Your search keyword '"Laibida LA"' showing total 3 results

1. Lipidomic Analysis Reveals Branched-Chain and Cyclic Fatty Acids from Angomonas deanei Grown under Different Nutritional and Physiological Conditions.

Author

Santana-Filho AP, Pereira AJ, Laibida LA, Souza-Melo N, DaRocha WD, and Sassaki GL

Subjects

Gas Chromatography-Mass Spectrometry, Principal Component Analysis, Magnetic Resonance Spectroscopy methods, Lipidomics methods, Fatty Acids metabolism, Fatty Acids analysis, Trypanosomatina metabolism

Abstract

Angomonas deanei belongs to Trypanosomatidae family, a family of parasites that only infect insects. It hosts a bacterial endosymbiont in a mutualistic relationship, constituting an excellent model for studying organelle origin and cellular evolution. A lipidomic approach, which allows for a comprehensive analysis of all lipids in a biological system (lipidome), is a useful tool for identifying and measuring different expression patterns of lipid classes. The present study applied GC-MS and NMR techniques, coupled with principal component analysis (PCA), in order to perform a comparative lipidomic study of wild and aposymbiotic A. deanei grown in the presence or absence of FBS. Unusual contents of branched-chain iso C17:0 and C19:0- cis -9,10 and-11,12 fatty acids were identified in A. deanei cultures, and it was interesting to note that their content slightly decreased at the log phase culture, indicating that in the latter growth stages the cell must promote the remodeling of lipid synthesis in order to maintain the fluidity of the membrane. The combination of analytical techniques used in this work allowed for the detection and characterization of lipids and relevant contributors in a variety of A. deanei growth conditions.

Published

2024

2. Expanding the tool box for genetic manipulation of Trypanosoma cruzi.

Author

Burle-Caldas Gde A, Grazielle-Silva V, Laibida LA, DaRocha WD, and Teixeira SM

Subjects

Gene Components, Gene Regulatory Networks, Genes, Reporter, Host-Parasite Interactions genetics, Host-Parasite Interactions physiology, Humans, Life Cycle Stages, RNA, Spliced Leader genetics, Trypanosoma cruzi growth & development, Chagas Disease parasitology, Gene Expression Regulation, Gene Knockdown Techniques methods, Gene Targeting methods, Genome, Protozoan genetics, Trypanosoma cruzi genetics

Abstract

Trypanosoma cruzi is a protozoan parasite that causes Chagas disease, an illness that affects 6-7 million people and for which there is no effective drug therapy or vaccine. The publication of its complete genome sequence allowed a rapid advance in molecular studies including in silico screening of genes involved with pathogenicity as well as molecular targets for the development of new diagnostic methods, drug therapies and prophylactic vaccines. Alongside with in silico genomic analyses, methods to study gene function in this parasite such as gene deletion, overexpression, mutant complementation and reporter gene expression have been largely explored. More recently, the use of genome-wide strategies is producing a shift towards a global perspective on gene function studies, with the examination of the expression and biological roles of gene networks in different stages of the parasite life cycle and under different contexts of host parasite interactions. Here we describe the molecular tools and protocols currently available to perform genetic manipulation of the T. cruzi genome, with emphasis on recently described strategies of gene editing that will facilitate large-scale functional genomic analyses. These new methodologies are long overdue, since more efficient protocols for genetic manipulation in T. cruzi are urgently needed for a better understanding of the biology of this parasite and molecular processes involved with the complex and often harmful, interaction with its human host., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2015

3. Identification of secreted virulence factors of Chromobacterium violaceum.

Author

Castro-Gomes T, Cardoso MS, DaRocha WD, Laibida LA, Nascimento AM, Zuccherato LW, Horta MF, Bemquerer MP, and Teixeira SM

Subjects

Animals, Chromobacterium genetics, Humans, Mass Spectrometry, Soil Microbiology, Tropical Climate, Virulence Factors genetics, Chromobacterium metabolism, Culture Media chemistry, Virulence Factors analysis

Abstract

Chromobacterium violaceum, a component of tropical soil microbiota, is an opportunistic pathogenic bacterium that can infect humans and other animals. In addition to identifying a large number of genes that demonstrate the vast biotechnological potential of this bacterium, genome sequencing revealed several virulence factors, including different cytolysins, which can be related to its pathogenicity. Here we confirmed these predictions from genomic analyses by identifying, through mass spectrometry, proteins present in the culture supernatant of C. violaceum that may constitute secreted virulence factors. Among them, we identified a secreted collagenase and the product of a gene with sequence similarity to previously characterized bacterial porins.

Published

2014