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1.
Appl Spectrosc ; 66(12): 1480-6, 2012 Dec.
Article in English | MEDLINE | ID: mdl-23231912

ABSTRACT

We report on the optimization of a recently proposed mid-infrared chemical imaging (IRCI) detection method for the analysis of DNA microarrays. The improved protocol allowed for a ten-fold reduction in the time needed to generate a mosaic image of an entire microarray and the production of IR images with high contrast that would facilitate data analysis and interpretation. Advantages of using this protocol were evaluated by applying it to the analysis of four virulence genes in the genomes of 19 strains of the food bacterial pathogen Yersinia enterocolitica.


Subject(s)
Oligonucleotide Array Sequence Analysis/methods , Spectrophotometry, Infrared/methods , Bacterial Typing Techniques , DNA, Bacterial/analysis , DNA, Bacterial/chemistry , Genes, Bacterial , Polymerase Chain Reaction , Virulence , Yersinia enterocolitica/chemistry , Yersinia enterocolitica/classification , Yersinia enterocolitica/genetics
2.
Methods Mol Biol ; 881: 73-95, 2012.
Article in English | MEDLINE | ID: mdl-22639211

ABSTRACT

The era of fast and accurate discovery of biological sequence motifs in prokaryotic and eukaryotic cells is here. The co-evolution of direct genome sequencing and DNA microarray strategies not only will identify, isotype, and serotype pathogenic bacteria, but also it will aid in the discovery of new gene functions by detecting gene expressions in different diseases and environmental conditions. Microarray bacterial identification has made great advances in working with pure and mixed bacterial samples. The technological advances have moved beyond bacterial gene expression to include bacterial identification and isotyping. Application of new tools such as mid-infrared chemical imaging improves detection of hybridization in DNA microarrays. The research in this field is promising and future work will reveal the potential of infrared technology in bacterial identification. On the other hand, DNA sequencing by using 454 pyrosequencing is so cost effective that the promise of $1,000 per bacterial genome sequence is becoming a reality. Pyrosequencing technology is a simple to use technique that can produce accurate and quantitative analysis of DNA sequences with a great speed. The deposition of massive amounts of bacterial genomic information in databanks is creating fingerprint phylogenetic analysis that will ultimately replace several technologies such as Pulsed Field Gel Electrophoresis. In this chapter, we will review (1) the use of DNA microarray using fluorescence and infrared imaging detection for identification of pathogenic bacteria, and (2) use of pyrosequencing in DNA cluster analysis to fingerprint bacterial phylogenetic trees.


Subject(s)
Oligonucleotide Array Sequence Analysis/methods , Sequence Analysis, DNA/methods , Food Microbiology/methods , Polymorphism, Single Nucleotide/genetics , Salmonella/genetics
3.
PLoS One ; 6(2): e16579, 2011 Feb 23.
Article in English | MEDLINE | ID: mdl-21373185

ABSTRACT

BACKGROUND: In May 2008, PulseNet detected a multistate outbreak of Salmonella enterica serotype Saintpaul infections. Initial investigations identified an epidemiologic association between illness and consumption of raw tomatoes, yet cases continued. In mid-June, we investigated two clusters of outbreak strain infections in Texas among patrons of Restaurant A and two establishments of Restaurant Chain B to determine the outbreak's source. METHODOLOGY/PRINCIPAL FINDINGS: We conducted independent case-control studies of Restaurant A and B patrons. Patients were matched to well controls by meal date. We conducted restaurant environmental investigations and traced the origin of implicated products. Forty-seven case-patients and 40 controls were enrolled in the Restaurant A study. Thirty case-patients and 31 controls were enrolled in the Restaurant Chain B study. In both studies, illness was independently associated with only one menu item, fresh salsa (Restaurant A: matched odds ratio [mOR], 37; 95% confidence interval [CI], 7.2-386; Restaurant B: mOR, 13; 95% CI 1.3-infinity). The only ingredient in common between the two salsas was raw jalapeño peppers. Cultures of jalapeño peppers collected from an importer that supplied Restaurant Chain B and serrano peppers and irrigation water from a Mexican farm that supplied that importer with jalapeño and serrano peppers grew the outbreak strain. CONCLUSIONS/SIGNIFICANCE: Jalapeño peppers, contaminated before arrival at the restaurants and served in uncooked fresh salsas, were the source of these infections. Our investigations, critical in understanding the broader multistate outbreak, exemplify an effective approach to investigating large foodborne outbreaks. Additional measures are needed to reduce produce contamination.


