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391 results on '"Goulian, Mark"'

1. A commensal-encoded genotoxin drives restriction of Vibrio cholerae colonization and host gut microbiome remodeling.

Author

Chen, Jiandong, Byun, Hyuntae, Liu, Rui, Jung, I-Ji, Pu, Qinqin, Zhu, Clara, Tanchoco, Ethan, Alavi, Salma, Degnan, Patrick, Ma, Amy, Roggiani, Manuela, Beld, Joris, Goulian, Mark, Hsiao, Ansel, and Zhu, Jun

Subjects
Vibrio cholerae, colibactin, microbiome, Animals, Antibiosis, Cholera, DNA Damage, Disease Models, Animal, Escherichia coli, Gastrointestinal Microbiome, Host-Pathogen Interactions, Humans, Mice, Microbial Interactions, Mutagens, Peptides, Polyketides, Prognosis, Reactive Oxygen Species, Vibrio cholerae
Abstract

SignificanceIn a polymicrobial battlefield where different species compete for nutrients and colonization niches, antimicrobial compounds are the sword and shield of commensal microbes in competition with invading pathogens and each other. The identification of an Escherichia coli-produced genotoxin, colibactin, and its specific targeted killing of enteric pathogens and commensals, including Vibrio cholerae and Bacteroides fragilis, sheds light on our understanding of intermicrobial interactions in the mammalian gut. Our findings elucidate the mechanisms through which genotoxins shape microbial communities and provide a platform for probing the larger role of enteric multibacterial interactions regarding infection and disease outcomes.

Published
2022

3. Dietary carbohydrates regulate intestinal colonization and dissemination of Klebsiella pneumoniae

Author

Hecht, Aaron L., Harling, Lisa C., Friedman, Elliot S., Tanes, Ceylan, Lee, Junhee, Firrman, Jenni, Hao, Fuhua, Tu, Vincent, Liu, LinShu, Patterson, Andrew D., Bittinger, Kyle, Goulian, Mark, and Wu, Gary D.

Subjects
Microbiota (Symbiotic organisms) -- Physiological aspects -- Health aspects, Fiber in human nutrition -- Physiological aspects -- Health aspects, Carbohydrates -- Health aspects -- Physiological aspects, Klebsiella -- Growth -- Control -- Physiological aspects, Company growth, Health care industry
Abstract

Bacterial translocation from the gut microbiota is a source of sepsis in susceptible patients. Previous work suggests that overgrowth of gut pathobionts, including Klebsiella pneumoniae, increases the risk of disseminated infection. Our data from a human dietary intervention study found that, in the absence of fiber, K. pneumoniae bloomed during microbiota recovery from antibiotic treatment. We thus hypothesized that dietary nutrients directly support or suppress colonization of this gut pathobiont in the microbiota. Consistent with our study in humans, complex carbohydrates in dietary fiber suppressed the colonization of K. pneumoniae and allowed for recovery of competing commensals in mouse models. In contrast, through ex vivo and in vivo modeling, we identified simple carbohydrates as a limiting resource for K. pneumoniae in the gut. As proof of principle, supplementation with lactulose, a nonabsorbed simple carbohydrate and an FDA-approved therapy, increased colonization of K. pneumoniae. Disruption of the intestinal epithelium led to dissemination of K. pneumoniae into the bloodstream and liver, which was prevented by dietary fiber. Our results show that dietary simple and complex carbohydrates were critical not only in the regulation of pathobiont colonization but also disseminated infection, suggesting that targeted dietary interventions may offer a preventative strategy in high-risk patients., Introduction Bacterial translocation from the gut microbiota is a significant source of sepsis in susceptible patients, including those with cirrhosis or acute myeloid leukemia or who are admitted to the [...]

