| P50 | author | Sam P Brown | Q52883646 |
| | Luke McNally | Q58335346 |
| | Peter J Yunker | Q59564864 |
| | Brian K. Hammer | Q71988756 |
| | William C Ratcliff | Q89713919 |
| P2093 | author name string | Jacob Thomas | |
| | Arben Kalziqi | |
| | Eryn Bernardy | |
| | Jennifer Pentz | |
| P2860 | cites work | The chemical basis of morphogenesis | Q769913 |
| | Identification of a conserved bacterial protein secretion system in Vibrio cholerae using the Dictyostelium host model system | Q24537443 |
| | SUPERFAMILY--sophisticated comparative genomics, data mining, visualization and phylogeny | Q26781958 |
| | Cutting through the complexity of cell collectives | Q26823351 |
| | Established Microbial Colonies Can Survive Type VI Secretion Assault | Q27317368 |
| | Metabolic and demographic feedbacks shape the emergent spatial structure and function of microbial communities | Q27323496 |
| | Geometry for the selfish herd | Q28250238 |
| | Gelation of particles with short-range attraction | Q28280985 |
| | Quorum sensing control of Type VI secretion factors restricts the proliferation of quorum-sensing mutants | Q28834126 |
| | APE: Analyses of Phylogenetics and Evolution in R language | Q29546513 |
| | Cooperation and competition in pathogenic bacteria | Q30050246 |
| | The Vibrio cholerae type VI secretion system employs diverse effector modules for intraspecific competition. | Q30360835 |
| | Diversity of Clinical and Environmental Isolates of Vibrio cholerae in Natural Transformation and Contact-Dependent Bacterial Killing Indicative of Type VI Secretion System Activity. | Q30385302 |
| | Constitutive type VI secretion system expression gives Vibrio cholerae intra- and interspecific competitive advantages | Q30422970 |
| | A general and simple method for obtainingR2from generalized linear mixed-effects models | Q30473532 |
| | Cilia-like beating of active microtubule bundles | Q30504288 |
| | Spontaneous motion in hierarchically assembled active matter | Q30528428 |
| | Microbial herd protection mediated by antagonistic interaction in polymicrobial communities | Q30828145 |
| | Allelopathy and exotic plant invasion: from molecules and genes to species interactions | Q33338706 |
| | Dissecting the bacterial type VI secretion system by a genome wide in silico analysis: what can be learned from available microbial genomic resources? | Q33417905 |
| | Arrested phase separation in reproducing bacteria creates a generic route to pattern formation | Q33978100 |
| | A fitness trade-off between local competition and dispersal in Vibrio cholerae biofilms. | Q34206689 |
| | Structured habitats and the evolution of anticompetitor toxins in bacteria | Q34276495 |
| | The Vibrio cholerae type VI secretion system displays antimicrobial properties | Q34320269 |
| | Lytic activity of the Vibrio cholerae type VI secretion toxin VgrG-3 is inhibited by the antitoxin TsaB. | Q34323842 |
| | feedback between population and evolutionary dynamics determines the fate of social microbial populations | Q34342455 |
| | Type VI secretion system effectors: poisons with a purpose | Q34395319 |
| | Identification of T6SS-dependent effector and immunity proteins by Tn-seq in Vibrio cholerae | Q34567332 |
| | Reaction-diffusion model as a framework for understanding biological pattern formation. | Q34624245 |
| | Evolutionary limits to cooperation in microbial communities | Q34752307 |
| | Spatial population expansion promotes the evolution of cooperation in an experimental Prisoner's Dilemma | Q35516454 |
| | SecReT6: a web-based resource for type VI secretion systems found in bacteria | Q35553027 |
| | Positively Frequency-Dependent Interference Competition Maintains Diversity and Pervades a Natural Population of Cooperative Microbes | Q35655874 |
| | Shape control and compartmentalization in active colloidal cells | Q36008322 |
| | Spatial structure, cooperation and competition in biofilms | Q36084169 |