Subject(s)
Capsicum/microbiology , Disease Outbreaks , Research Report , Restaurants , Salmonella Infections/epidemiology , Adolescent , Adult , Aged , Case-Control Studies , Child , Child, Preschool , Female , Humans , Male , Middle Aged , Restaurants/statistics & numerical data , Salmonella Food Poisoning/epidemiology , Salmonella Infections/diagnosis , Salmonella enterica/classification , Serotyping , Texas/epidemiology , Young Adult
4.
J Infect Dev Ctries ; 5(2): 94-105, 2011 Mar 02.
Article in English | MEDLINE | ID: mdl-21389588

ABSTRACT

INTRODUCTION: Rapid, accurate and inexpensive analysis of the disease-causing potential of foodborne pathogens is an important consideration in food safety and biodefense, particularly in developing countries. The objective of this study is to demonstrate the use of a robust and inexpensive microarray platform to assay the virulence gene profiles in Salmonella from food and/or the food animal environment, and then use ArrayTrack™ for data analysis. METHODOLOGY: The spotted array consisted of 69 selected Salmonella-specific virulence gene probes (65bp each). These probes were printed on poly-L-lysine-coated slides. Genomic DNA was digested with Sau3AI, labeled with Cy3 dye, hybridized to the gene probes, and the images were captured and analyzed by GenePix 4000B and ArrayTrack™, a free software developed by Food and Drug Administration (FDA) researchers. RESULTS: Nearly 58% of the virulence-associated genes tested were present in all Salmonella strains tested. In general, genes belonging to inv, pip, prg, sic, sip, spa or ttr families were detected in more than 90% of the isolates, while the iacP, avrA, invH, rhuM, sirA, sopB, sopE or sugR genes were detected in 40 to 80% of the isolates. The gene variability was independent of the Salmonella serotype. CONCLUSIONS: This hybridization array presents an accurate and cost-effective method for evaluating the disease-causing potential of Salmonella in outbreak investigations by targeting a selective set of Salmonella-associated virulence genes.


Subject(s)
Bacterial Proteins/genetics , Food Microbiology , Salmonella enterica/genetics , Salmonella enterica/pathogenicity , Virulence/genetics , Animal Feed/microbiology , Animal Husbandry , Animals , DNA Probes , Gene Expression Profiling , Humans , Oligonucleotide Array Sequence Analysis/economics , Oligonucleotide Array Sequence Analysis/methods , Polymerase Chain Reaction , Salmonella enterica/classification , Serotyping , Software , Time Factors , Turkeys/microbiology
5.
J Food Sci ; 76(6): M324-8, 2011 Aug.
Article in English | MEDLINE | ID: mdl-22417504

ABSTRACT

UNLABELLED: Powdered infant formula has previously been linked to the transmission of various bacterial pathogens in infants resulting in life-threatening disease and death. Survival studies of 2 common foodborne pathogens, Salmonella enterica serovar Typhi and Shigella dysenteriae, in powdered infant formula have not been previously studied despite the potentially devastating consequences from ingestion of these organisms, particularly by newborns, in case of a natural or deliberate contamination event. Therefore, to better predict the risk of S. Typhi and S. dysenteriae infection from consumption of infant formula, the present study was undertaken to determine survival of these microorganisms in dry infant formula under varying atmospheric conditions. A 2-strain cocktail of S. Typhi and a 3-strain cocktail of S. dysenteriae were stored for up to 12 wk in dehydrated infant formula in an ambient air or nitrogen atmosphere. Viable counts of S. Typhi at 12 wk in infant formula revealed a 2.9- and 1.69-log decrease in ambient air and nitrogen atmosphere, respectively. Viable counts of S. dysenteriae at 12 wk in infant formula revealed a 0.81- and 0.42-log decrease in ambient air and nitrogen atmosphere, respectively. These results show that S. Typhi and S. dysenteriae can remain viable for prolonged periods of time in powdered infant formula, and the presence of nitrogen enhances survival. PRACTICAL APPLICATION: Our goal in this work was to study the survival of S. Typhi and S. dysenteriae in dehydrated storage conditions in infant formula. This interest is partially generated by the possibility of using these 2 microorganisms to deliberately contaminate the food supply. The outcome of this study will help us to have a better idea how to respond and react to the risk of deliberate food contamination.


