Replacement of the human topoisomerase linker domain with the plasmodial counterpart renders the enzyme camptothecin resistant.

Replacement of the human topoisomerase linker domain with the plasmodial counterpart renders the enzyme camptothecin resistant.

A human/plasmodial hybrid enzyme, generated by swapping the human topoisomerase IB linker domain with the corresponding domain of the Plasmodium falciparum enzyme, has been produced and characterized. The hybrid enzyme displays a relaxation activity comparable to the human enzyme, but it is characte...

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Main Authors: Barbara Arnò, Ilda D'Annessa, Cinzia Tesauro, Laura Zuccaro, Alessio Ottaviani, Birgitta Knudsen, Paola Fiorani, Alessandro Desideri
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2013-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3699648?pdf=render
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spelling doaj-8a0c96c003f14353bcff8033c27c5ee82020-11-25T01:18:47ZengPublic Library of Science (PLoS)PLoS ONE1932-62032013-01-0187e6840410.1371/journal.pone.0068404Replacement of the human topoisomerase linker domain with the plasmodial counterpart renders the enzyme camptothecin resistant.Barbara ArnòIlda D'AnnessaCinzia TesauroLaura ZuccaroAlessio OttavianiBirgitta KnudsenPaola FioraniAlessandro DesideriA human/plasmodial hybrid enzyme, generated by swapping the human topoisomerase IB linker domain with the corresponding domain of the Plasmodium falciparum enzyme, has been produced and characterized. The hybrid enzyme displays a relaxation activity comparable to the human enzyme, but it is characterized by a much faster religation rate. The hybrid enzyme is also camptothecin resistant. A 3D structure of the hybrid enzyme has been built and its structural-dynamical properties have been analyzed by molecular dynamics simulation. The analysis indicates that the swapped plasmodial linker samples a conformational space much larger than the corresponding domain in the human enzyme. The large linker conformational variability is then linked to important functional properties such as an increased religation rate and a low drug reactivity, demonstrating that the linker domain has a crucial role in the modulation of the topoisomerase IB activity.http://europepmc.org/articles/PMC3699648?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Barbara Arnò
Ilda D'Annessa
Cinzia Tesauro
Laura Zuccaro
Alessio Ottaviani
Birgitta Knudsen
Paola Fiorani
Alessandro Desideri
spellingShingle Barbara Arnò
Ilda D'Annessa
Cinzia Tesauro
Laura Zuccaro
Alessio Ottaviani
Birgitta Knudsen
Paola Fiorani
Alessandro Desideri
Replacement of the human topoisomerase linker domain with the plasmodial counterpart renders the enzyme camptothecin resistant.
PLoS ONE
author_facet Barbara Arnò
Ilda D'Annessa
Cinzia Tesauro
Laura Zuccaro
Alessio Ottaviani
Birgitta Knudsen
Paola Fiorani
Alessandro Desideri
author_sort Barbara Arnò
title Replacement of the human topoisomerase linker domain with the plasmodial counterpart renders the enzyme camptothecin resistant.
title_short Replacement of the human topoisomerase linker domain with the plasmodial counterpart renders the enzyme camptothecin resistant.
title_full Replacement of the human topoisomerase linker domain with the plasmodial counterpart renders the enzyme camptothecin resistant.
title_fullStr Replacement of the human topoisomerase linker domain with the plasmodial counterpart renders the enzyme camptothecin resistant.
title_full_unstemmed Replacement of the human topoisomerase linker domain with the plasmodial counterpart renders the enzyme camptothecin resistant.
title_sort replacement of the human topoisomerase linker domain with the plasmodial counterpart renders the enzyme camptothecin resistant.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2013-01-01
description A human/plasmodial hybrid enzyme, generated by swapping the human topoisomerase IB linker domain with the corresponding domain of the Plasmodium falciparum enzyme, has been produced and characterized. The hybrid enzyme displays a relaxation activity comparable to the human enzyme, but it is characterized by a much faster religation rate. The hybrid enzyme is also camptothecin resistant. A 3D structure of the hybrid enzyme has been built and its structural-dynamical properties have been analyzed by molecular dynamics simulation. The analysis indicates that the swapped plasmodial linker samples a conformational space much larger than the corresponding domain in the human enzyme. The large linker conformational variability is then linked to important functional properties such as an increased religation rate and a low drug reactivity, demonstrating that the linker domain has a crucial role in the modulation of the topoisomerase IB activity.
url http://europepmc.org/articles/PMC3699648?pdf=render
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