about
Experimental evolution of multicellularity.Experimental evolution of an alternating uni- and multicellular life cycle in Chlamydomonas reinhardtii.A spectrum of pleiotropic consequences in development due to changes in a regulatory pathwayWhen stress predicts a shrinking gene pool, trading early reproduction for longevity can increase fitness, even with lower fecundity.Diversity of culturable thermo-resistant aquatic bacteria along an environmental gradient in Cuatro Ciénegas, Coahuila, México.The repeatability of adaptive radiation during long-term experimental evolution of Escherichia coli in a multiple nutrient environment.Synergistic cooperation promotes multicellular performance and unicellular free-rider persistence.Mesocosms of aquatic bacterial communities from the Cuatro Cienegas Basin (Mexico): a tool to test bacterial community response to environmental stress.Understanding microbial community diversity metrics derived from metagenomes: performance evaluation using simulated data sets.Antagonism influences assembly of a Bacillus guild in a local community and is depicted as a food-chain network.Origins of multicellular evolvability in snowflake yeast.Ecological perspectives on synthetic biology: insights from microbial population biology.Geometry shapes evolution of early multicellularity.HOW DO MICROBIAL POPULATIONS AND COMMUNITIES FUNCTION AS MODEL SYSTEMS?Experimental Evolution of Trichoderma citrinoviride for Faster Deconstruction of Cellulose.Travel, sex, and food: what's speciation got to do with it?Methyl donor supplementation prevents transgenerational amplification of obesityFungal viral mutualism moderated by ploidy.Disentangling direct and indirect fitness effects of microbial dormancy.Experimental evolution of ultraviolet radiation resistance in Escherichia coli.Parallelism in adaptive radiations of experimental Escherichia coli populations.Developmental evolution facilitates rapid adaptation.Lost in the map.Spatial structure leads to ecological breakdown and loss of diversity.Diet-induced hypermethylation at agouti viable yellow is not inherited transgenerationally through the female.The Evolution of Molecular Compatibility between Bacteriophage ΦX174 and its Host.The lost world of Cuatro Ciénegas Basin, a relictual bacterial niche in a desert oasisPlastic multicellular development of : genotype-environment interactions in a physical gradientA negative relationship between mutation pleiotropy and fitness effect in yeastDensity-dependent effects on allelopathic interactions in yeastEffects of temperature on the fitness cost of resistance to bacteriophage T4 in Escherichia coliEvolutionary innovation using EDGE, a system for localized elevated mutagenesis
P50
Q22066269-1C75CC95-DD3D-4BF8-B1F5-D982597CE5E4Q28661568-C586F45A-18FA-443A-AAEF-D3FD8C7F38A4Q30420814-481AA1BA-3C89-449F-9D09-B6BCBE428A92Q33474790-CDD32CF7-34B0-43C8-B5B1-526F5E61A732Q33659107-2531F515-2374-48DE-984E-1A26AD98ECE1Q33769826-6EA08B6A-5BF2-4D95-8873-D75F73EFF3E3Q33780989-697C9371-55F7-42B3-887C-CAD8337414BAQ34213280-C53F8168-C492-4A91-B6EE-F23CACEFA624Q34254812-F3C8C3BD-B370-4CC1-AE6A-8C474428B0D8Q34457496-A7BF5D80-72C0-491B-821D-A1EDAA084346Q35022980-C3385214-5212-453B-9ED9-E4EE485EDBBBQ35124389-B621E1A4-3CA9-449F-9B83-8734D5B50789Q35261522-386C238C-32A7-4307-84A8-F45ED872143EQ35848024-653130B5-43F9-4316-9A00-72B32A3A96A4Q35907215-CC027E7F-7EB9-4FA8-BE5D-654153B32AC9Q36186742-B95BFD85-BA8C-4890-805F-94B764A689F0Q36952806-1EE9CFD4-9CD7-492A-92DB-792568382678Q43801415-2126A357-06FC-4C29-8B8C-66AE3A6A8D43Q45914753-A6E7C64A-3E32-4016-926C-D3EAD4DD4EE3Q46131539-4B4B118A-87FA-4E51-A95C-536C483013F3Q46622043-1BE92AEC-F607-4501-8B74-630D4ECE6ECAQ47094560-4CB0ACD1-76AF-4667-8BCE-A8187008E0E0Q50762751-D6982602-0058-4D50-8436-0FB4E181CB6DQ51180623-179721D5-29FB-4609-82CB-B6262CE8DB85Q51751057-B194D309-4B91-4937-B2BA-A07B1A7FF004Q55236878-85AC1C8A-C480-4823-931A-03E6141FEDCAQ59135595-A38612C2-2F43-4DB9-A684-B1B609886224Q64072656-5A6C83C3-D53B-42C2-AAC3-E8098D5C02E2Q80416810-1D399610-BD54-4829-B20D-3E809680A2D2Q81553799-79FC6346-9248-4AF8-B548-78B462A1E83DQ83365232-D3409AE0-8905-40D0-AC01-A3E1F278D5A4Q94468774-DCBB89F6-AF5F-4F49-8397-B445BB4486E6
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Michael Travisano
@ast
Michael Travisano
@en
Michael Travisano
@es
Michael Travisano
@nl
Michael Travisano
@sl
type
label
Michael Travisano
@ast
Michael Travisano
@en
Michael Travisano
@es
Michael Travisano
@nl
Michael Travisano
@sl
prefLabel
Michael Travisano
@ast
Michael Travisano
@en
Michael Travisano
@es
Michael Travisano
@nl
Michael Travisano
@sl
P106
P21
P31
P496
0000-0001-8168-0842