Subject(s)
Food, Preserved/microbiology , Infant Formula , Microbial Viability , Salmonella typhi/growth & development , Shigella dysenteriae/growth & development , Colony Count, Microbial , Food Packaging , Food, Fortified/analysis , Food, Fortified/microbiology , Food, Preserved/analysis , Foodborne Diseases/prevention & control , Freeze Drying , Humans , Infant , Infant Formula/chemistry , Iron, Dietary/antagonists & inhibitors , Nitrogen/metabolism , Oxygen/metabolism , Time Factors
6.
Appl Spectrosc ; 64(11): 1191-8, 2010 Nov.
Article in English | MEDLINE | ID: mdl-21073786

ABSTRACT

To date most mid-infrared spectroscopic studies have been limited, due to lack of sensitivity, to the structural characterization of a single oligonucleotide probe immobilized over the entire surface of a gold-coated slide or other infrared substrate. By contrast, widely used and commercially available glass slides and a microarray spotter that prints approximately 120-µm-diameter DNA spots were employed in the present work. To our knowledge, mid-infrared chemical imaging (IRCI) in the external reflection mode has been applied in the present study for the first time to the detection of nanostructure-based DNA microarrays spotted on glass slides. Alkyl amine-modified oligonucleotide probes were immobilized on glass slides that had been prefunctionalized with succinimidyl ester groups. This molecular fluorophore-free method entailed the binding of gold-nanoparticle-streptavidin conjugates to biotinylated DNA targets. Hybridization was visualized by the silver enhancement of gold nanoparticles. The adlayer of silver, selectively bound only to hybridized spots in a microarray, formed the external reflective infrared substrate that was necessary for the detection of DNA hybridization by IRCI in the present proof-of-concept study. IRCI made it possible to discriminate between diffuse and specular external reflection modes. The promising qualitative results are presented herein, and the implications for quantitative determination of DNA microarrays are discussed.


Subject(s)
Image Processing, Computer-Assisted/methods , Metal Nanoparticles/chemistry , Molecular Probes/chemistry , Oligonucleotide Array Sequence Analysis/methods , Spectrophotometry, Infrared/methods , Clostridium perfringens , DNA, Bacterial/chemistry , DNA, Bacterial/metabolism , Glass , Gold/chemistry , Silicates , Silver/chemistry , Streptavidin/chemistry , Streptavidin/metabolism
7.
Foodborne Pathog Dis ; 6(8): 1001-7, 2009 Oct.
Article in English | MEDLINE | ID: mdl-19630511

ABSTRACT

Using robotic automation, a microarray printing protocol for whole bacterial cells was developed for subsequent label-free and nondestructive infrared microspectroscopic detection. Using this contact microspotting system, 24 microorganisms were printed on zinc selenide slides; these were 6 species of Listeria, 10 species of Vibrio, 2 strains of Photobacterium damselae, Yersinia enterocolitica 289, Bacillus cereus ATCC 14529, Staphylococcus aureus, ATCC 19075 (serotype 104 B), Shigella sonnei 20143, Klebsiella pneumoniae KP73, Enterobacter cloacae, Citrobacter freundii 200, and Escherichia coli. Microarrays consisting of separate spots of bacterial deposits gave consistent and reproducible infrared spectra, which were differentiated by unsupervised pattern recognition algorithms. Two multivariate analysis algorithms, principal component analysis and hierarchical cluster analysis, successfully separated most, but not all, the bacteria investigated down to the species level.


Subject(s)
Bacteria/isolation & purification , Bacterial Typing Techniques , Food Contamination/analysis , Microarray Analysis/methods , Spectroscopy, Fourier Transform Infrared/methods , Bacteria/classification , Bacteria/pathogenicity , Cluster Analysis , Food Microbiology , Foodborne Diseases/diagnosis , Foodborne Diseases/prevention & control , Microchemistry , Multivariate Analysis , Principal Component Analysis , Reproducibility of Results , Selenium Compounds/chemistry , Species Specificity , Zinc Compounds/chemistry
8.
Curr Microbiol ; 59(3): 233-9, 2009 Sep.
Article in English | MEDLINE | ID: mdl-19504157