Published
2024
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4. Correction: Microbes vs. chemistry in the origin of the anaerobic gut lumen

Author

Friedman, Elliot S., Bittinger, Kyle, Esipova, Tatiana V., Hou, Likai, Chau, Lillian, Jiang, Jack, Mesaros, Clementina, Lund, Peder J., Liang, Xue, FitzGerald, Garret A., Goulian, Mark, Lee, Daeyeon, Garcia, Benjamin A., Blair, Ian A., Vinogradov, Sergei A., and Wu, Gary D.

Published
2022

5. Films of Bacteria at Interfaces (FBI): Remodeling of Fluid Interfaces by Pseudomonas aeruginosa

Author

Niepa, Tagbo H. R., Vaccari, Liana, Leheny, Robert L., Goulian, Mark, Lee, Daeyeon, and Stebe, Kathleen J.

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

Bacteria at fluid interfaces endure physical and chemical stresses unique to these highly asymmetric environments. The responses of Pseudomonas aeruginosa PAO1 and PA14 to a hexadecane-water interface are compared. PAO1 cells form elastic films of bacteria, excreted polysaccharides and proteins, whereas PA14 cells move actively without forming an elastic film. Studies of PAO1 mutants show that, unlike solid-supported biofilms, elastic interfacial film formation occurs in the absence of flagella, pili, or certain polysaccharides. Highly induced genes identified in transcriptional profiling include those for putative enzymes and a carbohydrate metabolism enzyme, alkB2; this latter gene is not upregulated in PA14 cells. Notably, PAO1 mutants lacking the alkB2 gene fail to form an elastic layer. Rather, they form an active film like that formed by PA14. These findings demonstrate that genetic expression is altered by interfacial confinement, and suggest that the ability to metabolize alkanes may play a role in elastic film formation at oil-water interfaces.

Published
2017

8. Trapping and Assembly of Living Colloids at Water/Water Interfaces

Author

Hann, Sarah D., Goulian, Mark, Lee, Daeyeon, and Stebe, Kathleen J.

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

We study the assembly of colloids in a two phase water-water system that provides an environment that can sustain bacteria, providing a new structure with rich potential to confine and structure living colloids. The water-water system, formed via phase separation of a casein and xanthan mixture, forms a 3-D structure of coexisting casein-rich and xanthan-rich phases. Fluorescent labelling and confocal microscopy reveal the attachment of these living colloids, including Escherichia coli and Pseudomonas aeruginosa, at the interface between the two phases. Inert colloids also become trapped at the interfaces, suggesting that the observed attachment can be attributed to capillarity. Over time, these structures coarsen and eventually degrade, illustrating the dynamic nature of these systems. This system lays the foundation for future studies of the interplay of physicochemical properties of the fluid interfaces and bulk phases and microbial responses they provoke to induce complex spatial organization, to study species which occupy distinct niches, and to optimize efficient microbial cross-feeding or protection from competitors., Comment: 13 pages, 8 figures (includes supplementary)

Published
2014

9. Encoding biological recognition in a bicomponent cell-membrane mimic

Author

Rodriguez-Emmenegger, Cesar, Xiao, Qi, Kostina, Nina Yu., Sherman, Samuel E., Rahimi, Khosrow, Partridge, Benjamin E., Li, Shangda, Sahoo, Dipankar, Perez, Aracelee M. Reveron, Buzzacchera, Irene, Han, Hong, Kerzner, Meir, Malhotra, Ishita, Möller, Martin, Wilson, Christopher J., Good, Matthew C., Goulian, Mark, Baumgart, Tobias, Klein, Michael L., and Percec, Virgil

Published
2019

10. Bacterial colonization reprograms the neonatal gut metabolome

Author

Bittinger, Kyle, Zhao, Chunyu, Li, Yun, Ford, Eileen, Friedman, Elliot S., Ni, Josephine, Kulkarni, Chiraag V., Cai, Jingwei, Tian, Yuan, Liu, Qing, Patterson, Andrew D., Sarkar, Debolina, Chan, Siu. H. J., Maranas, Costas, Saha-Shah, Anumita, Lund, Peder, Garcia, Benjamin A., Mattei, Lisa M., Gerber, Jeffrey S., Elovitz, Michal A., Kelly, Andrea, DeRusso, Patricia, Kim, Dorothy, Hofstaedter, Casey E., Goulian, Mark, Li, Hongzhe, Bushman, Frederic D., Zemel, Babette S., and Wu, Gary D.

