Your search keyword '"Ana Cláudia Lessinger"' showing total 16 results

1. AMiGA: the arthropodan mitochondrial genomes accessible database.

Author

Pedro Cipriano Feijão, Lissiene Silva Neiva, Ana Maria Lima de Azeredo-Espin, and Ana Cláudia Lessinger

Published

2006

2. The Mitochondrial DNA Control Region of Muscidae Flies: Evolution and Structural Conservation in a Dipteran Context

Author

Ana Cláudia Lessinger, Ana Maria Lima de Azeredo-Espin, and Marcos T. Oliveira

Subjects

Genetics, mtDNA control region, Genome, Base Sequence, biology, Brachycera, Muscidae, Stomoxys, Locus Control Region, biology.organism_classification, DNA, Mitochondrial, Haematobia irritans, Conserved sequence, Evolution, Molecular, Intergenic region, Species Specificity, Animals, Nucleic Acid Conformation, Calyptratae, Molecular Biology, Conserved Sequence, Ecology, Evolution, Behavior and Systematics

Abstract

The structure and evolution of the mtDNA control region (CR) and its flanking genes in economically important dipterans from the family Muscidae (Brachycera: Calyptratae), Haematobia irritans, Musca domestica, Atherigona orientalis, and Stomoxys calcitrans are presented in this paper, along with the description of short noncoding intergenic regions possibly related to CR flanking sequences in Stomoxys calcitrans and Ophyra aenescens mtDNAs (ScIR and OaIR, respectively). S. calcitrans showed a large CR with an approximately 550-bp element tandemly repeated and a duplicated tRNA(Ile) gene. The characterization of H. irritans, M. domestica, A. orientalis, and S. calcitrans CR sequences led to the identification of seven conserved sequence blocks homologous to the elements previously described for Calliphoridae and Oestridae species (Brachycera: Calyptratae). Comparative analysis with Drosophila species (Brachycera: Acalyptratae) revealed four conserved regions. The putative functional roles of the conserved elements in the regulation of replication and transcription processes are addressed. The characterization of the structural organization of the mitochondrial genome CR demonstrates the plasticity of the mtDNA molecule in family Muscidae.

Published

2007

3. Evolutionary and structural analysis of the cytochrome c oxidase subunit I (COI) gene fromHaematobia irritans,Stomoxys calcitransandMusca domestica(Diptera: Muscidae) mitochondrial DNA

Author

Ana Cláudia Lessinger, Ana Maria Lima de Azeredo-Espin, and Marcos T. Oliveira

Subjects

Mitochondrial DNA, Stable fly, Molecular Sequence Data, Stomoxys, DNA, Mitochondrial, Biochemistry, Electron Transport Complex IV, Evolution, Molecular, Endocrinology, Species Specificity, Houseflies, Genetics, Animals, Amino Acids, Codon, Molecular Biology, Gene, Phylogeny, Base Sequence, biology, Muscidae, fungi, Cytochrome c oxidase subunit I, Nucleic acid sequence, Computational Biology, biology.organism_classification, Haematobia irritans

Abstract

This work describes the molecular characterization of the cytochrome c oxidase subunit I (COI) gene of the mitochondrial DNA from three species of great medical and veterinary importance: the horn fly, Haematobia irritans, the stable fly, Stomoxys calcitrans and the house fly, Musca domestica (Diptera: Muscidae) (Linnaeus). The nucleotide sequence in all species was 1536 bp in size and coded for a 512 amino acid peptide. The nucleotide bias for an A+T-rich sequence is linked to three features: a high A+T content throughout the entire gene, a high A+T content in the third codon position, and a predominance of A+T-rich codons. An anomalous TCG (serine) start codon was identified. Comparative analysis among members of the Muscidae, Scatophagidae, Calliphoridae and Drosophilidae showed high levels of nucleotide sequence conservation. Analysis of the divergent amino acids and COI protein topologies among these three Muscidae species agreed with the evolutionary model suggested for the insect mitochondrial COI protein. The characterization of the structure and evolution of this gene could be informative for further evolutionary analysis of dipteran species.

