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152. Identification of synthetic inducers and inhibitors of the quorum-sensing regulator LasR in Pseudomonas aeruginosa by high-throughput screening.

Author

Borlee BR, Geske GD, Blackwell HE, and Handelsman J

Subjects
Enzyme Inhibitors isolation & purification, High-Throughput Screening Assays, Pseudomonas aeruginosa drug effects, Pseudomonas aeruginosa physiology, Pseudomonas putida physiology, Transcriptional Activation drug effects, Anti-Bacterial Agents isolation & purification, Bacterial Proteins antagonists & inhibitors, Bacterial Proteins biosynthesis, Pseudomonas putida drug effects, Quorum Sensing drug effects, Trans-Activators antagonists & inhibitors, Trans-Activators biosynthesis
Abstract

We report the screening of 16,000 synthetic compounds for induction and inhibition of quorum sensing in a Pseudomonas putida N-acylated l-homoserine lactone (AHL) sensor strain engineered with the LasR transcriptional activator. LasR controls virulence gene expression in the opportunistic pathogen Pseudomonas aeruginosa and is of significant interest as a therapeutic target. Nine compounds that inhibit and 14 compounds that induce LasR activity were identified in our high-throughput screen.

Published
2010
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153. A quadruple-enterotoxin-deficient mutant of Bacillus thuringiensis remains insecticidal.

Author

Klimowicz AK, Benson TA, and Handelsman J

Subjects
Animals, Bacillus thuringiensis genetics, Bacterial Proteins genetics, Bacterial Proteins pharmacology, Enterotoxins genetics, Enterotoxins pharmacology, Hemolysin Proteins chemistry, Hemolysin Proteins genetics, Hemolysin Proteins pharmacology, Insecticides metabolism, Larva drug effects, Molecular Sequence Data, Moths drug effects, Pest Control, Biological, Bacillus thuringiensis metabolism, Bacterial Proteins metabolism, Enterotoxins deficiency, Hemolysin Proteins deficiency, Insecticides pharmacology, Sequence Deletion
Abstract

Bacillus thuringiensis is the leading biopesticide used to control insect pests worldwide. Although they have a long record of safe use, under certain conditions commercial strains of B. thuringiensis have the ability to produce numerous putative enterotoxins that have been associated with food poisoning attributed to Bacillus cereus. Therefore, we designed a strategy to delete the genes encoding these toxins. B. thuringiensis strain VBTS 2477 contained genes encoding NHE, CytK-2 and three homologues of haemolysin BL (HBL, HBL(a1) and HBL(a2)). This is the first report, to our knowledge, of a strain of B. cereus or B. thuringiensis containing three sets of hbl operons. The genes encoding HBL(a1) and HBL(a2) were 96-97 % identical to each other and 76-84 % identical to those encoding HBL. The hbl(a2) operon was detected by PCR amplification only after hbl(a1) was deleted. We used sequential gene replacement to replace the wild-type copies of the NHE and three HBL operons with copies that contained internal deletions that span the three genes in each operon. The insecticidal activity of the quadruple-enterotoxin-deficient mutant was similar to that of the wild-type strain against larvae of Trichoplusia ni, Spodoptera exigua and Plutella xylostella. This demonstrates that the genes for enterotoxins can be deleted, eliminating the possibility of enterotoxin production without compromising the insecticidal efficacy of a strain of B. thuringiensis.

Published
2010
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155. Psychrotrophic strain of Janthinobacterium lividum from a cold Alaskan soil produces prodigiosin.

Author

Schloss PD, Allen HK, Klimowicz AK, Mlot C, Gross JA, Savengsuksa S, McEllin J, Clardy J, Ruess RW, and Handelsman J

Subjects
Alaska, Biodiversity, Indoles metabolism, Multigene Family genetics, Oxalobacteraceae genetics, Oxalobacteraceae physiology, Pigments, Biological biosynthesis, beta-Lactam Resistance genetics, Cold Temperature, Oxalobacteraceae isolation & purification, Oxalobacteraceae metabolism, Prodigiosin biosynthesis, Soil Microbiology
Abstract

We have explored the microbial community in a nonpermafrost, cold Alaskan soil using both culture-based and culture-independent approaches. In the present study, we cultured >1000 bacterial isolates from this soil and characterized the collection of isolates phylogenetically and functionally. A screen for antibiosis identified an atypical, red-pigmented strain of Janthinobacterium lividum (strain BR01) that produced prodigiosin when grown at cool temperatures as well as strains (e.g., strain BP01) that are more typical of J. lividium, which produce a purple pigment, violacein. Both purple- and red-pigmented strains exhibited high levels of resistance to beta-lactam antibiotics. The prodigiosin pathway cloned from J. lividium BR01 was expressed in the heterologous host, Escherichia coli, and the responsible gene cluster differs from that of a well-studied prodigiosin producer, Serratia sp. J. lividum BR01 is the first example of a prodigiosin-producer among the beta-Proteobacteria. The results show that characterization of cultured organisms from previously unexplored environments can expand the current portrait of the microbial world.

Published
2010
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158. Novel florfenicol and chloramphenicol resistance gene discovered in Alaskan soil by using functional metagenomics.

