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173 results on '"Chaston, John M."'

1. The impact of Rhodiola rosea on biomarkers of diabetes, inflammation, and microbiota in a leptin receptor-knockout mouse model

Author

Jafari, Mahtab, Juanson Arabit, Jasmin Grace, Courville, Robert, Kiani, Dara, Chaston, John M, Nguyen, Cindy Duy, Jena, Nilamani, Liu, Zhong-Ying, Tata, Prasanthi, and Van Etten, Richard A

Subjects
Diabetes, Nutrition, 5.1 Pharmaceuticals, Development of treatments and therapeutic interventions, Aetiology, 2.1 Biological and endogenous factors, Metabolic and endocrine, Animals, Biomarkers, Diabetes Mellitus, Type 2, Inflammation, Mice, Mice, Knockout, Microbiota, Plant Extracts, Receptors, Leptin, Rhodiola
Abstract

Type 2 diabetes is the most prevalent endocrine disease in the world, and recently the gut microbiota have become a potential target for its management. Recent studies have illustrated that this disease may predispose individuals to certain microbiome compositions, and treatments like metformin have been shown to change gut microbiota and their associated metabolic pathways. However, given the limitations and side effects associated with pharmaceuticals currently being used for therapy of diabetes, there is a significant need for alternative treatments. In this study, we investigated the effects of a root extract from Rhodiola rosea in a Leptin receptor knockout (db/db) mouse model of type 2 diabetes. Our previous work showed that Rhodiola rosea had anti-inflammatory and gut microbiome-modulating properties, while extending lifespan in several animal models. In this study, treatment with Rhodiola rosea improved fasting blood glucose levels, altered the response to exogenous insulin, and decreased circulating lipopolysaccharide and hepatic C-reactive protein transcript levels. We hypothesize that these changes may in part reflect the modulation of the microbiota, resulting in improved gut barrier integrity and decreasing the translocation of inflammatory biomolecules into the bloodstream. These findings indicate that Rhodiola rosea is an attractive candidate for further research in the management of type 2 diabetes.

Published
2022

2. Microbiome composition shapes rapid genomic adaptation of Drosophila melanogaster

Author

Rudman, Seth M, Greenblum, Sharon, Hughes, Rachel C, Rajpurohit, Subhash, Kiratli, Ozan, Lowder, Dallin B, Lemmon, Skyler G, Petrov, Dmitri A, Chaston, John M, and Schmidt, Paul

Subjects
Climate Change Impacts and Adaptation, Biological Sciences, Ecology, Evolutionary Biology, Genetics, Environmental Sciences, Human Genome, Adaptation, Biological, Animals, Biological Evolution, Drosophila melanogaster, Gene Frequency, Genetics, Population, Genome, Genomics, Microbiota, Population Density, Selection, Genetic, genomics of adaptation, microbiome, rapid evolution
Abstract

Population genomic data has revealed patterns of genetic variation associated with adaptation in many taxa. Yet understanding the adaptive process that drives such patterns is challenging; it requires disentangling the ecological agents of selection, determining the relevant timescales over which evolution occurs, and elucidating the genetic architecture of adaptation. Doing so for the adaptation of hosts to their microbiome is of particular interest with growing recognition of the importance and complexity of host-microbe interactions. Here, we track the pace and genomic architecture of adaptation to an experimental microbiome manipulation in replicate populations of Drosophila melanogaster in field mesocosms. Shifts in microbiome composition altered population dynamics and led to divergence between treatments in allele frequencies, with regions showing strong divergence found on all chromosomes. Moreover, at divergent loci previously associated with adaptation across natural populations, we found that the more common allele in fly populations experimentally enriched for a certain microbial group was also more common in natural populations with high relative abundance of that microbial group. These results suggest that microbiomes may be an agent of selection that shapes the pattern and process of adaptation and, more broadly, that variation in a single ecological factor within a complex environment can drive rapid, polygenic adaptation over short timescales.

