Genome sequences of two cyanobacteria strains isolated from hornworts.

We report two complete genome assemblies of symbiotic cyanobacteria isolated from the hornwort species and . These new datasets will facilitate future comparative genomic studies across symbiotic cyanobacteria.

Bee cups 2.0: P-cups as single-use cages for honey bee (Hymenoptera: Apidae) experiments.

Honey bees and other pollinators face threats from pesticides, imperfect nutrition, and a diverse set of parasites and pathogens. Honey bees are also a research model for development, social behavior, microbiology, and aging. Tackling these questions requires a mix of in-hive and controlled laboratory experiments.

Somy evolution in the honey bee infecting trypanosomatid parasite Lotmaria passim.

Lotmaria passim is a ubiquitous trypanosomatid parasite of honey bees nestled within the medically important subfamily Leishmaniinae. Although this parasite is associated with honey bee colony losses, the original draft genome-which was completed before its differentiation from the closely related Crithidia mellificae-has remained the reference for this species despite lacking improvements from newer methodologies. Here, we report the updated sequencing, assembly, and annotation of the BRL-type (Bee Research Laboratory) strain (ATCC PRA-422) of Lotmaria passim.

High temperatures augment inhibition of parasites by a honey bee gut symbiont.

Temperature affects growth, metabolism, and interspecific interactions in microbial communities. Within animal hosts, gut bacterial symbionts can provide resistance to parasitic infections. Both infection and populations of symbionts can be shaped by the host body temperature.

Host-driven temperature dependence of Deformed wing virus infection in honey bee pupae.

The temperature dependence of infection reflects changes in performance of parasites and hosts. High temperatures often mitigate infection by favoring heat-tolerant hosts over heat-sensitive parasites. Honey bees exhibit endothermic thermoregulation-rare among insects-that can favor resistance to parasites.

Antiparasitic effects of three floral volatiles on trypanosomatid infection in honey bees.

Trypanosomatid gut parasites are common in pollinators and costly for social bees. The recently described honey bee trypanosomatid Lotmaria passim is widespread, abundant, and correlated with colony losses in some studies. The potential for amelioration of infection by antimicrobial plant compounds has been thoroughly studied for closely related trypanosomatids of humans and is an area of active research in bumble bees, but remains relatively unexplored in honey bees.