased thermostability'''<br />
'''Crystal structure of a mutant bleomycin binding protein from Streptoalloteichus hindustanus displaying increased thermostability'''<br />
==Overview==
==Overview==
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Limited thermostability of antibiotic resistance markers has restricted, genetic research in the field of extremely thermophilic Archaea and, bacteria. In this study, we used directed evolution and selection in the, thermophilic bacterium Thermus thermophilus HB27 to find thermostable, variants of a bleomycin-binding protein from the mesophilic bacterium, Streptoalloteichus hindustanus. In a single selection round, we identified, eight clones bearing five types of double mutated genes that provided T., thermophilus transformants with bleomycin resistance at 77 degrees C, while the wild-type gene could only do so up to 65 degrees C. Only six, different amino acid positions were altered, three of which were glycine, residues. All variant proteins were produced in Escherichia coli and, analyzed biochemically for thermal stability and functionality at high, temperature. A synthetic mutant resistance gene with low GC content was, designed that combined four substitutions. The encoded protein showed up, to 17 degrees C increased thermostability and unfolded at 85 degrees C in, the absence of bleomycin, whereas in its presence the protein unfolded at, 100 degrees C. Despite these highly thermophilic properties, this mutant, was still able to function normally at mesophilic temperatures in vivo., The mutant protein was co-crystallized with bleomycin, and the structure, of the binary complex was determined to a resolution of 1.5 A. Detailed, structural analysis revealed possible molecular mechanisms of, thermostabilization and enhanced antibiotic binding, which included the, introduction of an intersubunit hydrogen bond network, improved, hydrophobic packing of surface indentations, reduction of loop, flexibility, and alpha-helix stabilization. The potential applicability of, the thermostable selection marker is discussed.
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Limited thermostability of antibiotic resistance markers has restricted genetic research in the field of extremely thermophilic Archaea and bacteria. In this study, we used directed evolution and selection in the thermophilic bacterium Thermus thermophilus HB27 to find thermostable variants of a bleomycin-binding protein from the mesophilic bacterium Streptoalloteichus hindustanus. In a single selection round, we identified eight clones bearing five types of double mutated genes that provided T. thermophilus transformants with bleomycin resistance at 77 degrees C, while the wild-type gene could only do so up to 65 degrees C. Only six different amino acid positions were altered, three of which were glycine residues. All variant proteins were produced in Escherichia coli and analyzed biochemically for thermal stability and functionality at high temperature. A synthetic mutant resistance gene with low GC content was designed that combined four substitutions. The encoded protein showed up to 17 degrees C increased thermostability and unfolded at 85 degrees C in the absence of bleomycin, whereas in its presence the protein unfolded at 100 degrees C. Despite these highly thermophilic properties, this mutant was still able to function normally at mesophilic temperatures in vivo. The mutant protein was co-crystallized with bleomycin, and the structure of the binary complex was determined to a resolution of 1.5 A. Detailed structural analysis revealed possible molecular mechanisms of thermostabilization and enhanced antibiotic binding, which included the introduction of an intersubunit hydrogen bond network, improved hydrophobic packing of surface indentations, reduction of loop flexibility, and alpha-helix stabilization. The potential applicability of the thermostable selection marker is discussed.
==About this Structure==
==About this Structure==
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1XRK is a [http://en.wikipedia.org/wiki/Single_protein Single protein] structure of sequence from [http://en.wikipedia.org/wiki/Streptoalloteichus_hindustanus Streptoalloteichus hindustanus] with SO4 and BLM as [http://en.wikipedia.org/wiki/ligands ligands]. Full crystallographic information is available from [http://ispc.weizmann.ac.il/oca-bin/ocashort?id=1XRK OCA].
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1XRK is a [http://en.wikipedia.org/wiki/Single_protein Single protein] structure of sequence from [http://en.wikipedia.org/wiki/Streptoalloteichus_hindustanus Streptoalloteichus hindustanus] with <scene name='pdbligand=SO4:'>SO4</scene> and <scene name='pdbligand=BLM:'>BLM</scene> as [http://en.wikipedia.org/wiki/ligands ligands]. Full crystallographic information is available from [http://oca.weizmann.ac.il/oca-bin/ocashort?id=1XRK OCA].
==Reference==
==Reference==
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[[Category: Streptoalloteichus hindustanus]]
[[Category: Streptoalloteichus hindustanus]]
[[Category: Akerboom, J.]]
[[Category: Akerboom, J.]]
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[[Category: Brouns, S.J.J.]]
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[[Category: Brouns, S J.J.]]
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[[Category: Oost, J.Van.der.]]
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[[Category: Oost, J Van der.]]
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[[Category: Turnbull, A.P.]]
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[[Category: Turnbull, A P.]]
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[[Category: Vos, W.M.de.]]
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[[Category: Vos, W M.de.]]
[[Category: Wu, H.]]
[[Category: Wu, H.]]
[[Category: BLM]]
[[Category: BLM]]
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[[Category: thermostable mutant]]
[[Category: thermostable mutant]]
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''Page seeded by [http://ispc.weizmann.ac.il/oca OCA ] on Wed Nov 21 06:17:39 2007''
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''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on Thu Feb 21 15:57:54 2008''

Revision as of 13:57, 21 February 2008

Image:1xrk.gif

1xrk, resolution 1.50Å

Drag the structure with the mouse to rotate

Crystal structure of a mutant bleomycin binding protein from Streptoalloteichus hindustanus displaying increased thermostability

Overview

Limited thermostability of antibiotic resistance markers has restricted genetic research in the field of extremely thermophilic Archaea and bacteria. In this study, we used directed evolution and selection in the thermophilic bacterium Thermus thermophilus HB27 to find thermostable variants of a bleomycin-binding protein from the mesophilic bacterium Streptoalloteichus hindustanus. In a single selection round, we identified eight clones bearing five types of double mutated genes that provided T. thermophilus transformants with bleomycin resistance at 77 degrees C, while the wild-type gene could only do so up to 65 degrees C. Only six different amino acid positions were altered, three of which were glycine residues. All variant proteins were produced in Escherichia coli and analyzed biochemically for thermal stability and functionality at high temperature. A synthetic mutant resistance gene with low GC content was designed that combined four substitutions. The encoded protein showed up to 17 degrees C increased thermostability and unfolded at 85 degrees C in the absence of bleomycin, whereas in its presence the protein unfolded at 100 degrees C. Despite these highly thermophilic properties, this mutant was still able to function normally at mesophilic temperatures in vivo. The mutant protein was co-crystallized with bleomycin, and the structure of the binary complex was determined to a resolution of 1.5 A. Detailed structural analysis revealed possible molecular mechanisms of thermostabilization and enhanced antibiotic binding, which included the introduction of an intersubunit hydrogen bond network, improved hydrophobic packing of surface indentations, reduction of loop flexibility, and alpha-helix stabilization. The potential applicability of the thermostable selection marker is discussed.

About this Structure

1XRK is a Single protein structure of sequence from Streptoalloteichus hindustanus with and as ligands. Full crystallographic information is available from OCA.

Reference

Engineering a selectable marker for hyperthermophiles., Brouns SJ, Wu H, Akerboom J, Turnbull AP, de Vos WM, van der Oost J, J Biol Chem. 2005 Mar 25;280(12):11422-31. Epub 2005 Jan 7. PMID:15640151

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