Published
2020
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11. Signal Transduction in Histidine Kinases: Insights from New Structures

Author

Bhate, Manasi P, Molnar, Kathleen S, Goulian, Mark, and DeGrado, William F

Subjects
Biochemistry and Cell Biology, Biological Sciences, Infectious Diseases, 1.1 Normal biological development and functioning, Underpinning research, Amino Acid Sequence, Catalysis, Dimerization, Histidine Kinase, Models, Molecular, Molecular Sequence Data, Protein Conformation, Protein Kinases, Signal Transduction, Thermodynamics, Chemical Sciences, Information and Computing Sciences, Biophysics, Biological sciences, Chemical sciences
Abstract

Histidine kinases (HKs) are major players in bacterial signaling. There has been an explosion of new HK crystal structures in the last 5 years. We globally analyze the structures of HKs to yield insights into the mechanisms by which signals are transmitted to and across protein structures in this family. We interpret known enzymological data in the context of new structural data to show how asymmetry across the dimer interface is a key feature of signal transduction in HKs, and discuss how different HK domains undergo asymmetric to symmetric transitions during signal transduction and catalysis. A thermodynamic framework for signaling that encompasses these various properties is presented, and the consequences of weak thermodynamic coupling are discussed. The synthesis of observations from enzymology, structural biology, protein engineering, and thermodynamics paves the way for a deeper molecular understanding of HK signal transduction.

Published
2015

14. Cys-Scanning Disulfide Crosslinking and Bayesian Modeling Probe the Transmembrane Signaling Mechanism of the Histidine Kinase, PhoQ

Author

Molnar, Kathleen S, Bonomi, Massimiliano, Pellarin, Riccardo, Clinthorne, Graham D, Gonzalez, Gabriel, Goldberg, Shalom D, Goulian, Mark, Sali, Andrej, and DeGrado, William F

Subjects
Biochemistry and Cell Biology, Biological Sciences, Bacterial Proteins, Bayes Theorem, Computer Simulation, Cystine, Histidine Kinase, Models, Molecular, Protein Kinases, Protein Structure, Secondary, Protein Structure, Tertiary, Structural Homology, Protein, Chemical Sciences, Information and Computing Sciences, Biophysics, Biological sciences, Chemical sciences
Abstract

Bacteria transduce signals across the membrane using two-component systems (TCSs), consisting of a membrane-spanning sensor histidine kinase and a cytoplasmic response regulator. In gram-negative bacteria, the PhoPQ TCS senses cations and antimicrobial peptides, yet little is known about the structural changes involved in transmembrane signaling. We construct a model of PhoQ signal transduction using Bayesian inference, based on disulfide crosslinking data and homologous crystal structures. The data are incompatible with a single conformation but are instead consistent with two interconverting structures. These states differ in membrane depth of the periplasmic acidic patch and the reciprocal displacement of diagonal helices along the dimer interface. Studies of multiple histidine kinases suggest this repacking might be a common mode of signal transduction in sensor His-kinase receptors. Because a similar scissors model has been ruled out in CheA-linked chemoreceptors, the evidence suggests that sensor His-kinase and CheA-linked receptors possess different signaling mechanisms.

Published
2014

15. Microbes vs. chemistry in the origin of the anaerobic gut lumen

Author

Friedman, Elliot S., Bittinger, Kyle, Esipova, Tatiana V., Hou, Likai, Chau, Lillian, Jiang, Jack, Mesaros, Clementina, Lund, Peder J., Liang, Xue, FitzGerald, Garret A., Goulian, Mark, Lee, Daeyeon, Garcia, Benjamin A., Blair, Ian A., Vinogradov, Sergei A., and Wu, Gary D.