Author

Lang KS, Anderson JM, Schwarz S, Williamson L, Handelsman J, and Singer RS

Subjects
Alaska, DNA, Bacterial chemistry, DNA, Bacterial genetics, Molecular Sequence Data, Sequence Analysis, DNA, Thiamphenicol pharmacology, Anti-Bacterial Agents pharmacology, Chloramphenicol Resistance, Genes, Bacterial, Metagenomics methods, Soil Microbiology, Thiamphenicol analogs & derivatives
Abstract

Functional metagenomics was used to search for florfenicol resistance genes in libraries of cloned DNA isolated from Alaskan soil. A gene that mediated reduced susceptibility to florfenicol was identified and designated pexA. The predicted PexA protein showed a structure similar to that of efflux pumps of the major facilitator superfamily.

Published
2010
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159. Metagenomic analysis of apple orchard soil reveals antibiotic resistance genes encoding predicted bifunctional proteins.

Author

Donato JJ, Moe LA, Converse BJ, Smart KD, Berklein FC, McManus PS, and Handelsman J

Subjects
Acetyltransferases genetics, Acetyltransferases metabolism, Anti-Bacterial Agents pharmacology, Chloramphenicol pharmacology, Cloning, Molecular, Kanamycin pharmacology, Microbial Sensitivity Tests, Molecular Sequence Data, Sequence Analysis, DNA, Transposases genetics, Transposases metabolism, beta-Lactamases genetics, beta-Lactamases metabolism, DNA, Bacterial genetics, Drug Resistance, Microbial genetics, Escherichia coli drug effects, Escherichia coli genetics, Escherichia coli metabolism, Malus growth & development, Metagenomics methods, Proteins genetics, Proteins metabolism, Soil analysis
Abstract

To gain insight into the diversity and origins of antibiotic resistance genes, we identified resistance genes in the soil in an apple orchard using functional metagenomics, which involves inserting large fragments of foreign DNA into Escherichia coli and assaying the resulting clones for expressed functions. Among 13 antibiotic-resistant clones, we found two genes that encode bifunctional proteins. One predicted bifunctional protein confers resistance to ceftazidime and contains a natural fusion between a predicted transcriptional regulator and a beta-lactamase. Sequence analysis of the entire metagenomic clone encoding the predicted bifunctional beta-lactamase revealed a gene potentially involved in chloramphenicol resistance as well as a predicted transposase. A second clone that encodes a predicted bifunctional protein confers resistance to kanamycin and contains an aminoglycoside acetyltransferase domain fused to a second acetyltransferase domain that, based on nucleotide sequence, was predicted not to be involved in antibiotic resistance. This is the first report of a transcriptional regulator fused to a beta-lactamase and of an aminoglycoside acetyltransferase fused to an acetyltransferase not involved in antibiotic resistance.

Published
2010
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161. Searching for excellence & diversity: increasing the hiring of women faculty at one academic medical center.

Author

Sheridan JT, Fine E, Pribbenow CM, Handelsman J, and Carnes M

Subjects
Academic Medical Centers, Education, Female, Humans, United States, Wisconsin, Faculty, Medical standards, Personnel Selection standards, Women
Abstract

One opportunity to realize the diversity goals of academic health centers comes at the time of hiring new faculty. To improve the effectiveness of search committees in increasing the gender diversity of faculty hires, the authors created and implemented a training workshop for faculty search committees designed to improve the hiring process and increase the diversity of faculty hires at the University of Wisconsin-Madison. They describe the workshops, which they presented in the School of Medicine and Public Health between 2004 and 2007, and they compare the subsequent hiring of women faculty in participating and nonparticipating departments and the self-reported experience of new faculty within the hiring process. Attendance at the workshop correlates with improved hiring of women faculty and with a better hiring experience for faculty recruits, especially women. The authors articulate successful elements of workshop implementation for other medical schools seeking to increase gender diversity on their faculties.

Published
2010
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162. Effect of clonal variation among hybrid poplars on susceptibility of gypsy moth (Lepidoptera: Lymantriidae) to Bacillus thuringiensis subsp. kurstaki.

Author

Broderick NA, Vasquez E, Handelsman J, and Raffa KF

Subjects
Animals, Bacillus thuringiensis Toxins, Hybridization, Genetic, Larva growth & development, Bacterial Proteins, Endotoxins, Hemolysin Proteins, Insecticides, Moths physiology, Populus genetics
Abstract

Trees in the genus Populus can provide substantial commercial and ecological benefits, including sustainable alternatives to traditional forestry. Realization of this potential requires intensive management, but damage by defoliating insects can severely limit productivity in such systems. Two approaches to limiting these losses include cultivation of poplar varieties with inherent resistance to pests and application of microbial pesticides. Little is known about the interaction between host resistance and the ability of poplars to support the efficacy of biocontrol agents. The research described here was conducted to survey the effect of hybrid poplar clones on gypsy moth, Lymantria dispar (L.) (Lepidoptera: Lymantriidae), a pest on these trees. We assessed the effect of various poplar clones on larval performance and susceptibility to Bacillus thuringiensis subsp. kurstaki. Larvae were reared from hatching on the foliage of 25 hybrid poplar clones and we monitored larval survival, development time, and weight at fourth instar. Eight of these clones showed high resistance against gypsy moth. The remaining clones showed high variation in their effect on larval performance. We evaluated the susceptibility of third-instar larvae to B. thuringiensis subsp. kurstaki when reared on the 17 remaining clones. There was a significant effect of poplar clone on time to death after ingestion of B. thuringiensis subsp. kurstaki. The susceptibility of gypsy moth larvae to B. thuringiensis on various clones was not correlated with the effects of these clones on larval performance in the absence of B. thuringiensis, suggesting this interaction is more complex than merely reflecting higher mortality to previously stressed larvae.