Published
2019

6. CRISPR required for host colonization

Author

Veesenmeyer, Jeff L, Andersen, Aaron W, Lu, Xiaojun, Hussa, Elizabeth A, Murfin, Kristen E, Chaston, John M, Dillman, Adler R, Wassarman, Karen M, Sternberg, Paul W, and Goodrich‐Blair, Heidi

Subjects
Microbiology, Biological Sciences, Infectious Diseases, Genetics, Digestive Diseases, Animals, Bacterial Proteins, Base Sequence, Clustered Regularly Interspaced Short Palindromic Repeats, DNA Transposable Elements, Intestines, Molecular Sequence Data, Mutagenesis, Insertional, RNA, Bacterial, Rhabditida, Symbiosis, Xenorhabdus, Agricultural and Veterinary Sciences, Medical and Health Sciences, Biological sciences
Abstract

The bacterium Xenorhabdus nematophila is a mutualist of entomopathogenic Steinernema carpocapsae nematodes and facilitates infection of insect hosts. X. nematophila colonizes the intestine of S. carpocapsae which carries it between insects. In the X. nematophila colonization-defective mutant nilD6::Tn5, the transposon is inserted in a region lacking obvious coding potential. We demonstrate that the transposon disrupts expression of a single CRISPR RNA, NilD RNA. A variant NilD RNA also is expressed by X. nematophila strains from S. anatoliense and S. websteri nematodes. Only nilD from the S. carpocapsae strain of X. nematophila rescued the colonization defect of the nilD6::Tn5 mutant, and this mutant was defective in colonizing all three nematode host species. NilD expression depends on the presence of the associated Cas6e but not Cas3, components of the Type I-E CRISPR-associated machinery. While cas6e deletion in the complemented strain abolished nematode colonization, its disruption in the wild-type parent did not. Likewise, nilD deletion in the parental strain did not impact colonization of the nematode, revealing that the requirement for NilD is evident only in certain genetic backgrounds. Our data demonstrate that NilD RNA is conditionally necessary for mutualistic host colonization and suggest that it functions to regulate endogenous gene expression.

Published
2014

7. Transcriptional profiling of trait deterioration in the insect pathogenic nematode Heterorhabditis bacteriophora.

Author

Adhikari, Bishwo N, Lin, Chin-Yo, Bai, Xiaodong, Ciche, Todd A, Grewal, Parwinder S, Dillman, Adler R, Chaston, John M, Shapiro-Ilan, David I, Bilgrami, Anwar L, Gaugler, Randy, Sternberg, Paul W, and Adams, Byron J

Subjects
Animals, Rhabditoidea, RNA, Helminth, Gene Expression Profiling, Pest Control, Biological, Signal Transduction, Quantitative Trait, Heritable, Expressed Sequence Tags, RNA, Helminth, Pest Control, Biological, Quantitative Trait, Heritable, Biological Sciences, Information and Computing Sciences, Medical and Health Sciences, Bioinformatics
Abstract

BackgroundThe success of a biological control agent depends on key traits, particularly reproductive potential, environmental tolerance, and ability to be cultured. These traits can deteriorate rapidly when the biological control agent is reared in culture. Trait deterioration under laboratory conditions has been widely documented in the entomopathogenic nematode (EPN) Heterorhabditis bacteriophora (Hb) but the specific mechanisms behind these genetic processes remain unclear. This research investigates the molecular mechanisms of trait deterioration of two experimental lines of Hb, an inbred line (L5M) and its original parental line (OHB). We generated transcriptional profiles of two experimental lines of Hb, identified the differentially expressed genes (DEGs) and validated their differential expression in the deteriorated line.ResultsAn expression profiling study was performed between experimental lines L5M and OHB of Hb with probes for 15,220 ESTs from the Hb transcriptome. Microarray analysis showed 1,185 DEGs comprising of 469 down- and 716 up-regulated genes in trait deteriorated nematodes. Analysis of the DEGs showed that trait deterioration involves massive changes of the transcripts encoding enzymes involved in metabolism, signal transduction, virulence and longevity. We observed a pattern of reduced expression of enzymes related to primary metabolic processes and induced secondary metabolism. Expression of sixteen DEGs in trait deteriorated nematodes was validated by quantitative reverse transcription-PCR (qRT-PCR) which revealed similar expression kinetics for all the genes tested as shown by microarray.ConclusionAs the most closely related major entomopathogen to C. elegans, Hb provides an attractive near-term application for using a model organism to better understand interspecies interactions and to enhance our understanding of the mechanisms underlying trait deterioration in biological control agents. This information could also be used to improve the beneficial traits of biological control agents and better understand fundamental aspects of nematode parasitism and mutualism.

Published
2009

17. Additional file 2 of Spatiotemporal variation in the fecal microbiota of mule deer is associated with proximate and future measures of host health

Author

Eddington, Hyrum S., Carroll, Courtney, Larsen, Randy T., McMillan, Brock R., and Chaston, John M.

