Your search keyword '"Junqueira, Ana Carolina M."' showing total 8 results

1. Microbial communities in the tropical air ecosystem follow a precise diel cycle

Author

Gusareva, Elena S., Acerbi, Enzo, Lau, Kenny J. X., Luhung, Irvan, Premkrishnan, Balakrishnan N. V., Kolundžija, Sandra, Purbojati, Rikky W., Wong, Anthony, Houghton, James N. I., Miller, Dana, Gaultier, Nicolas E., Heinle, Cassie E., Clare, Megan E., Vettath, Vineeth Kodengil, Kee, Carmon, Lim, Serene B. Y., Chénard, Caroline, Phung, Wen Jia, Kushwaha, Kavita K., Nee, Ang Poh, Putra, Alexander, Panicker, Deepa, Yanqing, Koh, Hwee, Yap Zhei, Lohar, Sachin R., Kuwata, Mikinori, Kim, Hie Lim, Yang, Liang, Uchida, Akira, Drautz-Moses, Daniela I., Junqueira, Ana Carolina M., and Schuster, Stephan C.

Published

2019

2. The genomic characterisation and comparison of Bacillus cereus strains isolated from indoor air

Author

Premkrishnan, Balakrishnan N. V., Heinle, Cassie E., Uchida, Akira, Purbojati, Rikky W., Kushwaha, Kavita K., Putra, Alexander, Santhi, Puramadathil Sasi, Khoo, Benjamin W. Y., Wong, Anthony, Vettath, Vineeth Kodengil, Drautz-Moses, Daniela I., Junqueira, Ana Carolina M., and Schuster, Stephan C.

Subjects

Tetracycline -- Analysis -- Health aspects, Genomics -- Health aspects -- Analysis, Gastrointestinal agents -- Health aspects -- Analysis, Genes -- Analysis -- Health aspects, Drug resistance in microorganisms -- Analysis -- Health aspects, Genomes -- Analysis -- Health aspects, Food poisoning -- Health aspects -- Analysis, Diarrhea -- Health aspects -- Analysis, Antibacterial agents -- Health aspects -- Analysis, Tetracyclines -- Analysis -- Health aspects, Health

Abstract

Background Bacillus cereus is ubiquitous in nature, found in environments such as soil, plants, air, and part of the insect and human gut microbiome. The ability to produce endospores and biofilms contribute to their pathogenicity, classified in two types of food poisoning: diarrheal and emetic syndromes. Here we report gap-free, whole-genome sequences of two B. cereus strains isolated from air samples and analyse their emetic and diarrheal potential. Results Genome assemblies of the B. cereus strains consist of one chromosome and seven plasmids each. The genome size of strain SGAir0260 is 6.30-Mb with 6590 predicted coding sequences (CDS) and strain SGAir0263 is 6.47-Mb with 6811 predicted CDS. Macrosynteny analysis showed 99% collinearity between the strains isolated from air and 90.2% with the reference genome. Comparative genomics with 57 complete B. cereus genomes suggests these strains from air are closely associated with strains isolated from foodborne illnesses outbreaks. Due to virulence potential of B. cereus and its reported involvement in nosocomial infections, antibiotic resistance analyses were performed and confirmed resistance to ampicillin and fosfomycin, with susceptibility to ciprofloxacin, tetracycline and vancomycin in both strains. Conclusion Phylogenetic analysis combined with detection of haemolytic (hblA, hblC, and hblD) and non-haemolytic (nheA, nheB, and nheC) enterotoxin genes in both air-isolated strains point to the diarrheic potential of the air isolates, though not emetic. Characterization of these airborne strains and investigation of their potential disease-causing genes could facilitate identification of environmental sources of contamination leading to foodborne illnesses and nosocomial infections transported by air. Keywords: Bacillus cereus, Food poisoning, Antibiotic resistance, Enterotoxins, Author(s): Balakrishnan N. V. Premkrishnan[sup.1], Cassie E. Heinle[sup.1], Akira Uchida[sup.1], Rikky W. Purbojati[sup.1], Kavita K. Kushwaha[sup.1], Alexander Putra[sup.1], Puramadathil Sasi Santhi[sup.1], Benjamin W. Y. Khoo[sup.1], Anthony Wong[sup.1], Vineeth Kodengil Vettath[sup.1], [...]

Published

2021

3. Complete genome of Enterobacter sichuanensis strain SGAir0282 isolated from air in Singapore

Author

Uchida, Akira, Kim, Hie Lim, Purbojati, Rikky W., Vettath, Vineeth Kodengil, Gupta, Anjali B., Houghton, James N. I., Chénard, Caroline, Wong, Anthony, Clare, Megan E., Kushwaha, Kavita K., Panicker, Deepa, Putra, Alexander, Heinle, Cassie E., Premkrishnan, Balakrishnan N. V., Junqueira, Ana Carolina M., Drautz-Moses, Daniela I., and Schuster, Stephan C.