Published
2010
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164. Call of the wild: antibiotic resistance genes in natural environments.

Author

Allen HK, Donato J, Wang HH, Cloud-Hansen KA, Davies J, and Handelsman J

Subjects
Anti-Bacterial Agents therapeutic use, Environment, Environmental Monitoring, Gram-Negative Bacteria genetics, Humans, Kinetics, Selection, Genetic, Water Movements, Wind, Drug Resistance, Bacterial genetics, Genes, Bacterial
Abstract

Antibiotic-resistant pathogens are profoundly important to human health, but the environmental reservoirs of resistance determinants are poorly understood. The origins of antibiotic resistance in the environment is relevant to human health because of the increasing importance of zoonotic diseases as well as the need for predicting emerging resistant pathogens. This Review explores the presence and spread of antibiotic resistance in non-agricultural, non-clinical environments and demonstrates the need for more intensive investigation on this subject.

Published
2010
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165. Robustness of the bacterial community in the cabbage white butterfly larval midgut.

Author

Robinson CJ, Schloss P, Ramos Y, Raffa K, and Handelsman J

Subjects
Animals, Anti-Bacterial Agents pharmacology, Bacteria classification, Bacteria drug effects, DNA, Bacterial genetics, Digestive System microbiology, Larva microbiology, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Time Factors, Bacteria genetics, Biodiversity, Butterflies microbiology, Phylogeny
Abstract

Microbial communities typically vary in composition and structure over space and time. Little is known about the inherent characteristics of communities that govern various drivers of these changes, such as random variation, changes in response to perturbation, or susceptibility to invasion. In this study, we use 16S ribosomal RNA gene sequences to describe variation among bacterial communities in the midguts of cabbage white butterfly (Pieris rapae) larvae and examine the influence of community structure on susceptibility to invasion. We compared communities in larvae experiencing the same conditions at different times (temporal variation) or fed different diets (perturbation). The most highly represented phylum was Proteobacteria, which was present in all midgut communities. The observed species richness ranged from six to 15, and the most abundant members affiliated with the genera Methylobacteria, Asaia, Acinetobacter, Enterobacter, and Pantoea. Individual larvae subjected to the same conditions at the same time harbored communities that were highly similar in structure and membership, whereas the communities observed within larval populations changed with diet and over time. In addition, structural changes due to perturbation coincided with enhanced susceptibility to invasion by Enterobacter sp. NAB3R and Pantoea stewartii CWB600, suggesting that resistance to invasion is in part governed by community structure. These findings along with the observed conservation of membership at the phylum level, variation in structure and membership at lower taxonomic levels, and its relative simplicity make the cabbage white butterfly larval community an attractive model for studying community dynamics and robustness.

Published
2010
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168. News from DNA and cell biology.

Author

Handelsman J

Subjects
Animals, Binding Sites genetics, Cells cytology, Cells metabolism, Collagen Type I genetics, Collagen Type I, alpha 1 Chain, DNA chemistry, DNA genetics, Humans, Promoter Regions, Genetic genetics, Protein Binding, Smad2 Protein genetics, Smad2 Protein metabolism, Sp1 Transcription Factor genetics, Sp1 Transcription Factor metabolism, Transforming Growth Factor beta1 pharmacology, Up-Regulation drug effects, Internet, Periodicals as Topic, Publications trends
Published
2009
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170. Isolation and cloning of high-molecular-weight metagenomic DNA from soil microorganisms.

Author

Liles MR, Williamson LL, Rodbumrer J, Torsvik V, Parsley LC, Goodman RM, and Handelsman J

Subjects
Bacteria genetics, Bacteria isolation & purification, Chromosomes, Artificial, Bacterial genetics, DNA chemistry, DNA isolation & purification, DNA, Bacterial chemistry, DNA, Bacterial isolation & purification, Genomic Library, Molecular Weight, Plasmids genetics, DNA genetics, Metagenome genetics, Metagenomics methods, Soil Microbiology
Published
2009
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174. Contributions of gut bacteria to Bacillus thuringiensis-induced mortality vary across a range of Lepidoptera.

Author

Broderick NA, Robinson CJ, McMahon MD, Holt J, Handelsman J, and Raffa KF

Subjects
Animals, Anti-Bacterial Agents pharmacology, Bacteria classification, Bacteria drug effects, Biodiversity, Enterobacter physiology, Gastrointestinal Tract microbiology, Lepidoptera drug effects, Mortality, Bacillus thuringiensis physiology, Lepidoptera microbiology
Abstract

