Abstract
Simple SummaryEach honey bee colony has a single queen which plays a crucial role in the survival and wellbeing of the entire hive. Honey bee genetic analysis and selection and breeding programs rely on destructive methods using worker bees; workers are numerous in a colony and can be quickly replaced. In this study, we tested and validated a fast and efficient non-destructive method to conduct genetic analysis directly on honey bee queens. We also describe a new method for the transition to in silico of a widely used honey bee genetic marker by reconciling both cleaved amplified polymorphic sequences and Sanger sequencing approaches. Both new approaches will provide significant service to honey bee breeding and selection programs, as well as facilitating and standardizing honey bee haplotype identification among research institutions.The honey bee Apis mellifera L. colony is headed by a single and indispensable queen, whose duty it is to ensure brood production and provide pheromonal stability within the colony. This study presents a non-invasive method that allows the identification of the queen maternal lineage and subspecies using the remaining tissue of her clipped wing. The DraI mtDNA COI-COII (DmCC) test was applied to various sizes of queen and worker wings and the results were compared with data obtained from other bee tissues. Furthermore, we propose a new method allowing in silico transition of the DmCC test and haplotype identification based on extended sequencing of the tRNAleu and COII genes. Our results show that DNA extracted by Chelex 10% from one-third of a queen’s wing is deemed adequate for a successful identification of her maternal evolutionary lineage, haplotype and subspecies. The in silico method proposed in this study fully adheres to the established guidelines of the DmCC, provides a universal standard for haplotype identification, and offers faster and more precise results by reconciling both cleaved amplified polymorphic sequences (CAPS) and Sanger sequencing approaches.
Highlights
The castes of a honey bee Apis mellifera colony comprise three different members; queen, workers and drones [1]
COI-COII (DmCC) test, because these topics have been extensively tackled in previous studies [13,30,31,32,33]
Whether for worker or queen bees, one-third of a wing is sufficient to conduct a comprehensive DraI mtDNA COI-COII (DmCC) test leading to conclusive results, depicted in Figures 1 and 2
Summary
The castes of a honey bee Apis mellifera colony comprise three different members; queen, workers and drones [1]. The queen bee is the exclusive reproductive member in the colony and originator of all progeny. She is single and indispensable in her duty, providing pheromonal stability within the colony and ensuring the latter’s survival and growth. The poor quality of a queen, or queenlessness, induces significant disruption in the pheromone communication inside the colony [2] and could be detrimental if no requeening process is initiated promptly. Attempts to genetically characterize a given honey bee colony are always conducted on the queen’s offspring and the results are associated back to her by virtue. There are, some experimental circumstances in which identifying the genetic background of a queen by
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