Latest
- Frugivore traits predict plant-frugivore interactions using generalized joint attribute modeling
- Cochlea development shapes bat sensory system evolution
- Disentangling mechanical and sensory modules in the radiation of Noctilionoid bats
- A solution to the challenges of interdisciplinary aggregation and use of specimen-level trait data
- Ecological constraints on highly evolvable olfactory receptor genes and morphology in neotropical bats
- Nectar-Feeding Bats and Birds Show Parallel Molecular Adaptations in Sugar Metabolism Enzymes
- Diversity in olfactory receptor repertoires is associated with dietary specialization in a genus of frugivorous bat
- Large-Scale Genome Sampling Reveals Unique Immunity and Metabolic Adaptations in Bats
- Find the Food First: An Omnivorous Sensory Morphotype Predates Biomechanical Specialization for Plant Based Diets in Phyllostomid Bats
- Dietary Diversification and Specialisation in New World Bats Facilitated by Early Molecular Evolution
- Foraging shifts and visual preadaptation in ecologically diverse bats
- Species tree disequilibrium positively misleads models of gene family evolution
- Tissue Collection of Bats for-Omics Analyses and Primary Cell Culture
- Evaluating the performance of targeted sequence capture, RNA-Seq, and degenerate-primer PCR cloning for sequencing the largest mammalian multigene family
- Expressed vomeronasal type-1 receptors (V1rs) in bats uncover conserved sequences underlying social chemical signaling
- Multifactorial processes underlie parallel opsin loss in neotropical bats
- Protocols for the Molecular Evolutionary Analysis of Membrane Protein Gene Duplicates
- Assessing Soft-Tissue Shrinkage Estimates in Museum Specimens Imaged With Diffusible Iodine-based Contrast-Enhanced Computed Tomography (diceCT)
- Vomeronasal and olfactory structures in bats revealed by diceCT clarify genetic evidence of function
- Strength of selection on the Trpc2 gene predicts accessory olfactory bulb form in bat vomeronasal evolution
- The Molecular Evolution of Bat Chemosensory Pathways Reveals Sensory Innovation and Loss
- Trpc2 pseudogenization dynamics in bats reveal ancestral vomeronasal signaling, then pervasive loss
- Bayesian hierarchical models suggest oldest known plant-visiting bat was omnivorous