ABSTRACT

Four different food matrices (alfalfa, cilantro, mamey sapote, and mung bean) were contaminated with three different dilutions 10(6), 10(4), and 10(3) cfu/g of Yersinia enterocolitica. DNA was isolated from each food mix and used in chromosomal amplifications. The amplified DNA was used as templates in single PCR reactions of the four genes (virF, ail, yst, and blaA) followed by mixing the four reactions for one PCR primer extension reaction. The presence and the limit of detection of four genes in four food matrices were established by microarray hybridization. Data revealed the diversity of signal intensities. Neither the microarray chip hybridization nor the single PCR amplification could detect virF's presence located on a plasmid. Ail was detected in 10(3) cfu/g, whereas blaA and yst were detected from 10(5) to 10(6) cfu/g in all food matrices. Therefore, the ail gene could be the gene of choice in identifying Y. enterocolitica in alfalfa, cilantro, mamey, and mung bean. Other genes--blaA, yst, virF--exhibited wide variability in hybridization signals, highlighting the need of a better DNA purification step prior to DNA microarray hybridization.


Subject(s)
Food Microbiology , Oligonucleotide Array Sequence Analysis/methods , Polymerase Chain Reaction/methods , Yersinia enterocolitica/isolation & purification , Colony Count, Microbial , Coriandrum/microbiology , Fabaceae/microbiology , Genes, Bacterial , Mammea/microbiology , Sensitivity and Specificity , Yersinia enterocolitica/genetics
9.
Mol Cell Probes ; 20(3-4): 163-71, 2006.
Article in English | MEDLINE | ID: mdl-16487678

ABSTRACT

In order to design and validate a method to identify virulence genes of Salmonella typhimurium using DNA microarray, a protocol was developed to label the isolated bacterial DNA directly and to use PCR amplification of limited numbers of genes to validate the hybridization signals. Therefore, a DNA microarray chip of 71 virulence genes of S. typhimurium was developed and evaluated using 10 isolates. Each gene was represented by 65bp oligonucleotide probes (oligoprobes) and immobilized on the surface of chemically modified slides. Whole DNA genomes were digested with Hinf1 and Sau3AI, labeled with a fluorescent tag of Cy3 and then hybridized. The presence of virulence genes in 10 strains of S. typhimurium was established by measuring a fluorescent signal above the background noise of the chip. PCR amplification of 10 genes (orgA, ORF319, ttrB, rmbA, misL, spi4F, spi4H, spi4N, rRNA, and purR) of S. typhimurium was used as a standard to verify the confidence level of the DNA microarray chip. In conclusion, using PCR amplification to increase the confidence level of the microarray hybridization data was successful.


Subject(s)
DNA, Bacterial/genetics , Oligonucleotide Array Sequence Analysis/methods , Salmonella typhimurium/genetics , Base Sequence , DNA Primers/chemistry , DNA, Bacterial/chemistry , Electrophoresis, Gel, Pulsed-Field , Molecular Sequence Data , Oligonucleotide Probes/chemistry , Polymerase Chain Reaction/methods , RNA, Ribosomal, 16S/genetics , Reproducibility of Results , Salmonella typhimurium/classification , Virulence/genetics
10.
J Agric Food Chem ; 53(9): 3735-42, 2005 May 04.
Article in English | MEDLINE | ID: mdl-15853428

ABSTRACT

Capillary gas chromatography (GC) with flame ionization detection was used to determine the cellular fatty acid profiles of various food-borne microbial pathogens and to compare the fatty acid profiles of spores and vegetative cells of the same endospore-forming bacilli. Fifteen bacteria, representing eight genera (Staphylococcus, Listeria, Bacillus, Yersinia, Salmonella, Shigella, Escherichia, and Vibrio) and 11 species were used to compare the extracted fatty acid methyl esters (FAMEs). Endospore-forming bacilli were processed to obtain pure spores and whole cell FAMEs for GC analysis. A data set for each bacterial agent was prepared using fatty acid profiles from five replicates prepared on different days. The results showed that these fatty acid intensity profiles were unique for each of the 11 species and that they could be used as a fingerprint for the organisms. The cellular fatty acid profiles for Bacillus anthracis and Bacillus cereus show that there are two branched chain fatty acids, iso 17:1 omega10c and 17:1 anteiso, which are unique in these species. Iso 17:1 omega10c is present in B. cereus vegetative cells and spores but is not observed in B. anthracis. The 17:1 anteiso fatty acid is present in B. anthracis cells but not in B. cereus cells. Fatty acids 16:0 2OH and 17:0 iso 3OH are present in B. anthracis and B. cereus spores but not in the vegetative cells. In summary, analysis of FAMEs from bacteria and spores can provide a sensitive procedure for the identification of food-borne pathogens.