Published

2005

4. The mitochondrial genome of the blowfly Chrysomya chloropyga (Diptera: Calliphoridae)

Author

Tatiana Teixeira Torres, André Luiz Vettore, Ana Maria Lima de Azeredo Espin, Ana Cláudia Lessinger, Paulo Arruda, Felipe Rodrigues da Silva, and Ana Carolina M. Junqueira

Subjects

Genetics, Base Composition, Mitochondrial DNA, Diptera, Molecular Sequence Data, Sequence Analysis, DNA, General Medicine, Biology, biology.organism_classification, DNA, Mitochondrial, Genome, Mitochondrial Proteins, Chrysomya, Complete sequence, RNA, Transfer, Start codon, RNA, Ribosomal, Gene Order, Transfer RNA, Animals, Calyptratae, Gene, Phylogeny

Abstract

In view of the medical, sanitary and forensic importance of Chrysomya species, a knowledge of their nucleotide sequences would be useful for the molecular characterization of this genus, and would help in designing primers and in improving the molecular identification of Calliphoridae species. In this work, the mitochondrial genome of the blowfly Chrysomya chloropyga (Diptera: Calliphoridae) was completely sequenced. The entire mitochondrial DNA (mtDNA) molecule was 15,837 bp long and was sequenced using the shotgun approach. The overall nucleotide composition was heavily biased towards As and Ts, which accounted for 76.7% of the whole genome. The cox1 gene had a serine as the start codon, while incomplete termination codons mediated by tRNA signals were found for cox2 , nd4 and nd5 . The C. chloropyga genes were in the same order and orientation as the mitochondrial genome of other dipteran species, except for the occurrence of a 123 bp region that included a complete duplication of tRNA Ile and a partial duplication of tRNA Gln genes. C. chloropyga is the first species of Diptera with 23 tRNA genes instead of the usual 22 already described. A phylogenetic analysis showed a split of Brachycera into Calyptratae and Acalyptratae subdivisions. The complete sequence of C. chloropyga mtDNA described here will be a useful source of sequence information for general molecular and evolutionary studies in Diptera.

Published

2004

5. Analysis of a conserved duplicated tRNA gene in the mitochondrial genome of blowflies

Author

Ana Carolina M. Junqueira, Ana Maria Lima de Azeredo-Espin, Ana Cláudia Lessinger, and Fábio F. Conte

Subjects

Mitochondrial DNA, Pseudogene, Molecular Sequence Data, DNA, Mitochondrial, RNA, Transfer, Genes, Duplicate, RNA, Transfer, Gln, Sequence Homology, Nucleic Acid, Genetics, Animals, Chrysomya albiceps, Cloning, Molecular, RNA, Transfer, Ile, Gene, Conserved Sequence, mtDNA control region, Base Sequence, biology, Diptera, DNA, Sequence Analysis, DNA, General Medicine, biology.organism_classification, Chrysomya, Transfer RNA, Sequence Alignment, Pseudogenes, Chrysomya megacephala

Abstract

The mtDNA control region (CR) and flanking genes of the blowflies Chrysomya albiceps, Chrysomya megacephala and Chrysomya chloropyga (Calliphoridae) were characterized. The most unusual feature found was the presence of duplicated tRNA sequences corresponding to trnI and a portion of trnQ. The partially duplicated trnQ was very likely a pseudogene since most of the sequence of the typical insect trnQ gene was missing. In contrast, the trnI gene had a conserved primary sequence following the duplication event and may represent a functional copy. These results demonstrate the plasticity of the mtDNA molecule in Chrysomya, especially for tRNA genes and the adjacent control region sequences.

Published

2004

6. Methods for the recovery of mitochondrial DNA sequences from museum specimens of myiasis-causing flies

Author

Ana Cláudia Lessinger, Ana Maria Lima de Azeredo-Espin, and Ana Carolina M. Junqueira

Subjects

Genetics, Mitochondrial DNA, General Veterinary, Biology, biology.organism_classification, Molecular biology, DNA extraction, law.invention, Chrysomya putoria, chemistry.chemical_compound, genomic DNA, chemistry, law, Insect Science, Parasitology, Primer (molecular biology), Gene, Ecology, Evolution, Behavior and Systematics, Polymerase chain reaction, DNA