Abstract

Additional file 2 Figure S1. Alpha Rarefaction Curve. Rarefaction curve suggests optimal sequencing depth for rareified samples to be approximately 13,000 reads. 104 samples out of 108 are retained.

Published
2021
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19. Symbiosis research, technology, and education: Proceedings of the 6th International Symbiosis Society Congress held in Madison Wisconsin, USA, August 2009

Author

Goodrich-Blair, Heidi, Ané, Jean-Michel, Bever, James D., Bordenstein, Seth R., Bright, Monika, Chaston, John M., Clay, Keith, Currie, Cameron R., Douglas, Angela E., Gerardo, Nicole, Harrison, Maria J., Ley, Ruth E., McFall-Ngai, Margaret, Mukherjee, Arijit, Rader, Bethany, Raffa, Kenneth F., Ruby, Edward G., Saffo, Mary Beth, Selosse, Marc-André, Sonnenburg, Justin L., Stock, S. Patricia, Suen, Garret, Turnau, Katarzyna, Udvardi, Michael, Visick, Karen L., and Weis, Virginia M.

Published
2010
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27. The microbiota influences the Drosophila melanogaster life history strategy

Author

Walters, Amber W., primary, Hughes, Rachel C., additional, Call, Tanner B., additional, Walker, Carson J., additional, Wilcox, Hailey, additional, Petersen, Samara C., additional, Rudman, Seth M., additional, Newell, Peter D., additional, Douglas, Angela E., additional, Schmidt, Paul S., additional, and Chaston, John M., additional

Published
2020
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30. Transcriptional profiling of trait deterioration in the insect pathogenic nematode Heterorhabditis bacteriophora

Author

Shapiro-Ilan David I, Chaston John M, Dillman Adler R, Grewal Parwinder S, Ciche Todd A, Bai Xiaodong, Lin Chin-Yo, Adhikari Bishwo N, Bilgrami Anwar L, Gaugler Randy, Sternberg Paul W, and Adams Byron J

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background The success of a biological control agent depends on key traits, particularly reproductive potential, environmental tolerance, and ability to be cultured. These traits can deteriorate rapidly when the biological control agent is reared in culture. Trait deterioration under laboratory conditions has been widely documented in the entomopathogenic nematode (EPN) Heterorhabditis bacteriophora (Hb) but the specific mechanisms behind these genetic processes remain unclear. This research investigates the molecular mechanisms of trait deterioration of two experimental lines of Hb, an inbred line (L5M) and its original parental line (OHB). We generated transcriptional profiles of two experimental lines of Hb, identified the differentially expressed genes (DEGs) and validated their differential expression in the deteriorated line. Results An expression profiling study was performed between experimental lines L5M and OHB of Hb with probes for 15,220 ESTs from the Hb transcriptome. Microarray analysis showed 1,185 DEGs comprising of 469 down- and 716 up-regulated genes in trait deteriorated nematodes. Analysis of the DEGs showed that trait deterioration involves massive changes of the transcripts encoding enzymes involved in metabolism, signal transduction, virulence and longevity. We observed a pattern of reduced expression of enzymes related to primary metabolic processes and induced secondary metabolism. Expression of sixteen DEGs in trait deteriorated nematodes was validated by quantitative reverse transcription-PCR (qRT-PCR) which revealed similar expression kinetics for all the genes tested as shown by microarray. Conclusion As the most closely related major entomopathogen to C. elegans, Hb provides an attractive near-term application for using a model organism to better understand interspecies interactions and to enhance our understanding of the mechanisms underlying trait deterioration in biological control agents. This information could also be used to improve the beneficial traits of biological control agents and better understand fundamental aspects of nematode parasitism and mutualism.

Published
2009
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43. Phenotypic variation and host interactions of Xenorhabdus bovienii SS-2004, the entomopathogenic symbiont of Steinernema jollieti nematodes

Author

Sugar, Darby R., Murfin, Kristen E., Chaston, John M., Andersen, Aaron W., Richards, Gregory R., deLéon, Limaris, Baum, James A., Clinton, William P., Forst, Steven, Goldman, Barry S., Krasomil-Osterfeld, Karina C., Slater, Steven, Stock, S. Patricia, and Goodrich-Blair, Heidi

Subjects
Intestines, Rhabditida, Phenotype, Adolescent, Virulence, fungi, Host-Pathogen Interactions, Animals, Humans, Symbiosis, Article, Xenorhabdus
Abstract