Subject(s)
Bacteria/chemistry , Fatty Acids/analysis , Food Microbiology , Bacillus anthracis/chemistry , Bacillus cereus/chemistry , Chromatography, Gas/methods , Spores, Bacterial/chemistry
12.
Biosens Bioelectron ; 20(4): 684-98, 2004 Nov 01.
Article in English | MEDLINE | ID: mdl-15522583

ABSTRACT

Food-borne pathogens are a major health problem. The large and diverse number of microbial pathogens and their virulence factors has fueled interest in technologies capable of detecting multiple pathogens and multiple virulence factors simultaneously. Some of these pathogens and their toxins have potential use as bioweapons. DNA microarray technology allows the simultaneous analysis of thousands of sequences of DNA in a relatively short time, making it appropriate for biodefense and for public health uses. This paper describes methods for using DNA microarrays to detect and analyze microbial pathogens. The FDA-1 microarray was developed for the simultaneous detection of several food-borne pathogens and their virulence factors including Listeria spp., Campylobacter spp., Staphylococcus aureus enterotoxin genes and Clostridium perfringens toxin genes. Three elements were incorporated to increase confidence in the microarray detection system: redundancy of genes, redundancy of oligonucleotide probes (oligoprobes) for a specific gene, and quality control oligoprobes to monitor array spotting and target DNA hybridization. These elements enhance the reliability of detection and reduce the chance of erroneous results due to the genetic variability of microbes or technical problems with the microarray. The results presented demonstrate the potential of oligonucleotide microarrays for detection of environmental and biodefense relevant microbial pathogens.


Subject(s)
Bacteria/isolation & purification , Bioterrorism , Environmental Monitoring/instrumentation , Food Analysis/instrumentation , Food Contamination/analysis , Oligonucleotide Array Sequence Analysis/instrumentation , Security Measures , Bacteria/classification , Bacteria/genetics , Biological Warfare , Environmental Monitoring/methods , Equipment Design , Equipment Failure Analysis , Food Analysis/methods , Food Microbiology , Oligonucleotide Array Sequence Analysis/methods , Reproducibility of Results , Sensitivity and Specificity , Systems Integration
13.
Int J Food Microbiol ; 91(3): 289-96, 2004 Mar 15.
Article in English | MEDLINE | ID: mdl-14984776

ABSTRACT

A DNA microarray method was developed to identify the presence of toxin genes: encoding beta toxin (cpb), epsilon toxin (etx), enterotoxin (cpe), alpha toxin (cpa), and iota toxin (iA) in Clostridium perfringens. To build the DNA chip, each gene sequence was represented by one approximately 22-bp amino-modified oligonucleotide printed twice on aldehyde-coated slides. Multiplex PCR with Cy3 and Cy5-dCTP derivatized fluorescent nucleotides was used to label five genes and fluorescent probes were prepared. The PCR probes were denatured and single-strand-labeled DNAs were separated and purified using magnetic beads. The presence of toxin genes in C. perfringens was detected by hybridization of amplified ssDNA probes to oligonucleotides on the chip representing one target sequence of each toxin gene. The DNA chip was able to identify eight strains of C. perfringens.


Subject(s)
Clostridium perfringens/isolation & purification , DNA, Bacterial/chemistry , Enterotoxins/genetics , Oligonucleotide Array Sequence Analysis/methods , Clostridium perfringens/genetics , DNA Primers , Food Contamination , Food Microbiology , Gene Amplification , Genotype , Polymerase Chain Reaction
15.
Foodborne Pathog Dis ; 1(3): 172-7, 2004.
Article in English | MEDLINE | ID: mdl-15992277

ABSTRACT

A microarray method for the deposition of bacteria onto an agar slide was developed to accelerate the formation of microcolonies. Representative microarrays each consisting of 40 micro-spots of five replicates of eight foodborne bacteria (Yersinia enterocolitica, Staphylococcus aureus, Salmonella typhimurium, Listeria monocytogenes, Enterobacter cloacae, Citrobacter freundii, Klebsiella pneumoniae, and Escherichia coli) were printed on a Brain Heart Infusion (BHI) agar slide using a contact micro-spotting robotic system. Within 3 h, sufficient bacterial cells were obtained to allow accurate identification of the microorganism by infrared spectroscopy. This approach allows a "complete-in-a-single-day" analysis of a large array of samples.