Background: Gut microbiota contribute to the health of their hosts, and alterations in the composition of this microbiota can lead to disease. Previously, we demonstrated that indigenous gut bacteria were required for the insecticidal toxin of Bacillus thuringiensis to kill the gypsy moth, Lymantria dispar. B. thuringiensis and its associated insecticidal toxins are commonly used for the control of lepidopteran pests. A variety of factors associated with the insect host, B. thuringiensis strain, and environment affect the wide range of susceptibilities among Lepidoptera, but the interaction of gut bacteria with these factors is not understood. To assess the contribution of gut bacteria to B. thuringiensis susceptibility across a range of Lepidoptera we examined larval mortality of six species in the presence and absence of their indigenous gut bacteria. We then assessed the effect of feeding an enteric bacterium isolated from L. dispar on larval mortality following ingestion of B. thuringiensis toxin., Results: Oral administration of antibiotics reduced larval mortality due to B. thuringiensis in five of six species tested. These included Vanessa cardui (L.), Manduca sexta (L.), Pieris rapae (L.) and Heliothis virescens (F.) treated with a formulation composed of B. thuringiensis cells and toxins (DiPel), and Lymantria dispar (L.) treated with a cell-free formulation of B. thuringiensis toxin (MVPII). Antibiotics eliminated populations of gut bacteria below detectable levels in each of the insects, with the exception of H. virescens, which did not have detectable gut bacteria prior to treatment. Oral administration of the Gram-negative Enterobacter sp. NAB3, an indigenous gut resident of L. dispar, restored larval mortality in all four of the species in which antibiotics both reduced susceptibility to B. thuringiensis and eliminated gut bacteria, but not in H. virescens. In contrast, ingestion of B. thuringiensis toxin (MVPII) following antibiotic treatment significantly increased mortality of Pectinophora gossypiella (Saunders), which was also the only species with detectable gut bacteria that lacked a Gram-negative component. Further, mortality of P. gossypiella larvae reared on diet amended with B. thuringiensis toxin and Enterobacter sp. NAB3 was generally faster than with B. thuringiensis toxin alone., Conclusion: This study demonstrates that in some larval species, indigenous gut bacteria contribute to B. thuringiensis susceptibility. Moreover, the contribution of enteric bacteria to host mortality suggests that perturbations caused by toxin feeding induce otherwise benign gut bacteria to exert pathogenic effects. The interaction between B. thuringiensis and the gut microbiota of Lepidoptera may provide a useful model with which to identify the factors involved in such transitions.

Published
2009
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176. Resident microbiota of the gypsy moth midgut harbors antibiotic resistance determinants.

Author

Allen HK, Cloud-Hansen KA, Wolinski JM, Guan C, Greene S, Lu S, Boeyink M, Broderick NA, Raffa KF, and Handelsman J

Subjects
Animals, Anti-Bacterial Agents immunology, Anti-Bacterial Agents pharmacology, Bacteria drug effects, Bacteria immunology, Drug Resistance, Bacterial drug effects, Drug Resistance, Bacterial immunology, Gene Library, Larva microbiology, Metagenomics, Moths microbiology, Bacteria genetics, Drug Resistance, Bacterial genetics, Gastrointestinal Tract microbiology, Genes, Bacterial immunology, Metagenome immunology
Abstract

Little is known about the significance of insects as environmental reservoirs of antibiotic-resistant bacteria. We characterized the antibiotic resistome of the microbial community in gypsy moth larval midguts by applying functional metagenomics to cultured isolates. The minimum inhibitory concentrations of 12 antibiotics were determined for 44 cultured isolates, and antibiotic resistance genes were selected from metagenomic libraries derived from DNA extracted from a pool of the isolates. Six unique clones were identified. Two were highly resistant to penicillin-type beta-lactams, two were moderately resistant to erythromycin, and two were moderately resistant to a range of antibiotics, including erythromycin, carbenicillin, and chloramphenicol. Sequence analysis predicted that the active genes encoded efflux pumps, a transcriptional activator of efflux pump protein expression, and an extended-spectrum class A beta-lactamase. Insect guts are a reservoir of antibiotic resistance genes with the potential for dissemination.

Published
2009
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177. Odd, weird, and bizarre: model systems issue.

Author

Handelsman J

Subjects
Animals, Basidiomycota genetics, Ciliophora genetics, Gene Silencing, Genes, Mitochondrial genetics, Gram-Positive Bacteria genetics, Humans, Mollusca genetics, Platypus genetics, Recombination, Genetic genetics, Sex Chromosomes genetics, Viroids genetics, Gene Expression Regulation genetics, Models, Genetic
Published
2009
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178. Functional metagenomics reveals diverse beta-lactamases in a remote Alaskan soil.

Author

Allen HK, Moe LA, Rodbumrer J, Gaarder A, and Handelsman J

Subjects
Alaska, Anti-Bacterial Agents pharmacology, Cloning, Molecular, DNA, Bacterial chemistry, DNA, Bacterial genetics, Escherichia coli drug effects, Escherichia coli genetics, Humans, Molecular Sequence Data, Phylogeny, Sequence Analysis, DNA, Sequence Homology, beta-Lactam Resistance, beta-Lactams pharmacology, Bacteria enzymology, Bacteria genetics, Soil Microbiology, beta-Lactamases genetics
Abstract

Despite the threat posed by antibiotic resistance in infectious bacteria, little is known about the diversity, distribution and origins of resistance genes, particularly among the as yet unculturable environmental bacteria. One potentially rich but largely unstudied environmental reservoir is soil. The complexity of its microbial community coupled with its high density of antibiotic-producing bacteria makes the soil a likely origin for diverse antibiotic resistance determinants. To investigate antibiotic resistance genes among uncultured bacteria in an undisturbed soil environment, we undertook a functional metagenomic analysis of a remote Alaskan soil. We report that this soil is a reservoir for beta-lactamases that function in Escherichia coli, including divergent beta-lactamases and the first bifunctional beta-lactamase. Our findings suggest that even in the absence of selective pressure imposed by anthropogenic activity, the soil microbial community in an unpolluted site harbors unique and ancient beta-lactam resistance determinants. Moreover, despite their evolutionary distance from previously known genes, the Alaskan beta-lactamases confer resistance on E. coli without manipulating its gene expression machinery, demonstrating the potential for soil resistance genes to compromise human health, if transferred to pathogens.

