Specificity and genetic diversity of xylose-fermenting Scheffersomyces yeasts associated with small blue stag beetles of the genus Platycerus in East Asia

ABSTRACT

Among insect-fungus relationships, xylose-fermenting Scheffersomyces yeasts are well known for their potential in utilizing wood hemicelluloses and their association with various wood-feeding insects. However, their specificity to host insects or strain-level diversity within host species has not been clearly elucidated. In the insect family Lucanidae, larvae usually feed on decaying wood, and adult females consistently possess a fungus-storage organ, called the mycangium, near the abdominal tip. Here the authors investigated host-symbiont relationships between Scheffersomyces yeast symbionts and small blue stag beetles of the genus Platycerus (Coleoptera: Lucanidae) in East Asia by using intergenic spacer (IGS) region as a genetic marker. All yeast strains isolated from the female mycangium of three Platycerus species, P. hongwonpyoi from Korea and P. acuticollis and P. delicatulus from Japan, were allied to Scheffersomyces segobiensis based on the sequences of the nrDNA 26S and internal transcribed spacer (ITS), in which no sequence difference was observed among those strains. However, IGS regions showed clear genetic differentiation within the yeast symbionts of P. hongwonpyoi, as well as between those of Korean and Japanese Platycerus species. In the IGS sequences, nucleotide substitutions were mainly distributed in the whole stretch of IGS1 and the anterior half of IGS2, whereas nucleotide gaps were localized at IGS1 and the middle of IGS2. Despite the conserved association between the Platycerus beetles and the specific strains of S. segobiensis in East Asia, geophylogenetic divergence patterns of the yeast symbionts were not concordant with those of the insect hosts.

KEYWORDS:

• Evolution
• insect-fungus symbiosis
• Lucanidae
• mycangium
• phylogeny
• Platycerus hongwonpyoi

Funding

This study was partly supported by 2014 Research Grant from Kangwon National University (C1011701-01-01), and also by Grants-in-Aid (20248015, 25292082) to K. Kubota from the Japan Society for the Promotion of Science (JSPS). M. Tanahashi is supported by JSPS Research Fellowships for Young Scientists.

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Additional information

Funding

This study was partly supported by 2014 Research Grant from Kangwon National University (C1011701-01-01), and also by Grants-in-Aid (20248015, 25292082) to K. Kubota from the Japan Society for the Promotion of Science (JSPS). M. Tanahashi is supported by JSPS Research Fellowships for Young Scientists.