Abstract

Mitochondrial DNA (mtDNA) sequences from eight species of myiasis-causing flies, stored for up to 50 years, were amplified successfully. Universal primers were used to amplify six specific regions from total genomic DNA, including five mtDNA genes. The comparison of phenol/chloroform, DNAzol and Chelex techniques for DNA extraction showed that the DNAzol reagent was the most efficient in retrieving DNA from museum specimens, although the Chelex extraction procedure is currently the most frequently reported method. Comparison of the universal primer sequences with the homologous sequences of Cochliomyia hominivorax Coquerel and Chrysomya putoria Wiedemann (Diptera: Calliphoridae) revealed mismatches that could contribute to the low recovery of a short sequence from subunit II of cytochrome oxidase. The ability to characterize mtDNA markers from museum specimens should be useful in comparative studies of contemporary samples and should help in elucidating species introduction, colonization and dispersal.

Published

2002

7. Characterization of the screwworm flies Cochliomyia hominivorax and Cochliomyia macellaria by PCR-RFLP of mitochondrial DNA

Author

Ana Cláudia Lessinger, Litjens P, and de Azeredo-Espin Am

Subjects

Mitochondrial DNA, General Veterinary, biology, Ecology, Zoology, biology.organism_classification, medicine.disease, law.invention, Restriction enzyme, Restriction site, law, Insect Science, medicine, Parasitology, Calliphoridae, Restriction fragment length polymorphism, Myiasis, Ecology, Evolution, Behavior and Systematics, Cochliomyia hominivorax, Polymerase chain reaction

Abstract

Summary The primary screwworm fly Cochliomyia hominivorax (Coquerel) (Diptera: Calliphoridae) is one of the most important insect pests of livestock in neotropical regions, whereas Cochliomyia macellaria (Fabricius) (Diptera: Calliphoridae), the secondary screwworm, is of medical and sanitary importance because of its role in the dissemination of pathogens. These two species share morphological similarities and both may occur in the same myiasis, but in different developmental stages. In this work, the usefulness of PCR-RFLP (polymerase chain reaction – restriction fragment length polymorphism) of mitochondrial DNA (mtDNA) for the unambiguous identification of C. hominivorax and C. macellaria was investigated. Two specific regions of mtDNA were amplified: 870 bp from Cytochrome oxidase subunit I and 2100 bp from the A + T rich/12S region from C. hominivorax and C. macellaria specimens from different areas of Brazil. Reliable species-specific PCR-RFLP results were obtained for the CO I region and the A + T rich/12S region using the restriction enzymes Dra I and Ssp I. These results confirm the conservation of CO I diagnostic restriction sites previously reported and demonstrate the usefulness of the control region sequences as an efficient marker for PCR-RFLP identification of Brazilian screwworm flies. The occurrences of intraspecific polymorphic patterns are discussed based on frequencies and potential conflicts for species identification. PCR-RFLP provides a potentially useful method for identifying samples from the areas where these species are monitored.

Published

2001

8. The mitochondrial genome of the primary screwworm fly Cochliomyia hominivorax (Diptera: Calliphoridae)

Author

Taila Andrade Lemos, Ana Maria Lima de Azeredo-Espin, F. R. da Silva, André Luiz Vettore, Paulo Arruda, Edson L. Kemper, A. C. Martins Junqueira, and Ana Cláudia Lessinger

Subjects

Mitochondrial DNA, Molecular Sequence Data, Genes, Insect, DNA, Mitochondrial, Genome, Start codon, Genetics, Animals, Codon, Calyptratae, Molecular Biology, Gene, Phylogeny, Base Composition, biology, Diptera, Sequence Analysis, DNA, biology.organism_classification, Mitochondria, Insect Science, Codon usage bias, Insect Proteins, Restriction fragment length polymorphism, Polymorphism, Restriction Fragment Length, Cochliomyia hominivorax

Abstract

The complete sequence of the mitochondrial genome of the screwworm Cochliomyia hominivorax was determined. This genome is 16,022 bp in size and corresponds to a typical Brachycera mtDNA. A Serine start codon for COI and incomplete termination codons for COII, NADH 5 and NADH 4 genes were described. The nucleotide composition of C. hominivorax mtDNA is 77% AT-rich, reflected in the predominance of AT-rich codons in protein-coding genes. Non-optimal codon usage was commonly observed in C. hominivorax mitochondrial genes. Phylogenetic analysis distributed the Acalypterate species as a monophyletic group and assembled the C. hominivorax (Calyptratae) and the Acalyptratae in a typical Brachycera cluster. The identification of diagnostic restriction sites on the sequenced mitochondrial genome and the correlation with previous RFLP analysis are discussed.