Published
2009
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181. Quorum-sensing signals in the microbial community of the cabbage white butterfly larval midgut.

Author

Borlee BR, Geske GD, Robinson CJ, Blackwell HE, and Handelsman J

Subjects
Acyl-Butyrolactones metabolism, Animals, Bacterial Proteins genetics, Genes, Reporter, Luminescent Proteins biosynthesis, Luminescent Proteins genetics, Molecular Sequence Data, Pantoea genetics, Pantoea isolation & purification, Pantoea physiology, Pseudomonas Infections microbiology, Pseudomonas aeruginosa pathogenicity, Survival Analysis, Transcription Factors genetics, Bacterial Physiological Phenomena, Gastrointestinal Tract microbiology, Larva microbiology, Lepidoptera microbiology, Quorum Sensing
Abstract

The overall goal of this study was to examine the role of quorum-sensing (QS) signals in a multispecies microbial community. Toward this aim, we studied QS signals produced by an indigenous member and an invading pathogen of the microbial community of the cabbage white butterfly (CWB) larval midgut (Pieris rapae). As an initial step, we characterized the QS system in Pantoea CWB304, which was isolated from the larval midgut. A luxI homolog, designated panI, is necessary for the production of N-acyl-L-homoserine lactones (AHLs) by Pantoea CWB304. To determine whether AHL signals are exchanged in the alkaline environment of the midgut, we constructed AHL-sensing bioluminescent reporter strains in Pantoea CWB304 and a panI mutant of this strain. In the gut of the CWB larvae, the reporter in an AHL-deficient Pantoea CWB304 detected AHLs when coinoculated with the wild type. To study the role of AHL signals produced by a community invader, we examined pathogenesis of Pseudomonas aeruginosa PAO1 in CWB larvae. Mortality induced by P. aeruginosa PAO1 was significantly reduced when signaling was interrupted by either a potent chemical inhibitor of QS or mutations in the lasI and rhlI AHL synthases of P. aeruginosa PAO1. These results show that AHLs are exchanged among bacteria in the alkaline gut of CWB larvae and contribute to disease caused by P. aeruginosa PAO1.

Published
2008
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182. Gut microbiota of an invasive subcortical beetle, Agrilus planipennis Fairmaire, across various life stages.

Author

Vasanthakumar A, Handelsman J, Schloss PD, Bauer LS, and Raffa KF

Subjects
Animals, Bacteria chemistry, Cellulase analysis, Gastrointestinal Tract microbiology, Larva microbiology, RNA, Bacterial genetics, Bacteria genetics, Coleoptera microbiology, RNA, Ribosomal, 16S genetics
Abstract

We characterized gut microbial communities in the emerald ash borer, Agrilus planipennis Fairmaire, an invasive phloem-feeding and wood-boring beetle that has caused extensive mortality to urban and forest ash trees. Analyses included both 16S rRNA gene-based and culture-based approaches. We estimated that the emerald ash borer gut harbors 44, 71, and 49 operational taxonomic units (OTUs(0.03)) in the larval, prepupal, and adult stages, respectively, and a total of 132 OTUs(0.03) when data from the three stages are pooled. The larval gut community shared all its OTUs(0.03) with either the adult or the prepupal gut community, and the adult and prepupal gut communities shared 27 OTUs(0.03). Twenty-two OTUs(0.03) were shared among the three life stages. Rarefaction analyses suggest that these gut microbial communities are close to being completely sampled at the phylum level. Culture-independent techniques yielded a higher diversity of bacteria than did culturing. Three species of bacteria inhabiting guts of emerald ash borer showed cellulolytic activity. The diverse, dynamic, and presumably multifunctional microbial community associated with emerald ash borer guts suggests that invasive insects should be viewed as multispecies complexes and that such an interpretation can improve our ability to develop more effective management approaches.

Published
2008
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184. Money, sex, and drugs: a case study to teach the genetics of antibiotic resistance.

Author

Cloud-Hansen KA, Kuehner JN, Tong L, Miller S, and Handelsman J

Subjects
Curriculum, Data Collection, Educational Measurement, Female, Humans, Learning, Male, Problem Solving, Students, Surveys and Questionnaires, Drug Resistance, Microbial genetics, Pharmaceutical Preparations economics, Sexual Behavior, Teaching methods
Abstract

The goal of the work reported here was to help students expand their understanding of antibiotic resistance, the Central Dogma, and evolution. We developed a unit entitled "Ciprofloxacin Resistance in Neisseria gonorrhoeae," which was constructed according to the principles of scientific teaching by a team of graduate students, science faculty, and instructors. A variety of activities and assessments were used, including a case study, short lectures, and group problem-solving. Implementation of "Ciprofloxacin Resistance in Neisseria gonorrhoeae" in a college freshman seminar suggests these materials are useful in increasing understanding of complex biological topics and improving problem-solving abilities.

