The Raymann Lab
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Ecology and evolution of host-associated microbes
Publications
Hopkins HA, Raymann K. 2022. bioRxiv. doi: https://doi.org/10.1101/2022.06.17.496625
Microbial ecology of sand fly breeding sites: aging and larval conditioning alter the bacterial community composition of rearing substrates
Romo Bechara N, Wasserberg G, Raymann K. 2022. Parasites & Vectors. in press
High royal jelly production does not impact the gut microbiome of honey bees
Damico ME, Rueppell O, Shaffer Z, Han B, Raymann K. 2021. Animal Microbiome. 3:1–11
Larval conditioning and aging of sand fly rearing medium affect oviposition site selection in Phlebotomus papatasi sand flies
Faw LR, Raymann K, Romo Bechara N, Wasserberg G. 2021. Journal of Medical Entomology 58:1931–1935
Strain structure and dynamics revealed by targeted deep-sequencing of the honeybee gut microbiome
Bobay LM, Wissel EF, Raymann K. 2020. mSphere. 5 (4)
CoreCruncher: fast and robust construction of core genomes in large prokaryotic datasets
Harris CD, Torrence EL, Raymann K, Bobay LM. 2020. Molecular Biology & Evolution. msaa224.
Pharmacological physiology, microbiota, and antimicrobial resistance
Raymann K. 2020. In Honey Bee Medicine for the Veterinary Practitioner. Wiley Press 125-134
Population genetics of host-associated microbiomes
Bobay LM & Raymann K. 2019. Current Molecular Biology Reports. 5:128–139
Glyphosate perturbs the gut microbiota of honey bees
Motta EVS, Raymann K, Moran NA. 2018. Proceedings of the National Academy of Sciences USA.115:10305-10310
Pathogenicity of Serratia marcescens strains in honey bees
K Raymann, K Coon, Z Shaffer, S Salisbury, NA Moran. 2018. mBio. 9:e01649-18
Imidacloprid decreases honey bee survival but does not affect the gut microbiome
K Raymann*, EVS Motta*, C Girard*, IM Riddington, JA Dinser, NA Moran. 2018. Applied Environmental Microbiology AEM 00545-18
The role of the gut microbiome in health and disease of adult honey bee workers
K Raymann, NA Moran. 2018. Current Opinion in Insect Science 26, 97-104
Antibiotics reduce genetic diversity of core species in the honeybee gut microbiome
K Raymann*, LM Bobay*, NA Moran. 2017. Molecular Ecology doi: 10.1111/mec.14434
Antibiotic exposure perturbs the gut microbiota and elevates mortality in honeybees
K Raymann, Z Shaffer, NA Moran. 2017. PLoS Biology 15 (3), e2001861
Unexplored archaeal diversity in the great ape gut microbiome
K Raymann, AH Moeller, AL Goodman, H Ochman. 2017. mSphere 2 (1), e00026-17
The two-domain tree of life is linked to a new root for the Archaea
K Raymann, C Brochier-Armanet, S Gribaldo. 2015. Proceedings of the National Academy of Sciences USA 112 (21), 6670-6675
AJ Probst, T Weinmaier, K Raymann, A Perras, JB Emerson, T Rattei, G Wanner, A Klingl, IA Berg, M Yoshinaga, B Viehweger, KU Hinrichs, BC Thomas, S Meck, AK Auerbach, M Heise, A Schintlmeister, M Schmid, M Wagner, S Gribaldo, JF Banfield, C Moissl-Eichinger. 2014. Nature communications 5
Comparative genomics highlights the unique biology of Methanomassiliicoccales, a Thermoplasmatales-related seventh order of methanogenic archaea that encodes pyrrolysine
G Borrel, N Parisot, HMB Harris, E Peyretaillade, N Gaci, W Tottey, O Bardot, K Raymann, S Gribaldo, P Peyret, PW O’Toole, JF Brugère. 2014. BMC genomics 15 (1), 679
DNA topoisomerase VIII: a novel subfamily of type IIB topoisomerases encoded by free or integrated plasmids in Archaea and Bacteria
D Gadelle, M Krupovic, K Raymann, C Mayer, P Forterre. 2014. Nucleic acids research 42 (13), 8578-8591
Plasmids from Euryarchaeota
P Forterre, M Krupovic, K Raymann, N Soler. 2014. Plasmids: Biology and Impact in Biotechnology and Discovery 2, PLAS-0027-2014. doi:10.1128/microbiolspe
Global phylogenomic analysis disentangles the complex evolutionary history of DNA replication in archaea
K Raymann, P Forterre, C Brochier-Armanet, S Gribaldo. 2013. Genome biology and evolution 6 (1), 192-212
A genomic survey of reb homologs suggests widespread occurrence of R-bodies in proteobacteria
K Raymann, LM Bobay, TG Doak, M Lynch, S Gribaldo. 2013. G3: Genes| Genomes| Genetics 3 (3), 505-516