Published
2018

17. Evolving a robust signal transduction pathway from weak cross-talk.

Author

Siryaporn, Albert, Perchuk, Barrett S, Laub, Michael T, and Goulian, Mark

Subjects
Escherichia coli, Protein Kinases, Bacterial Proteins, Bacterial Outer Membrane Proteins, Escherichia coli Proteins, Trans-Activators, Directed Molecular Evolution, Amino Acid Substitution, Signal Transduction, Gene Expression Regulation, Bacterial, Protein Binding, Phosphorylation, Mutation, Protein Interaction Domains and Motifs, cross-talk, directed evolution, histidine kinase, synthetic biology, Gene Expression Regulation, Bacterial, Bioinformatics, Biochemistry and Cell Biology, Other Biological Sciences
Abstract

We have evolved a robust two-component signal transduction pathway from a sensor kinase (SK) and non-partner response regulator (RR) that show weak cross-talk in vitro and no detectable cross-talk in vivo in wild-type strains. The SK, CpxA, is bifunctional, with both kinase and phosphatase activities for its partner RR. We show that by combining a small number of mutations in CpxA that individually increase phosphorylation of the non-partner RR OmpR, phosphatase activity against phospho-OmpR emerges. The resulting circuit also becomes responsive to input signal to CpxA. The effects of combining these mutations in CpxA appear to reflect complex intragenic interactions between multiple sites in the protein. However, by analyzing a simple model of two-component signaling, we show that the behavior can be explained by a monotonic change in a single parameter controlling protein-protein interaction strength. The results suggest one possible mode of evolution for two-component systems with bifunctional SKs whereby the remarkable properties and competing reactions that characterize these systems can emerge by combining mutations of the same effect.

Published
2010

19. Enterobacteriaceae growth promotion by intestinal acylcarnitines, a biomarker of dysbiosis in Inflammatory Bowel Disease

Author

Lemons, Johanna M.S., primary, Conrad, Maire, additional, Tanes, Ceylan, additional, Chen, Jie, additional, Friedman, Elliot S., additional, Roggiani, Manuela, additional, Curry, Dylan, additional, Chau, Lillian, additional, Hecht, Aaron L., additional, Harling, Lisa, additional, Vales, Jennifer, additional, Kachelries, Kelly E., additional, Baldassano, Robert N., additional, Goulian, Mark, additional, Bittinger, Kyle, additional, Master, Stephen R., additional, Liu, LinShu, additional, and Wu, Gary D., additional

Published
2023
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21. Fluctuation-Induced Interactions between Rods on a Membrane

Author

Golestanian, Ramin, Goulian, Mark, and Kardar, Mehran

Subjects
Condensed Matter
Abstract

We consider the interaction between two rods embedded in a fluctuating surface. The modification of fluctuations by the rods leads to an attractive long-range interaction between them. We consider fluctuations governed by either surface tension (films) or bending rigidity (membranes). In both cases the interaction falls off with the separation of the rods as $1/R^4$. The orientational part of the interaction is proportional to $\cos^2\left[ \theta_1+\theta_2 \right]$ in the former case, and to $\cos^2\left[ 2\left(\theta_1+\theta_2\right) \right]$ in the latter, where $\theta_1$ and $\theta_2$ are angles between the rods and the line joining them. These interactions are somewhat reminiscent of dipolar forces and will tend to align collections of such rods into chains., Comment: REVTEX, 14 pages, with 2 Postscript figures

Published
1996
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23. Shear Alignment and Instability of Smectic Phases

Author

Goulian, Mark and Milner, Scott T.

Subjects
Condensed Matter
Abstract

We consider the shear flow of well-aligned one-component smectic phases, such as thermotropic smectics and lamellar diblock copolymers, below the critical region. We show that, as a result of thermal fluctuations of the layers, parallel ($c$) alignment is generically unstable and perpendicular ($a$) alignment is stable against long-wavelength undulations. We also find, surprisingly, that both $a$ and $c$ are stable for a narrow window of values for the anisotropic viscosity., Comment: To appear in PRL. Revtex, 1 figure.