Published
2008
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186. Recovery, purification, and cloning of high-molecular-weight DNA from soil microorganisms.

Author

Liles MR, Williamson LL, Rodbumrer J, Torsvik V, Goodman RM, and Handelsman J

Subjects
Deoxyribonucleases antagonists & inhibitors, Enzyme Inhibitors pharmacology, Formamides pharmacology, Molecular Weight, Cloning, Molecular, DNA genetics, DNA isolation & purification, Molecular Biology methods, Soil Microbiology
Abstract

We describe here an improved method for isolating, purifying, and cloning DNA from diverse soil microbiota. Soil microorganisms were extracted from soils and embedded and lysed within an agarose plug. Nucleases that copurified with the metagenomic DNA were removed by incubating plugs with a high-salt and -formamide solution. This method was used to construct large-insert soil metagenomic libraries.

Published
2008
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187. Metagenomics is not enough.

Author

Handelsman J

Subjects
Bacteria growth & development, Bacteria metabolism, Models, Theoretical, Bacteria genetics, Genome, Bacterial, Genomics
Published
2008
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188. Youth matters.

Author

Handelsman J

Subjects
Age Factors, Career Choice, Financing, Government, Humans, Workforce, Biomedical Research economics
Published
2008
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189. Miniprimer PCR, a new lens for viewing the microbial world.

Author

Isenbarger TA, Finney M, Ríos-Velázquez C, Handelsman J, and Ruvkun G

Subjects
Computational Biology, DNA, Archaeal analysis, DNA, Archaeal genetics, DNA, Bacterial analysis, DNA, Bacterial genetics, Escherichia coli genetics, Gene Library, Halobacterium genetics, Molecular Sequence Data, Sequence Analysis, DNA, Taq Polymerase genetics, DNA Primers genetics, DNA-Directed DNA Polymerase genetics, Geologic Sediments microbiology, Polymerase Chain Reaction methods, RNA, Ribosomal, 16S genetics, Soil Microbiology
Abstract

Molecular methods based on the 16S rRNA gene sequence are used widely in microbial ecology to reveal the diversity of microbial populations in environmental samples. Here we show that a new PCR method using an engineered polymerase and 10-nucleotide "miniprimers" expands the scope of detectable sequences beyond those detected by standard methods using longer primers and Taq polymerase. After testing the method in silico to identify divergent ribosomal genes in previously cloned environmental sequences, we applied the method to soil and microbial mat samples, which revealed novel 16S rRNA gene sequences that would not have been detected with standard primers. Deeply divergent sequences were discovered with high frequency and included representatives that define two new division-level taxa, designated CR1 and CR2, suggesting that miniprimer PCR may reveal new dimensions of microbial diversity.

Published
2008
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191. A statistical toolbox for metagenomics: assessing functional diversity in microbial communities.

Author

Schloss PD and Handelsman J

Subjects
Animals, Bone and Bones microbiology, Data Interpretation, Statistical, Models, Genetic, Peptide Fragments genetics, RNA, Ribosomal, 16S genetics, Bacteria genetics, Computational Biology methods, Genetic Variation, Genomics methods, Soil Microbiology, Water Microbiology, Whales microbiology
Abstract

Background: The 99% of bacteria in the environment that are recalcitrant to culturing have spurred the development of metagenomics, a culture-independent approach to sample and characterize microbial genomes. Massive datasets of metagenomic sequences have been accumulated, but analysis of these sequences has focused primarily on the descriptive comparison of the relative abundance of proteins that belong to specific functional categories. More robust statistical methods are needed to make inferences from metagenomic data. In this study, we developed and applied a suite of tools to describe and compare the richness, membership, and structure of microbial communities using peptide fragment sequences extracted from metagenomic sequence data., Results: Application of these tools to acid mine drainage, soil, and whale fall metagenomic sequence collections revealed groups of peptide fragments with a relatively high abundance and no known function. When combined with analysis of 16S rRNA gene fragments from the same communities these tools enabled us to demonstrate that although there was no overlap in the types of 16S rRNA gene sequence observed, there was a core collection of operational protein families that was shared among the three environments., Conclusion: The results of comparisons between the three habitats were surprising considering the relatively low overlap of membership and the distinctively different characteristics of the three habitats. These tools will facilitate the use of metagenomics to pursue statistically sound genome-based ecological analyses.

Published
2008
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192. Rules of engagement: interspecies interactions that regulate microbial communities.

Author

Little AE, Robinson CJ, Peterson SB, Raffa KF, and Handelsman J

Subjects
Biological Evolution, Gene Transfer, Horizontal, Genetics, Microbial, Genomics, Species Specificity, Ecosystem, Microbiological Phenomena
Abstract

Microbial communities comprise an interwoven matrix of biological diversity modified by physical and chemical variation over space and time. Although these communities are the major drivers of biosphere processes, relatively little is known about their structure and function, and predictive modeling is limited by a dearth of comprehensive ecological principles that describe microbial community processes. Here we discuss working definitions of central ecological terms that have been used in various fashions in microbial ecology, provide a framework by focusing on different types of interactions within communities, review the status of the interface between evolutionary and ecological study, and highlight important similarities and differences between macro- and microbial ecology. We describe current approaches to study microbial ecology and progress toward predictive modeling.