Published

2000

9. Isolation and characterization of polymorphic microsatellite loci for the horn fly,Haematobia irritans(L.) (Diptera: Muscidae)

Author

Ana Maria Lima de Azeredo-Espin, Aline Coelho da Rosa, Ana Cláudia Lessinger, and Tatiana Teixeira Torres

Subjects

Genetics, Integrated pest management, biology, fungi, Population genetics, Zoology, Locus (genetics), biology.organism_classification, Haematobia irritans, Loss of heterozygosity, Muscidae, Microsatellite, PEST analysis, Ecology, Evolution, Behavior and Systematics, Biotechnology

Abstract

The horn fly, Haematobia irritans (L.) (Diptera: Muscidae), is a cosmopolitan livestock pest that has caused a great negative impact on the animal production sector throughout the world. Here, we describe 10 polymorphic microsatellite loci isolated from H. irritans. The number of alleles found ranged from two to eight per locus and the expected heterozygosity from 0.1421 to 0.7702. These loci are potentially useful for the fine-scale genetic characterization of horn fly populations and provide fundamental information for pest management and planning of control programs.

Published

2008

10. Conservation and versatility of a new set of primers for long-PCR amplification of complete insect mitochondrial genomes based on Haematobia irritans mtDNA sequences

Author

Joan Barau, Ana Cláudia Lessinger, and Ana Maria Lima de Azeredo-Espin

Subjects

Genetics, Mitochondrial DNA, animal structures, Ecology, biology, media_common.quotation_subject, fungi, Insect, biology.organism_classification, Biochemistry, Genome, General Biochemistry, Genetics and Molecular Biology, Haematobia irritans, law.invention, Lepidoptera genitalia, law, Muscidae, Microsatellite, Polymerase chain reaction, media_common

Abstract

The amplification of complete mitochondrial genomes by long PCR (polymerase chain reaction) has been a major contribution to the large-scale sequencing of arthropodan mitochondrial genomes. In this work, we designed six conserved long-PCR primers to successfully recover the entire mitochondrial genome of the horn fly Haematobia irritans (Diptera: Muscidae) in two overlapping fragments. The conservation and versatility of these primers were tested for 17 other species from four major insect orders: Diptera (14), Coleoptera (1), Lepidoptera (1) and Hymenoptera (1). The amplification of complete mitochondrial genomes in orders other than Diptera suggested an even broader application of these primers, especially within the Hexapoda.

Published

2005

11. Structure and evolution of the mitochondrial genomes of Haematobia irritans and Stomoxys calcitrans: The Muscidae (Diptera: Calyptratae) perspective

Author

Ana Carolina M. Junqueira, Marcos T. Oliveira, Ana Cláudia Lessinger, Cristina Feix Abreu, Joan Barau, Aline Coelho da Rosa, Ana Maria Lima de Azeredo-Espin, and Pedro Feijão

Subjects

Mitochondrial DNA, Transcription, Genetic, Stable fly, Genes, Insect, Stomoxys, DNA, Mitochondrial, Genome, RNA, Transfer, Gene Duplication, Oestroidea, Genetics, Animals, Codon, Calyptratae, Molecular Biology, Phylogeny, Ecology, Evolution, Behavior and Systematics, Models, Genetic, biology, Muscidae, Genetic Variation, biology.organism_classification, Biological Evolution, Haematobia irritans, Genes, Mitochondrial, Genome, Mitochondrial

