about
Genome hyperevolution and the success of a parasiteMosaic VSGs and the scale of Trypanosoma brucei antigenic variation.DNA Recombination Strategies During Antigenic Variation in the African Trypanosome.Multi-host environments select for host-generalist conjugative plasmids.Identification of Low- and High-Impact Hemagglutinin Amino Acid Substitutions That Drive Antigenic Drift of Influenza A(H1N1) Viruses.Source-sink plasmid transfer dynamics maintain gene mobility in soil bacterial communities.The evolution of plasmid stability: Are infectious transmission and compensatory evolution competing evolutionary trajectories?Gene mobility promotes the spread of resistance in bacterial populations.Environmentally co-occurring mercury resistance plasmids are genetically and phenotypically diverse and confer variable context-dependent fitness effectsRapid compensatory evolution promotes the survival of conjugative plasmids.Conflicting selection alters the trajectory of molecular evolution in a tripartite bacteria-plasmid-phage interaction.Variable plasmid fitness effects and mobile genetic element dynamics across Pseudomonas species.Sampling the mobile gene pool: innovation via horizontal gene transfer in bacteria.Plasmid stability is enhanced by higher-frequency pulses of positive selection.Bacterial evolution: Resistance is a numbers game.Positive selection inhibits gene mobilisation and transfer in soil bacterial communities.Application of long read sequencing to determine expressed antigen diversity in Trypanosoma brucei infectionsMigration promotes plasmid stability under spatially heterogeneous positive selectionA megaplasmid family driving dissemination of multidrug resistance in PseudomonasCompetitive species interactions constrain abiotic adaptation in a bacterial soil communityExtremely fast amelioration of plasmid fitness costs by multiple functionally diverse pathwaysThe Ecology and Evolution of Pangenomes
P50
Q24630129-FDFA7E2C-0647-4887-B5D7-E83824F6DE02Q34357533-10AB1F2D-3544-4EBE-A326-EE46811D2D03Q35672273-57B76729-9A1E-4B58-940B-797A55260F52Q35978072-13F40C48-7BCF-4302-A6FE-DA62A706676DQ35983371-14013D82-084A-49F5-B5E7-A60AC7764FD4Q37126788-19D1021E-6D4F-4885-A925-362FD1F592B6Q40230783-70C08C18-FF1E-4B21-B8EB-2B748F6AA7A6Q40270523-BA8793DF-3484-43A9-8DD3-DB9036044CB3Q41685498-4F7EEF5A-D981-4D27-B246-D91BDAF9F8B6Q42396587-BDF5416A-B75B-471A-B08D-B3EC84030927Q42971588-6E1820A3-F679-4779-8561-2975F581260FQ46243806-B671A4B3-11C6-4E05-941E-EA88D13EA521Q46276787-93471085-C8C1-4A33-AD95-651C2D8EC0FFQ53712023-128836A2-4DA3-47F5-BFC1-6EBEB71902C5Q53762076-807B10B9-C247-4C11-9B05-C8FB32DA7370Q55222848-0BE9DF3C-0A43-4599-A6E3-A2F49037F513Q64081997-3DBB6BAB-EB68-40D1-9E1D-35A3A7D1E098Q88792721-3C0DCFD0-5F5A-4FBE-94D1-C112C7C502B1Q90316700-BF2233CC-ED54-40AB-88C8-9EAE6D0DFD5FQ90624741-0F8E7844-3E0A-4D31-9EC5-672C4E5FDE10Q90713359-A63764AB-F664-45A1-9BEF-3F74C5B3CD16Q90874124-8FD3273C-BBE3-4282-AC0C-80C35ECD5307
P50
description
investigador
@es
researcher
@en
name
James P J Hall
@en
type
label
James P J Hall
@en
prefLabel
James P J Hall
@en
P31
P496
0000-0002-4896-4592