Published
1995
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32. A role for bacterial urease in gut dysbiosis and Crohn’s disease

Author

Ni, Josephine, Shen, Ting-Chin David, Chen, Eric Z., Bittinger, Kyle, Bailey, Aubrey, Roggiani, Manuela, Sirota-Madi, Alexandra, Friedman, Elliot S., Chau, Lillian, Lin, Andrew, Nissim, Ilana, Scott, Justin, Lauder, Abigail, Hoffmann, Christopher, Rivas, Gloriany, Albenberg, Lindsey, Baldassano, Robert N., Braun, Jonathan, Xavier, Ramnik J., Clish, Clary B., Yudkoff, Marc, Li, Hongzhe, Goulian, Mark, Bushman, Frederic D., Lewis, James D., and Wu, Gary D.

Published
2017
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34. Bacterial cell widening alters periplasmic size and activates envelope stress responses

Author

Zietek, Matylda, primary, Miguel, Amanda, additional, Khusainov, Iskander, additional, Shi, Handuo, additional, Asmar, Abir T, additional, Ram, Sri, additional, Wartel, Morgane, additional, Sueki, Anna, additional, Schorb, Martin, additional, Goulian, Mark, additional, Collet, Jean-François, additional, Beck, Martin, additional, Huang, Kerwyn Casey, additional, and Typas, Athanasios, additional

Published
2022
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43. Imaging OmpR binding to native chromosomal loci in Escherichia coli

Author

Libby, Elizabeth A., Ekici, Seda, and Goulian, Mark

Subjects
Escherichia coli -- Genetic aspects, Protein binding -- Observations, Chromosomes -- Properties, Fluorescent proteins -- Properties, Biological sciences
Abstract

Previously, an unexplained subcellular localization was reported for a functional fluorescent protein fusion to the response regulator OmpR in Escherichia coli. The pronounced regions of increased fluorescence, or foci, are dependent on OmpR phosphorylation and do not occupy fixed, easily identifiable positions, such as the poles or mid-cell. Here we show that the foci are due to OmpR-YFP (yellow fluorescent protein) fusion binding to specific sites in the chromosome. To identify positions of foci and quantify their fluorescence intensity, we used a simple system to tag virtually any chromosomal location with arrays of lacO or tetO. The brightest foci colocalize with the OmpR-regulated gene ompF, which is strongly expressed under our growth conditions. When we increased OmpR-YFP phosphorylation by stimulating the EnvZ/OmpR system with procaine, we observed a small increase in OmpR-YFP fluorescence at ompF and a significant increase at the OmpR-regulated gene ompC. This supports a model of hierarchical binding of OmpR to the ompF and ompC promoters. Our results explain the inhomogeneous distribution of OmpR-YFP fluorescence in cells and further demonstrate that for a transcription factor expressed at wild-type levels, binding to native sites in the chromosome can be imaged and quantified by fluorescence microscopy. doi: 10.1128/JB.00344-10

Published
2010

44. High stimulus unmasks positive feedback in an autoregulated bacterial signaling circuit

Author

Miyashiro, Tim and Goulian, Mark

Subjects
Escherichia coli -- Physiological aspects, Biological control systems -- Research, Science and technology
Abstract

We examined the effect of positive autoregulation on the steady-state behavior of the PhoQ/PhoP two-component signaling system in Escherichia coli. We found that autoregulation has no effect on the steady-state output for a large range of input stimulus, which was modulated by varying the concentration of magnesium in the growth medium. We provide an explanation for this finding with a simple model of the PhoQ/PhoP circuit. The model predicts that even when autoregulation is manifest across a range of stimulus levels, the effects of positive feedback on the steady-state output emerge only in the limit that the system is strongly stimulated. Consistent with this prediction, amplification associated with autoregulation was observed in growth-limiting levels of magnesium, a condition that strongly activates PhoQ/PhoP. In a further test of the model, we found that strains harboring a phosphatase-defective PhoQ showed strong positive feedback and considerable cell-to-cell variability under growth conditions where the wild-type circuit did not show this behavior. Our results demonstrate a simple and general mechanism for regulating the positive feedback associated with autoregulation within a bacterial signaling circuit to boost response range and maintain a relatively uniform and graded output. autogenous control | PhoP-PhoQ | two-component signal transduction