Abstract

We present the first two mitochondrial genomes of Muscidae dipterans for the species Haematobia irritans (the horn fly) and Stomoxys calcitrans (the stable fly). Typical insect mtDNA features are described, such as a high A+T content (79.1% and 78.9%, respectively), the preference for A+T-rich codons, and the evidence of a non-optimal codon usage. The strong A+T enrichment partially masks another nucleotide content bias maintained by A+C mutation pressure in these Muscidae mtDNAs. The analysis of this data provides a model of metazoans tRNA anticodon evolution, based on the selection hypothesis of anticodon versatility. H. irritans mitochondrial genome (16078 bp) is structurally similar to the hypothetical ancestral mitochondrial genome of arthropods and its control region (A+ T-rich region in insects) organization is consistent with the structure described for Brachycera dipterans. On the other hand, the mitochondrial genome of S. calcitrans is approximately 2kb longer (18 kb), characterized by the presence of approximately 550 bp tandem repeats in the control region, and an extra copy of trnI remarkably similar to a duplicated element of blowflies mtDNA. Putative sequence elements, involved in the regulation of transcription and replication of the mtDNA, were reliably identified in S. calcitrans control region despite the 0.8-1.5 kb gap uncovered from this genome. The use of amino acid and nucleotide sequences of concatenated mitochondrial protein-coding genes (PCGs) in phylogenetic reconstructions of Diptera does not support the monophyly of Muscomorpha, as well as the monophyly of Acalyptratae. Within the Calyptratae group, the inclusion of Muscidae (Muscoidea) as a sister group of Calliphoridae (Oestroidea) implies in a potential conflict concerning the monophyly of the superfamily Oestroidea.

Published

2008

12. Genetic approaches for studying myiasis-causing flies: molecular markers and mitochondrial genomics

Author

Ana Cláudia Lessinger and Ana Maria Lima de Azeredo-Espin

Subjects

Genetic Markers, Mitochondrial DNA, Population, Zoology, Plant Science, Botfly, Myiasis, Genetics, medicine, Animals, Forensic entomology, Calliphoridae, Calyptratae, education, education.field_of_study, biology, Diptera, fungi, General Medicine, Genomics, biology.organism_classification, medicine.disease, Mitochondria, Screw Worm Infection, Insect Science, Animal Science and Zoology, Cochliomyia hominivorax

Abstract

“Myiasis-causing flies” is a generic term that includes species from numerous dipteran families, mainly Calliphoridae and Oestridae, of which blowflies, screwworm flies and botflies are among the most important. This group of flies is characterized by the ability of their larvae to develop in animal flesh. When the host is a live vertebrate, such parasitism by dipterous larvae is known as primary myiasis. Myiasis-causing flies can be classified as saprophagous (free-living species), facultative or obligate parasites. Many of these flies are of great medical and veterinary importance in Brazil because of their role as key livestock insect-pests and vectors of pathogens, in addition to being considered important legal evidence in forensic entomology. The characterization of myiasis-causing flies using molecular markers to study mtDNA (by RFLP) and nuclear DNA (by RAPD and microsatellite) has been used to identify the evolutionary mechanisms responsible for specific patterns of genetic variability. These approaches have been successfully used to analyze the population structures of the New World screwworm fly Cochliomyia hominivorax and the botfly Dermatobia hominis. In this review, various aspects of the organization, evolution and potential applications of the mitochondrial genome of myiasis-causing flies in Brazil, and the analysis of nuclear markers in genetic studies of populations, are discussed.

Published

2006

13. AMiGA: the arthropodan mitochondrial genomes accessible database

Author

Lissiene Silva Neiva, Ana Maria Lima de Azeredo-Espin, Pedro Feijão, and Ana Cláudia Lessinger

Subjects

Statistics and Probability, Multiple sequence alignment, Database, Relational database, Phylum, Computational Biology, Genomics, Biology, computer.software_genre, Biochemistry, Genome, DNA, Mitochondrial, Computer Science Applications, Set (abstract data type), Computational Mathematics, Computational Theory and Mathematics, Databases, Genetic, Animals, Database Management Systems, Amiga, Graphics, Molecular Biology, computer, Arthropods

Abstract

Summary: The Arthropodan Mitochondrial Genomes Accessible database (AMiGA) is a relational database developed to help in managing access to the increasing amount of data arising from developments in arthropodan mitochondrial genomics (136 mitochondrial genomes as of September 2005). The strengths of AMiGA include (1) a more accessible and up-to-date database containing a more comprehensive set of mitochondrial genomes for this phylum, (2) the provision of flexible search options for retrieving detailed information such as bibliographical data, genomic graphics, FASTA sequences and taxonomical status, (3) the possibility of enhanced comparative analyses by multiple alignment of single or concatenated sets of genes, (4) more accurate and updated information resulting from a specific curation process called AMiGA Notes and (5) the possibility of including unpublished sequences in a password-restricted area for comparative analysis with the other sequences stored in the database. Availability: Contact: lessinger@amiga.cbmeg.unicamp.br Supplementary information: Detailed information, including an illustrated tutorial, is available from the above URL.

