A high-throughput cloning system for reverse genetics in <it>Trypanosoma cruzi</it>
<p>Abstract</p> <p>Background</p> <p>The three trypanosomatids pathogenic to men, <it>Trypanosoma cruzi</it>, <it>Trypanosoma brucei </it>and <it>Leishmania major</it>, are etiological agents of Chagas disease, African sleeping sickne...
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doaj-5b11f9ad175d4bc3a4e6f75cf060d1252020-11-25T02:42:45ZengBMCBMC Microbiology1471-21802010-10-0110125910.1186/1471-2180-10-259A high-throughput cloning system for reverse genetics in <it>Trypanosoma cruzi</it>Ozaki Luiz SPreti HenriqueProbst Christian MFragoso Stenio PCeledon Paola AFMarchini Fabricio KBatista MichelBuck Gregory AGoldenberg SamuelKrieger Marco A<p>Abstract</p> <p>Background</p> <p>The three trypanosomatids pathogenic to men, <it>Trypanosoma cruzi</it>, <it>Trypanosoma brucei </it>and <it>Leishmania major</it>, are etiological agents of Chagas disease, African sleeping sickness and cutaneous leishmaniasis, respectively. The complete sequencing of these trypanosomatid genomes represented a breakthrough in the understanding of these organisms. Genome sequencing is a step towards solving the parasite biology puzzle, as there are a high percentage of genes encoding proteins without functional annotation. Also, technical limitations in protein expression in heterologous systems reinforce the evident need for the development of a high-throughput reverse genetics platform. Ideally, such platform would lead to efficient cloning and compatibility with various approaches. Thus, we aimed to construct a highly efficient cloning platform compatible with plasmid vectors that are suitable for various approaches.</p> <p>Results</p> <p>We constructed a platform with a flexible structure allowing the exchange of various elements, such as promoters, fusion tags, intergenic regions or resistance markers. This platform is based on Gateway<sup>® </sup>technology, to ensure a fast and efficient cloning system. We obtained plasmid vectors carrying genes for fluorescent proteins (green, cyan or yellow), and sequences for the <it>c-myc </it>epitope, and tandem affinity purification or polyhistidine tags. The vectors were verified by successful subcellular localization of two previously characterized proteins (<it>Tc</it>Rab7 and PAR 2) and a putative centrin. For the tandem affinity purification tag, the purification of two protein complexes (ribosome and proteasome) was performed.</p> <p>Conclusions</p> <p>We constructed plasmids with an efficient cloning system and suitable for use across various applications, such as protein localization and co-localization, protein partner identification and protein expression. This platform also allows vector customization, as the vectors were constructed to enable easy exchange of its elements. The development of this high-throughput platform is a step closer towards large-scale trypanosome applications and initiatives.</p> http://www.biomedcentral.com/1471-2180/10/259 |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Ozaki Luiz S Preti Henrique Probst Christian M Fragoso Stenio P Celedon Paola AF Marchini Fabricio K Batista Michel Buck Gregory A Goldenberg Samuel Krieger Marco A |
spellingShingle |
Ozaki Luiz S Preti Henrique Probst Christian M Fragoso Stenio P Celedon Paola AF Marchini Fabricio K Batista Michel Buck Gregory A Goldenberg Samuel Krieger Marco A A high-throughput cloning system for reverse genetics in <it>Trypanosoma cruzi</it> BMC Microbiology |
author_facet |
Ozaki Luiz S Preti Henrique Probst Christian M Fragoso Stenio P Celedon Paola AF Marchini Fabricio K Batista Michel Buck Gregory A Goldenberg Samuel Krieger Marco A |
author_sort |
Ozaki Luiz S |
title |
A high-throughput cloning system for reverse genetics in <it>Trypanosoma cruzi</it> |
title_short |
A high-throughput cloning system for reverse genetics in <it>Trypanosoma cruzi</it> |
title_full |
A high-throughput cloning system for reverse genetics in <it>Trypanosoma cruzi</it> |
title_fullStr |
A high-throughput cloning system for reverse genetics in <it>Trypanosoma cruzi</it> |
title_full_unstemmed |
A high-throughput cloning system for reverse genetics in <it>Trypanosoma cruzi</it> |
title_sort |
high-throughput cloning system for reverse genetics in <it>trypanosoma cruzi</it> |
publisher |
BMC |
series |
BMC Microbiology |
issn |
1471-2180 |
publishDate |
2010-10-01 |
description |
<p>Abstract</p> <p>Background</p> <p>The three trypanosomatids pathogenic to men, <it>Trypanosoma cruzi</it>, <it>Trypanosoma brucei </it>and <it>Leishmania major</it>, are etiological agents of Chagas disease, African sleeping sickness and cutaneous leishmaniasis, respectively. The complete sequencing of these trypanosomatid genomes represented a breakthrough in the understanding of these organisms. Genome sequencing is a step towards solving the parasite biology puzzle, as there are a high percentage of genes encoding proteins without functional annotation. Also, technical limitations in protein expression in heterologous systems reinforce the evident need for the development of a high-throughput reverse genetics platform. Ideally, such platform would lead to efficient cloning and compatibility with various approaches. Thus, we aimed to construct a highly efficient cloning platform compatible with plasmid vectors that are suitable for various approaches.</p> <p>Results</p> <p>We constructed a platform with a flexible structure allowing the exchange of various elements, such as promoters, fusion tags, intergenic regions or resistance markers. This platform is based on Gateway<sup>® </sup>technology, to ensure a fast and efficient cloning system. We obtained plasmid vectors carrying genes for fluorescent proteins (green, cyan or yellow), and sequences for the <it>c-myc </it>epitope, and tandem affinity purification or polyhistidine tags. The vectors were verified by successful subcellular localization of two previously characterized proteins (<it>Tc</it>Rab7 and PAR 2) and a putative centrin. For the tandem affinity purification tag, the purification of two protein complexes (ribosome and proteasome) was performed.</p> <p>Conclusions</p> <p>We constructed plasmids with an efficient cloning system and suitable for use across various applications, such as protein localization and co-localization, protein partner identification and protein expression. This platform also allows vector customization, as the vectors were constructed to enable easy exchange of its elements. The development of this high-throughput platform is a step closer towards large-scale trypanosome applications and initiatives.</p> |
url |
http://www.biomedcentral.com/1471-2180/10/259 |
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