about
The coevolution theory of autumn coloursAvoid, attack or do both? Behavioral and physiological adaptations in natural enemies faced with novel hostsCollective sensing and collective responses in quorum-sensing bacteriaMetabolic and demographic feedbacks shape the emergent spatial structure and function of microbial communitiesIntracellular demography and the dynamics of Salmonella enterica infectionsKilling by Type VI secretion drives genetic phase separation and correlates with increased cooperation.Evolution of pathogens in a man-made world.'Suicide' of crickets harbouring hairworms: a proteomics investigation.The durability of public goods changes the dynamics and nature of social dilemmasGenetic information transfer promotes cooperation in bacteria.Cooperative secretions facilitate host range expansion in bacteria.Molecular and regulatory properties of a public good shape the evolution of cooperation.Within-host dynamics of multi-species infections: facilitation, competition and virulence.Experimental evolution of a bacteriophage virus reveals the trajectory of adaptation across a fecundity/longevity trade-off.The evolution of collective restraint: policing and obedience among non-conjugative plasmids.Does multiple infection select for raised virulence?Understanding parasite strategies: a state-dependent approach?The demographic determinants of human microbiome healthBacterial Cooperation Causes Systematic Errors in Pathogen Risk Assessment due to the Failure of the Independent Action Hypothesis.Building the microbiome in health and disease: niche construction and social conflict in bacteria.Single gene locus changes perturb complex microbial communities as much as apex predator loss.Indirect Fitness Benefits Enable the Spread of Host Genes Promoting Costly Transfer of Beneficial Plasmids.Social dilemmas among supergenes: intragenomic sexual conflict and a selfing solution in OenotheraCooperation: integrating evolutionary and ecological perspectives.Horizontal gene transfer of the secretome drives the evolution of bacterial cooperation and virulence.Bacterial growth rate and host factors as determinants of intracellular bacterial distributions in systemic Salmonella enterica infections.An oscillating tragedy of the commons in replicator dynamics with game-environment feedback.Manipulating virulence factor availability can have complex consequences for infections.Gallium-mediated siderophore quenching as an evolutionarily robust antibacterial treatment.Combinatorial quorum sensing allows bacteria to resolve their social and physical environmentWar and peace: social interactions in infectionsChallenges in microbial ecology: building predictive understanding of community function and dynamics.Division of Labor, Bet Hedging, and the Evolution of Mixed Biofilm Investment Strategies.Quorum sensing protects bacterial co-operation from exploitation by cheats.Within-host interference competition can prevent invasion of rare parasites.Visualizing evolution as it happens.Microbiome: Ecology of stable gut communities.Conflict of interest and signal interference lead to the breakdown of honest signaling.From metabolism to ecology: cross-feeding interactions shape the balance between polymicrobial conflict and mutualismSocial evolution in micro-organisms and a Trojan horse approach to medical intervention strategies.
P50
Q24678266-E310526E-14F3-4B3D-969F-DDA980CAA8BCQ24813925-9D56E36A-EB9C-4FD1-9A87-D8D777F3033CQ26865278-B4802F2F-E59C-4AAC-B5F2-4615FE6A9E6AQ27323496-F39CA293-12BD-458F-87F0-6AAB2C021800Q28469060-231D064A-246D-4288-9215-D164AE8D8623Q30838300-440DC155-D0E9-444C-B8BF-91AFD76E5EBDQ31141821-530E7BB8-6B43-402F-A519-A26C616D5764Q33268077-18B46173-B9D6-448B-9DC0-4342EC1FEFFEQ33289964-15C296F2-E555-49EF-BEE7-7898643A0FDEQ34002507-53B3F9F6-C957-4BFF-83D2-2261AFDBBAE3Q34086431-A4A0A5DB-6083-4374-8C63-2D592EF20BCCQ34279341-318C525F-A650-4E0A-B8DE-8F2E962FF18AQ34318373-C43D93D8-A79D-4283-B2A1-E51CE6CD06AAQ34447055-463ED20F-2EB9-4B2A-8CBA-7DE947CFE6B6Q34699680-B0FFE84F-2856-4413-9A64-657FF40DF12AQ34825830-38093551-8EC7-419D-BD5C-5F45879FCBF9Q34959712-6EECDDCA-D0AD-4E7B-8DF5-3B2C409CBD9CQ35186525-05C8AF60-21F7-4715-B2CE-38641A0437ADQ35536170-AA09E3EF-23B8-4001-B1B3-BF4E4E46E7B6Q35684956-ABB232AD-FE1C-4FFC-8DAC-D231A88D0136Q35768627-B4562E13-25BF-4452-9E80-8FACF32483EEQ36043154-D7ABA217-37D1-4208-9261-4CFDCAC8F5DDQ36220229-3F093418-DCEF-47D0-84A7-BA0FA9E953DDQ36656986-AD7D9FA2-CFAC-4F32-B9B9-A00C68476A9AQ37413184-3EF23589-2DF0-4D79-B745-A6FFA7E57484Q37451040-F23BFD88-E710-42E3-B49E-370E222D8A4CQ37451126-B81DB24D-5A76-4574-98BD-2EB167EBB4D0Q37539878-F6B05CA7-C6D7-4386-B273-DCDE98E59C4BQ37604241-93C13D6D-330C-4A95-9367-E47E459FD9A5Q37659877-2211E0F6-4894-4FE9-87DC-680D43791A82Q37696303-DCEBCB66-7F6D-47FB-AA94-0600C8489CF6Q38376483-419458EE-ECFC-4A6C-B651-C9CA959CAFC3Q38645248-E0E009E6-40C6-452E-8744-E77B9082DE82Q40129838-285D2ACF-C44C-4BC5-BEB3-096077F8C1C7Q40213822-90151C4A-D056-4A8B-A523-6615FF4A6B0CQ40546180-00DF416A-9832-4F01-9FD8-B0A3C79F21A5Q40559716-2D66D13C-5AA5-45E2-B849-0DAD1833622EQ41047520-38593189-2D38-499C-8B66-B3984FD3D7E5Q41556252-3DAB2578-8B71-48C3-A80A-5DCE302CDE1EQ41817819-F029FB23-2058-42B0-AEEF-5D044FCA811F
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Sam P Brown
@ast
Sam P Brown
@en
Sam P Brown
@es
Sam P Brown
@nl
Sam P Brown
@sl
স্যাম পি ব্রাউন
@bn
type
label
Sam P Brown
@ast
Sam P Brown
@en
Sam P Brown
@es
Sam P Brown
@nl
Sam P Brown
@sl
স্যাম পি ব্রাউন
@bn
prefLabel
Sam P Brown
@ast
Sam P Brown
@en
Sam P Brown
@es
Sam P Brown
@nl
Sam P Brown
@sl
স্যাম পি ব্রাউন
@bn
P106
P21
P31
P496
0000-0003-1892-9275