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April 6th, 2025
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University of Colorado Boulder
genomics
biorxiv

De novo genome assemblies of the dwarf honey bee subgenus Micrapis: Apis andreniformis and Apis florea

Ivancevic, A.Open in Google Scholar•Sankovitz, M.Open in Google Scholar•Allen, H.Open in Google Scholar•Joyner, O.Open in Google Scholar•Chuong, E. B.Open in Google Scholar•Ramsey, S. D.Open in Google Scholar

The Micrapis subgenus, which includes the black dwarf honey bee (Apis andreniformis) and the red dwarf honey bee (Apis florea), remains underrepresented in genomic studies despite its ecological significance. Here, we present high-quality de novo genome assemblies for both species, generated using a hybrid sequencing approach combining Oxford Nanopore Technologies (ONT) long reads with Illumina short reads. The final assemblies are highly contiguous, with contig N50 values of 5.0 Mb (A. andreniformis) and 4.3 Mb (A. florea), representing a major improvement over the previously published A. florea genome. Genome completeness assessments indicate high quality, with BUSCO scores exceeding 98.5% and k-mer analyses supporting base-level accuracy. Repeat annotation revealed a relatively low repetitive sequence content (~6%), consistent with other Apis species. Using RNA sequencing data, we annotated 12,232 genes for A. andreniformis and 12,597 genes for A. florea, with >97% completeness in predicted proteomes. These genome assemblies provide a valuable resource for comparative and functional genomic studies, offering new insights into the genetic basis of dwarf honey bee adaptations.

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