Published
2008
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194. Signal mimics derived from a metagenomic analysis of the gypsy moth gut microbiota.

Author

Guan C, Ju J, Borlee BR, Williamson LL, Shen B, Raffa KF, and Handelsman J

Subjects
4-Butyrolactone analogs & derivatives, 4-Butyrolactone biosynthesis, Animals, Bacteria metabolism, Bacterial Proteins metabolism, Biosensing Techniques methods, Chromobacterium genetics, DNA, Bacterial chemistry, DNA, Bacterial isolation & purification, Gene Library, Genes, Reporter genetics, Genomics methods, Green Fluorescent Proteins analysis, Green Fluorescent Proteins genetics, Mixed Function Oxygenases genetics, Molecular Sequence Data, Promoter Regions, Genetic drug effects, Repressor Proteins metabolism, Sequence Analysis, DNA, Trans-Activators metabolism, Vibrio genetics, Bacteria genetics, DNA, Bacterial genetics, Gastrointestinal Tract microbiology, Genome, Bacterial, Moths microbiology, Quorum Sensing genetics
Abstract

Bacterial signaling is an important part of community life, but little is known about the signal transduction pathways of the as-yet-uncultured members of microbial communities. To address this gap, we aimed to identify genes directing the synthesis of signals in uncultured bacteria associated with the midguts of gypsy moth larvae. We constructed a metagenomic library consisting of DNA extracted directly from the midgut microbiota and analyzed it using an intracellular screen designated METREX, which detects inducers of quorum sensing. In this screen, the metagenomic DNA and a biosensor reside in the same cell. The biosensor consists of a quorum-sensing promoter, which requires an acylhomoserine lactone or other small molecule ligand for activation, driving the expression of the reporter gene gfp. We identified an active metagenomic clone encoding a monooxygenase homologue that mediates a pathway of indole oxidation that leads to the production of a quorum-sensing inducing compound. The signal from this clone induces the activities of LuxR from Vibrio fischeri and CviR from Chromobacterium violaceum. This study is the first to identify a new structural class of quorum-sensing inducer from uncultured bacteria.

Published
2007
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195. Thirteen-lined ground squirrels (Spermophilus tridecemlineatus) harbor multiantibiotic-resistant bacteria.

Author

Cloud-Hansen KA, Villiard KM, Handelsman J, and Carey HV

Subjects
Animals, Bacteria classification, Bacteria drug effects, Cecum microbiology, Female, Hibernation, Male, Microbial Sensitivity Tests, Bacteria isolation & purification, Drug Resistance, Multiple, Bacterial, Sciuridae microbiology
Abstract

Whether wild-caught animals used for biomedical research carry antibiotic-resistant bacteria is not well studied. Thirteen- lined ground squirrels (Spermophilus tridecemlineatus) are small mammals used to study hibernation. These animals are captured from the wild or are born in laboratory animal facilities to wild-caught mothers. Because microorganisms harbored by 13-lined ground squirrels may be pathogenic to their caretakers and other laboratory animals, learning more about antibiotic resistance in these animals could be useful. In this study, tetracycline- and chloramphenicol-resistant Morganella morganii and multidrug resistant Stenotrophomonas maltophilia were isolated from the ceca of four 13-lined ground squirrels. These findings support further study of antibiotic-resistant bacterial populations in wild-caught mammals used as laboratory models.

Published
2007

196. The last word: books as a statistical metaphor for microbial communities.

Author

Schloss PD and Handelsman J

Subjects
Animals, Books, Mice, Mice, Obese, Models, Statistical, Ecology, Microbiology
Abstract

Microbial communities contain unparalleled complexity, making them difficult to describe and compare. Characterizing this complexity will contribute to understanding the ecological processes that drive microbe-host interactions, bioremediation, and biogeochemistry. Moreover, an estimate of species richness will provide an indication of the completeness of a community profile. Such estimates are difficult, however, because community structure rarely fits a well-defined distribution. We present a model based on the word usage in books to illustrate the power of statistical tools in describing microbial communities and suggesting biological hypotheses. The model also generates data to test these methods when there are insufficient data in the literature. For example, by simulating the word distribution in books, we can predict the number of words that must be read to estimate the size of the vocabulary used to write the book. Combined with other models that have been used to make inaccessible problems tractable, our book model offers a unique approach to the complex problem of describing microbial diversity.

Published
2007
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197. Midgut bacteria required for Bacillus thuringiensis insecticidal activity.

