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Microbial
Microbial
Hyperthermostable acetyl xylan esterase
Microbiology / Microbial biotechnology / Protein Stability / Microbial Biotechnology / Escherichia coli / Bacillus / Microbial / Substrate Specificity / Recombinant Proteins / *Hot Temperature / Bacillus / Microbial / Substrate Specificity / Recombinant Proteins / *Hot Temperature
Bacterial persistence increases as environmental fitness decreases
Microbiology / Microbial biotechnology / Microbial Biotechnology / Escherichia coli / Microbial / Microarray Analysis / Amino Acid Substitution Rates / Microbial Viability / Acids / Oxidants / Gene expression profiling / Microarray Analysis / Amino Acid Substitution Rates / Microbial Viability / Acids / Oxidants / Gene expression profiling
Bacterial persistence increases as environmental fitness decreases
Microbiology / Microbial biotechnology / Microbial Biotechnology / Escherichia coli / Microbial / Microarray Analysis / Amino Acid Substitution Rates / Microbial Viability / Acids / Oxidants / Gene expression profiling / Microarray Analysis / Amino Acid Substitution Rates / Microbial Viability / Acids / Oxidants / Gene expression profiling
Burkholderia cenocepacia J2315 acyl carrier protein: A potential target for antimicrobials\' development?
Microbiology / Immunology / Biofilms / Caenorhabditis elegans / Cystic Fibrosis / Medical Microbiology / Virulence / Humans / Models / Biofilm / Sequence alignment / Mutation / Escherichia coli / Animals / Bacteria / Microbial / Microbial Pathogenesis / Fatty Acid / Amino Acid Profile / Molecular Mass / Antibacterial Agent / Amino Acid Sequence / Cell Surface Markers / Burkholderia Cepacia Complex / Medical Microbiology / Virulence / Humans / Models / Biofilm / Sequence alignment / Mutation / Escherichia coli / Animals / Bacteria / Microbial / Microbial Pathogenesis / Fatty Acid / Amino Acid Profile / Molecular Mass / Antibacterial Agent / Amino Acid Sequence / Cell Surface Markers / Burkholderia Cepacia Complex
Burkholderia cenocepacia J2315 acyl carrier protein: A potential target for antimicrobials\' development?
Microbiology / Immunology / Biofilms / Caenorhabditis elegans / Cystic Fibrosis / Medical Microbiology / Virulence / Humans / Models / Biofilm / Sequence alignment / Mutation / Escherichia coli / Animals / Bacteria / Microbial / Microbial Pathogenesis / Fatty Acid / Amino Acid Profile / Molecular Mass / Antibacterial Agent / Amino Acid Sequence / Cell Surface Markers / Burkholderia Cepacia Complex / Molecular Sequence Data / Medical Microbiology / Virulence / Humans / Models / Biofilm / Sequence alignment / Mutation / Escherichia coli / Animals / Bacteria / Microbial / Microbial Pathogenesis / Fatty Acid / Amino Acid Profile / Molecular Mass / Antibacterial Agent / Amino Acid Sequence / Cell Surface Markers / Burkholderia Cepacia Complex / Molecular Sequence Data
Burkholderia cenocepacia J2315 acyl carrier protein: A potential target for antimicrobials\' development?
Microbiology / Immunology / Biofilms / Caenorhabditis elegans / Cystic Fibrosis / Medical Microbiology / Virulence / Humans / Models / Biofilm / Sequence alignment / Mutation / Escherichia coli / Animals / Bacteria / Microbial / Microbial Pathogenesis / Fatty Acid / Amino Acid Profile / Molecular Mass / Antibacterial Agent / Amino Acid Sequence / Cell Surface Markers / Burkholderia Cepacia Complex / Molecular Sequence Data / Acyl carrier protein / Medical Microbiology / Virulence / Humans / Models / Biofilm / Sequence alignment / Mutation / Escherichia coli / Animals / Bacteria / Microbial / Microbial Pathogenesis / Fatty Acid / Amino Acid Profile / Molecular Mass / Antibacterial Agent / Amino Acid Sequence / Cell Surface Markers / Burkholderia Cepacia Complex / Molecular Sequence Data / Acyl carrier protein
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