Subjects

Bacteria -- Analysis, Virulence (Microbiology) -- Analysis, Transfer RNA -- Analysis, Antibiotics -- Analysis, Genes -- Analysis, Beta lactamases -- Analysis, Microbial drug resistance -- Analysis, Phylogeny -- Analysis, Genomes -- Analysis, Genomics -- Analysis, Hydrolases, Fosfomycin, Antibacterial agents, Diseases, DNA sequencing, Pathogenic microorganisms, Drug resistance, RNA, Health

Abstract

Background Enterobacter cloacae complex (ECC) bacteria, such as E. cloacae, E. sichuanensis, E. kobei, and E. roggenkampii, have been emerging as nosocomial pathogens. Many strains isolated from medical clinics were found to be resistant to antibiotics, and in the worst cases, acquired multidrug resistance. We present the whole genome sequence of SGAir0282, isolated from the outdoor air in Singapore, and its relevance to other ECC bacteria by in silico genomic analysis. Results Complete genome assembly of E. sichuanensis strain SGAir0282 was generated using PacBio RSII and Illumina MiSeq platforms, and the datasets were used for de novo assembly using Hierarchical Genome Assembly Process (HGAP) and error corrected with Pilon. The genome assembly consisted of a single contig of 4.71 Mb and with a G+C content of 55.5%. No plasmid was detected in the assembly. The genome contained 4371 coding genes, 83 tRNA and 25 rRNA genes, as predicted by NCBI's Prokaryotic Genome Annotation Pipeline (PGAP). Among the genes, the antibiotic resistance related genes were included: Streptothricin acetdyltransferase (SatA), fosfomycin resistance protein (FosA) and metal-dependent hydrolases of the beta-lactamase superfamily I (BLI). Conclusion Based on whole genome alignment and phylogenetic analysis, the strain SGAir0282 was identified to be Enterobacter sichuanensis. The strain possesses gene clusters for virulence, disease and defence, that can also be found in other multidrug resistant ECC type strains. Keywords: Airborne bacteria, Enterobacter cloacae complex, Whole genome sequencing, Multidrug resistant, Author(s): Akira Uchida[sup.1], Hie Lim Kim[sup.1,2], Rikky W. Purbojati[sup.1], Vineeth Kodengil Vettath[sup.1], Anjali B. Gupta[sup.1], James N. I. Houghton[sup.1], Caroline Chénard[sup.1], Anthony Wong[sup.1], Megan E. Clare[sup.1], Kavita K. Kushwaha[sup.1], Deepa [...]

Published

2020

4. Structure vs. chemistry: Alternate mechanisms for controlling leaf microbiomes.

Author

Lau, Kenny J. X., Gusareva, Elena S., Luhung, Irvan, Premkrishnan, Balakrishnan N. V., Wong, Anthony, Poh, Tuang Yeow, Uchida, Akira, Oliveira, Elaine L., Drautz-Moses, Daniela I., Junqueira, Ana Carolina M., and Schuster, Stephan C.

Subjects

DUST, PLANT-microbe relationships, HOST plants, MICROBIAL communities, MICROBIAL diversity, FLAVOBACTERIALES, ORNAMENTAL plants

Abstract

The analysis of phyllosphere microbiomes traditionally relied on DNA extracted from whole leaves. To investigate the microbial communities on the adaxial (upper) and abaxial (lower) leaf surfaces, swabs were collected from both surfaces of two garden plants, Rhapis excelsa and Cordyline fruticosa. Samples were collected at noon and midnight and at five different locations to investigate if the phyllosphere microbial communities change with time and location. The abaxial surface of Rhapis excelsa and Cordyline fruticosa had fewer bacteria in contrast to its adaxial counterpart. This observation was consistent between noon and midnight and across five different locations. Our co-occurrence network analysis further showed that bacteria were found almost exclusively on the adaxial surface while only a small group of leaf blotch fungi thrived on the abaxial surface. There are higher densities of stomata on the abaxial surface and these openings are vulnerable ports of entry into the plant host. While one might argue about the settling of dust particles and microorganisms on the adaxial surface, we detected differences in reactive chemical activities and microstructures between the adaxial and abaxial surfaces. Our results further suggest that both plant species deploy different defence strategies to deter invading pathogens on the abaxial surface. We hypothesize that chemical and mechanical defence strategies evolved independently for harnessing and controlling phyllosphere microbiomes. Our findings have also advanced our understanding that the abaxial leaf surface is distinct from the adaxial surface and that the reduced microbial diversity is likely a consequence of plant-microbe interactions. [ABSTRACT FROM AUTHOR]

Published

2023

5. Large-scale mitogenomics enables insights into Schizophora (Diptera) radiation and population diversity

Author

Junqueira, Ana Carolina M., Azeredo-Espin, Ana Maria L., Paulo, Daniel F., Marinho, Marco Antonio T., Tomsho, Lynn P., Drautz-Moses, Daniela I., Purbojati, Rikky W., Ratan, Aakrosh, and Schuster, Stephan C.

Published

2016

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

Author

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

Subjects

*GENES, *GENETICS, *GENOMES, *HEREDITY

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 tRNAIle and a partial duplication of tRNAGln 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. [Copyright &y& Elsevier]

Published

2004

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

Author

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

Subjects

*AMINO acids, *GENES, *HEREDITY, *RHEOLOGY

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. [Copyright &y& Elsevier]

Published

2004

8. The Mitochondrial Control Region of Blowflies (Diptera: Calliphoridae): A Hot Spot for Mitochondrial Genome Rearrangements

Author

Duarte, Gustavo Turqueto, De Azeredo-Espin, Ana Maria L., and Junqueira, Ana Carolina M.

Published

2008