Published

2006

14. The value of PCR-RFLP molecular markers for the differentiation of immature stages of two necrophagous flies (Diptera: Calliphoridae) of potential forensic importance

Author

Patricia Jacqueline Thyssen, Ana Maria Lima de Azeredo-Espin, Arício Xavier Linhares, and Ana Cláudia Lessinger

Subjects

Mitochondrial DNA, Hemilucilia segmentaria, media_common.quotation_subject, Zoology, Insect, mitochondrial DNA, Biology, biology.organism_classification, Forensic science, Restriction enzyme, Forensic entomology, Insect Science, Botany, biology.protein, Cytochrome c oxidase, Calliphoridae, Restriction fragment length polymorphism, media_common, Hemilucilia semidiaphana

Abstract

The identification of insect species involved in corpses decomposition is of particular importance in estimating the post-mortem interval (PMI) in forensic science, since the PMI is based on information about the life cycle of necrophagous insects. However, the identification of some insect species, especially in their immature stages, may be complicated by many factors, even for experienced taxonomists. Species of the same genus such as Hemilucilia segmentaria (Fabricius) and H. semidiaphana (Rondani) (Diptera: Calliphoridae) are morphologically and behaviorally very similar, but differ in their growth and maturation rates. These species are abundant in forests, exclusively necrophagous and, therefore, are of potential medicolegal importance for estimating the PMI in criminal events that would take place in those areas. In this study, we assessed the usefulness of polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) in the differentiation of these two species. Two specific regions of mitochondrial DNA, the Cytochrome oxidase subunit I (COI) and the control region (CR), were amplified by PCR and digested using restriction endonucleases. The cleavage patterns generated by the endonucleases DraI and SspI were suitable for differentiating the two Hemilucilia species. This method can be helpful for the forensic entomologist in estimating the PMI because it provides a fast identification, also making possible the use of the insect at any life stage, including immature specimens, regardless of the conditions of preservation (dead or live specimens).

Published

2005

15. Evolution and structural organisation of mitochondrial DNA control region of myiasis-causing flies

Author

Ana Maria Lima de Azeredo-Espin and Ana Cláudia Lessinger

Subjects

Mitochondrial DNA, Molecular Sequence Data, Biology, DNA, Mitochondrial, Insect Control, Polymerase Chain Reaction, Evolution, Molecular, Myiasis, Structure-Activity Relationship, Molecular evolution, medicine, Animals, Calliphoridae, Cloning, Molecular, Ecology, Evolution, Behavior and Systematics, mtDNA control region, Genetics, General Veterinary, Phylogenetic tree, Base Sequence, Diptera, fungi, biology.organism_classification, medicine.disease, Insect Science, Parasitology, Sequence Alignment, Cochliomyia hominivorax, Brazil, Chrysomya megacephala

Abstract

Summary This study reports the molecular characterization of the mtDNA control region (called the A + T-rich region in insects) of five dipteran species which cause myiasis: Cochliomyia hominivorax Coquerel, Cochliomyia macellaria Fabricius, Chrysomya megacephala Fabricius, Lucilia eximia Wiedemann (Diptera: Calliphoridae) and Dermatobia hominis Linnaeus Jr (Diptera: Oestridae). The control region in these species varies in length from 1000 to 1600 bp. Two structural domains with specific evolutionary patterns were identified. These were (1) conserved sequence blocks containing primary sequence motifs, including dinucleotide pyrimidine-purine series and long T-stretches, located at the 5′ end adjacent to the tRNAIle gene and (2) a hypervariable domain at the 3′ end characterized by increased nucleotide divergence and size variation. A high frequency of AT transversions at nucleotide substitution level indicated directional mutation pressure. The phylogenetic usefulness of the insect control region is discussed.

Published

2000

16. AMiGA: the arthropodan mitochondrial genomes accessible database.

Author

Ana Cláudia Lessinger

Published

2006