Author

Broderick NA, Raffa KF, and Handelsman J

Subjects
Animals, Anti-Bacterial Agents pharmacology, Bacillus thuringiensis growth & development, Enterobacter drug effects, Escherichia coli drug effects, Escherichia coli physiology, Larva microbiology, Bacillus thuringiensis pathogenicity, Digestive System microbiology, Enterobacter physiology, Moths microbiology
Abstract

Bacillus thuringiensis is the most widely applied biological insecticide and is used to manage insects that affect forestry and agriculture and transmit human and animal pathogens. This ubiquitous spore-forming bacterium kills insect larvae largely through the action of insecticidal crystal proteins and is commonly deployed as a direct bacterial spray. Moreover, plants engineered with the cry genes encoding the B. thuringiensis crystal proteins are the most widely cultivated transgenic crops. For decades, the mechanism of insect killing has been assumed to be toxin-mediated lysis of the gut epithelial cells, which leads to starvation, or B. thuringiensis septicemia. Here, we report that B. thuringiensis does not kill larvae of the gypsy moth in the absence of indigenous midgut bacteria. Elimination of the gut microbial community by oral administration of antibiotics abolished B. thuringiensis insecticidal activity, and reestablishment of an Enterobacter sp. that normally resides in the midgut microbial community restored B. thuringiensis-mediated killing. Escherichia coli engineered to produce the B. thuringiensis insecticidal toxin killed gypsy moth larvae irrespective of the presence of other bacteria in the midgut. However, when the engineered E. coli was heat-killed and then fed to the larvae, the larvae did not die in the absence of the indigenous midgut bacteria. E. coli and the Enterobacter sp. achieved high populations in hemolymph, in contrast to B. thuringiensis, which appeared to die in hemolymph. Our results demonstrate that B. thuringiensis-induced mortality depends on enteric bacteria.

Published
2006
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198. Introducing SONS, a tool for operational taxonomic unit-based comparisons of microbial community memberships and structures.

Author

Schloss PD and Handelsman J

Subjects
Classification, Ecosystem, Environmental Microbiology, Nuclear Family, Biodiversity, Ecology, Software
Abstract

The recent advent of tools enabling statistical inferences to be drawn from comparisons of microbial communities has enabled the focus of microbial ecology to move from characterizing biodiversity to describing the distribution of that biodiversity. Although statistical tools have been developed to compare community structures across a phylogenetic tree, we lack tools to compare the memberships and structures of two communities at a particular operational taxonomic unit (OTU) definition. Furthermore, current tests of community structure do not indicate the similarity of the communities but only report the probability of a statistical hypothesis. Here we present a computer program, SONS, which implements nonparametric estimators for the fraction and richness of OTUs shared between two communities.

Published
2006
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199. Hydroxymalonyl-acyl carrier protein (ACP) and aminomalonyl-ACP are two additional type I polyketide synthase extender units.

Author

Chan YA, Boyne MT 2nd, Podevels AM, Klimowicz AK, Handelsman J, Kelleher NL, and Thomas MG

Subjects
Acyl Carrier Protein isolation & purification, Apoproteins isolation & purification, Bacillus cereus chemistry, Chromatography, High Pressure Liquid, Computational Biology, Genes, Bacterial genetics, Molecular Sequence Data, Peptides analysis, Peptides chemistry, Polyketide Synthases metabolism, Spectrometry, Mass, Electrospray Ionization, Acyl Carrier Protein chemistry, Acyl Carrier Protein metabolism, Malonates chemistry, Polyketide Synthases chemistry
Abstract

Combinatorial biosynthesis of type I polyketide synthases is a promising approach for the generation of new structural derivatives of polyketide-containing natural products. A target of this approach has been to change the extender units incorporated into a polyketide backbone to alter the structure and activity of the natural product. One limitation to these efforts is that only four extender units were known: malonyl-CoA, methylmalonyl-CoA, ethylmalonyl-CoA, and methoxymalonyl-acyl carrier protein (ACP). The chemical attributes of these extender units are quite similar, with the exception of the potential hydrogen bonding interactions by the oxygen of the methoxy moiety. Furthermore, the incorporated extender units are not easily modified by using simple chemical approaches when combinatorial biosynthesis is coupled to semisynthetic chemistry. We recently proposed the existence of two additional extender units, hydroxymalonyl-ACP and aminomalonyl-ACP, involved in the biosynthesis of zwittermicin A. These extender units offer unique possibilities for combinatorial biosynthesis and semisynthetic chemistry because of the introduction of free hydroxyl and amino moieties into a polyketide structure. Here, we present the biochemical and mass spectral evidence for the formation of these extender units. This evidence shows the formation of ACP-linked extender units for polyketide synthesis. Interestingly, aminomalonyl-ACP formation involves enzymology typically found in nonribosomal peptide synthesis.

Published
2006
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200. Breaching the great wall: peptidoglycan and microbial interactions.

Author

Cloud-Hansen KA, Peterson SB, Stabb EV, Goldman WE, McFall-Ngai MJ, and Handelsman J

Subjects
Animals, Cell Wall chemistry, Cytotoxins metabolism, Gram-Negative Bacteria pathogenicity, Gram-Negative Bacterial Infections immunology, Humans, Peptidoglycan genetics, Plant Diseases microbiology, Symbiosis, Cell Wall metabolism, Gram-Negative Bacteria metabolism, Gram-Negative Bacterial Infections microbiology, Peptidoglycan metabolism
Abstract

Once thought to be a process that occurred only in a few human pathogens, release of biologically active peptidoglycan fragments during growth by Gram-negative bacteria controls many types of bacterial interaction, including symbioses and interactions between microorganisms. This Perspective explores the role of peptidoglycan fragments in mediating a range of microbial-host interactions, and discusses the many systems in which peptidoglycan fragments released during bacterial growth might be active.

Published
2006
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