Tropical tephritid fruit fly community with high incidence of shared Wolbachia strains as platform for horizontal transmission of endosymbionts

Environ Microbiol. 2014 Dec;16(12):3622-37. doi: 10.1111/1462-2920.12382. Epub 2014 Feb 18.

Abstract

Wolbachia are endosymbiotic bacteria that infect 40-65% of arthropod species. They are primarily maternally inherited with occasional horizontal transmission for which limited direct ecological evidence exists. We detected Wolbachia in 8 out of 24 Australian tephritid species. Here, we have used multilocus sequence typing (MLST) to further characterize these Wolbachia strains, plus a novel quantitative polymerase chain reaction method for allele assignment in multiple infections. Based on five MLST loci and the Wolbachia surface protein gene (wsp), five Bactrocera and one Dacus species harboured two identical strains as double infections; furthermore, Bactrocera neohumeralis harboured both of these as single or double infections, and sibling species B. tryoni harboured one. Two Bactrocera species contained Wolbachia pseudogenes, potentially within the fruit fly genomes. A fruit fly parasitoid, Fopius arisanus shared identical alleles with two Wolbachia strains detected in one B. frauenfeldi individual. We report an unprecedented high incidence of four shared Wolbachia strains in eight host species from two trophic levels. This suggests frequent exposure to Wolbachia in this tropical tephritid community that shares host plant and parasitoid species, and also includes species that hybridize. Such insect communities may act as horizontal transmission platforms that contribute to the ubiquity of the otherwise maternally inherited Wolbachia.

Publication types

  • Research Support, Non-U.S. Gov't

MeSH terms

  • Animals
  • Australia
  • Female
  • Incidence
  • Male
  • Molecular Sequence Data
  • Multilocus Sequence Typing
  • Phylogeny
  • Polymerase Chain Reaction
  • Symbiosis*
  • Tephritidae / genetics
  • Tephritidae / microbiology*
  • Tephritidae / physiology
  • Wasps / microbiology
  • Wolbachia / classification*
  • Wolbachia / genetics
  • Wolbachia / isolation & purification*
  • Wolbachia / physiology

Associated data

  • GENBANK/KC581413
  • GENBANK/KC581414
  • GENBANK/KC581415
  • GENBANK/KC581416
  • GENBANK/KC581417
  • GENBANK/KC668333
  • GENBANK/KC668334
  • GENBANK/KC668335
  • GENBANK/KC668336
  • GENBANK/KC668337
  • GENBANK/KC668338
  • GENBANK/KC668339
  • GENBANK/KC668340
  • GENBANK/KC668341
  • GENBANK/KC668342
  • GENBANK/KC668343
  • GENBANK/KC668344
  • GENBANK/KC668345
  • GENBANK/KC668346
  • GENBANK/KC668347
  • GENBANK/KC668348
  • GENBANK/KC668349
  • GENBANK/KC668350
  • GENBANK/KC668351
  • GENBANK/KC668352
  • GENBANK/KC668353
  • GENBANK/KC668354
  • GENBANK/KC668355
  • GENBANK/KC668356
  • GENBANK/KC668357
  • GENBANK/KC668358
  • GENBANK/KC668359
  • GENBANK/KC668360
  • GENBANK/KC668361
  • GENBANK/KC668362
  • GENBANK/KC668363
  • GENBANK/KC668364
  • GENBANK/KC668365
  • GENBANK/KC668366
  • GENBANK/KC668367
  • GENBANK/KC668368
  • GENBANK/KC668369
  • GENBANK/KC668370
  • GENBANK/KC668371
  • GENBANK/KC668372
  • GENBANK/KC668373
  • GENBANK/KC668374
  • GENBANK/KC668375
  • GENBANK/KC668376
  • GENBANK/KC668377
  • GENBANK/KC668378
  • GENBANK/KC668379
  • GENBANK/KC668380
  • GENBANK/KC668381
  • GENBANK/KC668382
  • GENBANK/KC668383
  • GENBANK/KC668384
  • GENBANK/KC668385
  • GENBANK/KC668386
  • GENBANK/KC668387
  • GENBANK/KC668388
  • GENBANK/KC668389
  • GENBANK/KC668390
  • GENBANK/KC668391
  • GENBANK/KC668392
  • GENBANK/KC668393
  • GENBANK/KC668394
  • GENBANK/KC668395
  • GENBANK/KC668396
  • GENBANK/KC668397
  • GENBANK/KC668398
  • GENBANK/KC668399
  • GENBANK/KC668400
  • GENBANK/KC668401
  • GENBANK/KC668402
  • GENBANK/KC668403
  • GENBANK/KC668404
  • GENBANK/KC668405
  • GENBANK/KC668406
  • GENBANK/KC668407
  • GENBANK/KC668408
  • GENBANK/KC668409