| | The Ecology and Evolution of Microbial Competition | Q36108716 |
| | PSORTdb: expanding the bacteria and archaea protein subcellular localization database to better reflect diversity in cell envelope structures | Q36434943 |
| | Social evolution theory for microorganisms. | Q36538101 |
| | Siderophore-mediated cooperation and virulence in Pseudomonas aeruginosa | Q36962282 |
| | Phase separation explains a new class of self-organized spatial patterns in ecological systems. | Q37031644 |
| | Response of Vibrio cholerae to Low-Temperature Shifts: CspV Regulation of Type VI Secretion, Biofilm Formation, and Association with Zooplankton | Q37122272 |
| | Spatial self-organization favors heterotypic cooperation over cheating | Q37295444 |
| | Horizontal gene transfer of the secretome drives the evolution of bacterial cooperation and virulence. | Q37413184 |
| | Alleopathy and spatial competition among coral reef invertebrates | Q37466909 |
| | Solutions to the public goods dilemma in bacterial biofilms | Q37604315 |
| | Bacterial competition: surviving and thriving in the microbial jungle | Q37641019 |
| | Understanding microbial cooperation | Q37855038 |
| | Kin discrimination and cooperation in microbes | Q37891078 |
| | Cellular cooperation: insights from microbes | Q38045534 |
| | A view to a kill: the bacterial type VI secretion system | Q38170842 |
| | Bridging physics and biology: Reply to comments on "Phase separation driven by density-dependent movement: A novel mechanism for ecological patterns". | Q38791903 |
| | Strategies of microbial cheater control | Q40523188 |
| | Structured growth and genetic drift raise relatedness in the social amoeba Dictyostelium discoideum | Q43074708 |
| | ESTIMATING RELATEDNESS USING GENETIC MARKERS. | Q47673952 |
| | Active jamming: self-propelled soft particles at high density | Q48022196 |
| | Improved allelic exchange vectors and their use to analyze 987P fimbria gene expression | Q50131811 |
| | Fine-scale spatial ecology drives kin selection relatedness among cooperating amoebae | Q50228213 |
| | Life cycles, fitness decoupling and the evolution of multicellularity. | Q50625040 |
| | Pattern formation in self-propelled particles with density-dependent motility. | Q51320241 |
| | Homeostatic Fluctuations of a Tissue Surface. | Q51579942 |
| | Theory for the evolution of diffusible external goods. | Q51632882 |
| | Long-lived giant number fluctuations in a swarming granular nematic. | Q51910944 |
| | Isolation by distance in the spore-forming soil bacterium Myxococcus xanthus. | Q51962395 |
| | The type VI secretion system of Vibrio cholerae fosters horizontal gene transfer. | Q53348717 |
| | Cooperation and conflict in quorum-sensing bacterial populations. | Q53557688 |
| | Positive selection vectors for allelic exchange. | Q54593431 |
| | Viscous medium promotes cooperation in the pathogenic bacterium Pseudomonas aeruginosa. | Q55052058 |
| | Dynamical clustering and phase separation in suspensions of self-propelled colloidal particles. | Q55058495 |
| | Free Energy of a Nonuniform System. I. Interfacial Free Energy | Q56115757 |
| | Inference from Iterative Simulation Using Multiple Sequences | Q56172083 |
| | Scalar φ4 field theory for active-particle phase separation | Q59444003 |
| | Ground state structures in ordered binary alloys with second neighbor interactions | Q60431991 |
| | A simple and general explanation for the evolution of altruism | Q81918310 |
| | Athermal phase separation of self-propelled particles with no alignment | Q87359999 |
| P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | cooperation | Q380962 |
| P304 | page(s) | 14371 | |
| P577 | publication date | 2017-02-06 | |
| P1433 | published in | Nature Communications | Q573880 |
| P1476 | title | Killing by Type VI secretion drives genetic phase separation and correlates with increased cooperation | |
| P478 | volume | 8 | |