Xenorhabdus bovienii (SS-2004) bacteria reside in the intestine of the infective-juvenile (IJ) stage of the entomopathogenic nematode, Steinernema jollieti. The recent sequencing of the X. bovienii genome facilitates its use as a model to understand host - symbiont interactions. To provide a biological foundation for such studies, we characterized X. bovienii in vitro and host interaction phenotypes. Within the nematode host X. bovienii was contained within a membrane bound envelope that also enclosed the nematode-derived intravesicular structure. Steinernema jollieti nematodes cultivated on mixed lawns of X. bovienii expressing green or DsRed fluorescent proteins were predominantly colonized by one or the other strain, suggesting the colonizing population is founded by a few cells. Xenorhabdus bovienii exhibits phenotypic variation between orange-pigmented primary form and cream-pigmented secondary form. Each form can colonize IJ nematodes when cultured in vitro on agar. However, IJs did not develop or emerge from Galleria mellonella insects infected with secondary form. Unlike primary-form infected insects that were soft and flexible, secondary-form infected insects retained a rigid exoskeleton structure. Xenorhabdus bovienii primary and secondary form isolates are virulent towards Manduca sexta and several other insects. However, primary form stocks present attenuated virulence, suggesting that X. bovienii, like Xenorhabdus nematophila may undergo virulence modulation.

Published
2011

44. Correction: Corrigendum: Host genetic determinants of microbiota-dependent nutrition revealed by genome-wide analysis of Drosophila melanogaster

Author

Dobson, Adam J., primary, Chaston, John M., additional, Newell, Peter D., additional, Donahue, Leanne, additional, Hermann, Sara L., additional, Sannino, David R., additional, Westmiller, Stephanie, additional, Wong, Adam C.-N., additional, Clark, Andrew G., additional, Lazzaro, Brian P., additional, and Douglas, Angela E., additional

Published
2015
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45. Host genetic determinants of microbiota-dependent nutrition revealed by genome-wide analysis of Drosophila melanogaster

Author

Dobson, Adam J., primary, Chaston, John M., additional, Newell, Peter D., additional, Donahue, Leanne, additional, Hermann, Sara L., additional, Sannino, David R., additional, Westmiller, Stephanie, additional, Wong, Adam C.-N., additional, Clark, Andrew G., additional, Lazzaro, Brian P., additional, and Douglas, Angela E., additional

Published
2015
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46. NilD CRISPR RNA contributes to Xenorhabdus nematophila colonization of symbiotic host nematodes.

Author

Veesenmeyer, Jeff L, Veesenmeyer, Jeff L, Andersen, Aaron W, Lu, Xiaojun, Hussa, Elizabeth A, Murfin, Kristen E, Chaston, John M, Dillman, Adler R, Wassarman, Karen M, Sternberg, Paul W, Goodrich-Blair, Heidi, Veesenmeyer, Jeff L, Veesenmeyer, Jeff L, Andersen, Aaron W, Lu, Xiaojun, Hussa, Elizabeth A, Murfin, Kristen E, Chaston, John M, Dillman, Adler R, Wassarman, Karen M, Sternberg, Paul W, and Goodrich-Blair, Heidi

Abstract

The bacterium Xenorhabdus nematophila is a mutualist of entomopathogenic Steinernema carpocapsae nematodes and facilitates infection of insect hosts. X. nematophila colonizes the intestine of S. carpocapsae which carries it between insects. In the X. nematophila colonization-defective mutant nilD6::Tn5, the transposon is inserted in a region lacking obvious coding potential. We demonstrate that the transposon disrupts expression of a single CRISPR RNA, NilD RNA. A variant NilD RNA also is expressed by X. nematophila strains from S. anatoliense and S. websteri nematodes. Only nilD from the S. carpocapsae strain of X. nematophila rescued the colonization defect of the nilD6::Tn5 mutant, and this mutant was defective in colonizing all three nematode host species. NilD expression depends on the presence of the associated Cas6e but not Cas3, components of the Type I-E CRISPR-associated machinery. While cas6e deletion in the complemented strain abolished nematode colonization, its disruption in the wild-type parent did not. Likewise, nilD deletion in the parental strain did not impact colonization of the nematode, revealing that the requirement for NilD is evident only in certain genetic backgrounds. Our data demonstrate that NilD RNA is conditionally necessary for mutualistic host colonization and suggest that it functions to regulate endogenous gene expression.

Published
2014

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