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Literature DB >> 15357209

Genetic regulation of protein synthesis in trypanosomes.

Abstract

It is becoming increasingly clear that parasitic protozoa remain a scourge to humans in the 21st century. The trypanosomes are a diverse group of insect-transmitted parasites that wiggle their way through multiple life cycle stages as they destroy human lives. Exquisitely detailed studies of these organisms reveal basic differences in gene expression that separate these single celled eukaryotes from multicellular eukaryotic organisms and have suggested numerous potential drug targets.

Entities: Disease Species

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Year: 2004 PMID： 15357209 DOI： 10.2174/1566524043360267

Source DB: PubMed Journal: Curr Mol Med ISSN： 1566-5240 Impact factor: 2.222

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Cited

6 in total

1. Trypanosomal TBP functions with the multisubunit transcription factor tSNAP to direct spliced-leader RNA gene expression.

Authors: Anish Das; Qing Zhang; Jennifer B Palenchar; Bithi Chatterjee; George A M Cross; Vivian Bellofatto
Journal: Mol Cell Biol Date: 2005-08 Impact factor: 4.272

2. Trypanosome prereplication machinery contains a single functional orc1/cdc6 protein, which is typical of archaea.

Authors: Patrícia Diogo de Melo Godoy; Luis Antonio Nogueira-Junior; Lisvane S Paes; Alberto Cornejo; Rafael Miyazawa Martins; Ariel M Silber; Sergio Schenkman; M Carolina Elias
Journal: Eukaryot Cell Date: 2009-08-28

3. Distinct acetylation of Trypanosoma cruzi histone H4 during cell cycle, parasite differentiation, and after DNA damage.

Authors: Sheila Cristina Nardelli; Julia Pinheiro Chagas da Cunha; Maria Cristina M Motta; Sergio Schenkman
Journal: Chromosoma Date: 2009-04-25 Impact factor: 4.316

Genetic regulation of protein synthesis in trypanosomes.

1. Trypanosomal TBP functions with the multisubunit transcription factor tSNAP to direct spliced-leader RNA gene expression.

2. Trypanosome prereplication machinery contains a single functional orc1/cdc6 protein, which is typical of archaea.

3. Distinct acetylation of Trypanosoma cruzi histone H4 during cell cycle, parasite differentiation, and after DNA damage.

4. Comparative genomics and concerted evolution of beta-tubulin paralogs in Leishmania spp.

5. Glyceraldehyde 3-phosphate dehydrogenase-telomere association correlates with redox status in Trypanosoma cruzi.

6. Evaluation of high efficiency gene knockout strategies for Trypanosoma cruzi.