Published
2008

47. Effects of regulatory network organization and environment on PmrD connector activity and polymyxin resistance in Klebsiella pneumoniae and Escherichia coli

Author

Chen, Annie I., Zhu, Jun, and Goulian, Mark

Subjects
0303 health sciences, Klebsiella, biology, 030306 microbiology, medicine.drug_class, Klebsiella pneumoniae, Polymyxin, Antimicrobial peptides, biology.organism_classification, medicine.disease_cause, Antimicrobial, Enterobacteriaceae, Microbiology, 03 medical and health sciences, medicine, Escherichia coli, Bacteria, 030304 developmental biology
Abstract

Polymyxins are a class of cyclic peptides with antimicrobial activity against Gram-negative bacteria. Resistance to these compounds is often mediated by pathways that also confer resistance to host antimicrobial peptides. In Enterobacteriaceae, the PhoQ/PhoP and PmrB/PmrA two-component systems regulate many of the genes associated with these resistance mechanisms. In K. pneumoniae, spontaneous polymyxin resistance is frequently acquired through inactivation of the gene mgrB, which encodes a negative regulator of PhoQ. However, this resistance mechanism has not been reported in other genera of Enterobacteriaceae, despite the presence of mgrB among many members of this family. In addition, the frequency of developing spontaneous resistance to the antimicrobial peptide polymyxin through chromosomal mutations is much higher in Klebsiella compared to Salmonella or E. coli. Here we show that in K. pneumoniae, PmrD is not required for polymyxin resistance arising from inactivation of mgrB. In addition, we show that in E. coli, the protein PmrD can activate PmrA under certain conditions. Our results suggest that the importance of PmrD connector activity in polymyxin resistance depends on both the network organization and on the environmental conditions associated with PmrB stimulation.

Published
2020
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48. Specificity in two-component signal transduction pathways

Author

Laub, Michael T. and Goulian, Mark

Subjects
Gene expression -- Research, Phosphotransferases -- Research, Transduction -- Research, Biological sciences
Abstract

The two-component signal transduction systems, which effect changes in cellular physiology by regulating gene expression is discussed.

Published
2007

50. The Escherichia coli CpxA-CpxR envelope stress response system regulates expression of the porins OmpF and OmpC

Author

Batchelor, Eric, Walthers, Don, Kenney, Linda J., and Goulian, Mark

Subjects
Gene mutations -- Research, Protein binding -- Research, Escherichia coli -- Genetic aspects, Biological sciences
Abstract

We performed transposon mutagenesis of a two-color fluorescent reporter strain to identify new regulators of the porin genes ompF and ompC in Escherichia coli. Screening of colonies by fluorescence microscopy revealed numerous mutants that exhibited interesting patterns of porin expression. One mutant harbored an insertion in the gene encoding the histidine kinase CpxA, the sensor for a two-component signaling system that responds to envelope stress. The cpxA mutant exhibited increased transcription of ompC and a very strong decrease in transcription of ompF under conditions in which acetyl phosphate levels were high. Subsequent genetic analysis revealed that this phenotype is dependent on phosphorylation of the response regulator CpxR and that activation of CpxA in wild-type cells results in similar regulation of porin expression. Using DNase I footprinting, we demonstrated that CpxR binds upstream of both the ompF and ompC promoters. It thus appears that two distinct two-component systems, CpxA-CpxR and EnvZ-OmpR, converge at the porin promoters. Within the context of envelope stress, outer membrane beta-barrel proteins have generally been associated with the sigma E pathway. However, at least for the classical porins OmpF and OmpC, our results show that the Cpx envelope stress response system plays a role in regulating their expression.

Published
2005

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