Subject(s)
Bacteria/isolation & purification , Food Microbiology , Microarray Analysis/methods , Spectroscopy, Fourier Transform Infrared/methods , Citrobacter freundii/isolation & purification , Cluster Analysis , Enterobacter cloacae/isolation & purification , Escherichia coli/isolation & purification , Klebsiella pneumoniae/isolation & purification , Listeria monocytogenes/isolation & purification , Salmonella typhimurium/isolation & purification , Sensitivity and Specificity , Species Specificity , Staphylococcus aureus/isolation & purification , Time Factors , Yersinia enterocolitica/isolation & purification
16.
J AOAC Int ; 85(4): 906-10, 2002.
Article in English | MEDLINE | ID: mdl-12180686

ABSTRACT

Microarray analysis is an emerging technology that has the potential to become a leading trend in bacterial identification in food and feed improvement. The technology uses fluorescent-labeled probes amplified from bacterial samples that are then hybridized to thousands of DNA sequences immobilized on chemically modified glass slides. The whole gene or open reading frame(s) is represented by a polymerase chain reaction fragment of double-strand DNA, approximately 1000 base pair (bp) or 20-70 bp single-strand oligonucleotides. The technology can be used to identity bacteria and to study gene expression in complex microbial populations, such as those found in food and gastrointestinal tracts. Data generated by microarray analysis can be potentially used to improve the safety of our food supply as well as ensure the efficiency of animal feed conversion to human food, e.g., in meat and milk production by ruminants. This minireview addresses the use of microarray technology in bacterial identification and gene expression in different microbial systems and in habitats containing mixed populations of bacteria.


Subject(s)
Food Microbiology , Oligonucleotide Array Sequence Analysis , Animals , Bacteria/genetics , Bacteria/isolation & purification , Bacteria/pathogenicity , Bacteriological Techniques , DNA, Bacterial/genetics , DNA, Bacterial/isolation & purification , Environment , Genes, Bacterial , Humans , Rumen/microbiology
17.
Curr Microbiol ; 44(3): 161-6, 2002 Mar.
Article in English | MEDLINE | ID: mdl-11821922

ABSTRACT

The gene coding for O-acetylserine lyase (OASL) was cloned from a Selenomonas ruminantium HD4 Lambda ZAP II genomic library by degenerative probe hybridization and complementation. Sequence analysis revealed a 933 bp ORF with a G + C content of 53%. The ORF had significant homology with enzymes involved in cysteine biosynthesis. A CuraBLASTN homology search showed that the ORF shared 59% nucleotide identity with the cysK of Bacillus subtilis. The deduced amino acid sequence exhibited high (>70%) similarity with the CysK of B. subtilis and other cysteine synthesis proteins from Mycobacterium tuberculosis, Mycobacterium leprae, and Spinacia oleracea. Further analysis predicted that the gene product was a member of the pyridoxal phosphate enzyme family and of cytoplasmic origin. Phylogenetic analysis clustered the S. ruminantium gene product with the OASLa isoform of B. subtilis and the OASLb isoforms of Streptococcus suis, Escherichia coli, and Campylobacter jejuni. The OASL of S. ruminantium HD4 was also able to complement the cysM cysK double mutations in Escherichia coli NK3 and allow for growth on minimal media that contained either sulfate or thiosulfate as the sole source of sulfur. These results suggest that the gene functions as a cysM in S. ruminantium HD4. In conclusion, this research describes the cloning and expression of an O-acetylserine lyase gene from the predominant ruminal anaerobe S. ruminantium HD4. To our knowledge, this is the first report characterizing genes involved in sulfur metabolism from the genus Selenomonas.


Subject(s)
Cysteine Synthase/genetics , Genes, Bacterial , Selenomonas/enzymology , Selenomonas/genetics , Amino Acid Sequence , Animals , Bacillus subtilis/enzymology , Bacillus subtilis/genetics , Base Sequence , Cloning, Molecular , DNA, Bacterial/genetics , Escherichia coli/genetics , Gene Expression , Genetic Complementation Test , Molecular Sequence Data , Phylogeny , Rumen/microbiology , Sequence Homology, Amino Acid
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