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A Pseudo-tRNA Modulates Antibiotic Resistance in Bacillus cereus
Theresa E Rogers, Sandro F Ataide, Kiley Dare, Assaf Katz, Stephanie Seveau, Hervé Roy, Michael Ibba
Transcription, RNA, and Gene Medicine Program
11
Citations (Scopus)
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Dive into the research topics of 'A Pseudo-tRNA Modulates Antibiotic Resistance in Bacillus cereus'. Together they form a unique fingerprint.
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Mathematics
Antibiotics
78%
Resistance
56%
Gene
52%
Genomics
41%
Oxidative Stress
34%
Cell Wall
30%
Iron
23%
Complementarity
21%
Chromosome
21%
Regulator
19%
Deletion
18%
Cell
13%
Engineering & Materials Science
Bacillus cereus
100%
Transfer RNA
88%
Antibiotics
76%
RNA
21%
Genes
12%
Oxidative stress
7%
Binding sites
6%
Chromosomes
5%
DNA
4%
Cells
4%
Iron
4%
Agriculture & Biology
Bacillus cereus
56%
antibiotic resistance
52%
genomic islands
36%
RNA
35%
pathogenicity islands
17%
translation (genetics)
11%
binding sites
11%
inactivation
11%
stress response
10%
oxidative stress
10%
iron
9%
cell walls
9%
genes
9%
uptake mechanisms
8%
chromosomes
8%
gene expression
8%
DNA
6%
leaves
5%
cells
4%
Earth & Environmental Sciences
antibiotic resistance
65%
RNA
55%
gene
30%
genomics
26%
pathogenicity
18%
cell
16%
complementarity
15%
oxidative stress
15%
chromosome
13%
DNA
11%
iron
8%
analysis
3%
Medicine & Life Sciences
Bacillus cereus
70%
Transfer RNA
58%
Microbial Drug Resistance
53%
Genomic Islands
17%
RNA
12%
Cell Wall
4%
Iron
3%
Genes
3%
Chromosomes
3%
Binding Sites
3%
Oxidative Stress
3%
Gene Expression
2%
DNA
2%