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High-sensitivity detection of cryptic Wolbachia in the African tsetse fly (Glossina spp.)
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High-sensitivity detection of cryptic Wolbachia in the African tsetse fly (Glossina spp.)
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Journal Article
High-sensitivity detection of cryptic Wolbachia in the African tsetse fly (Glossina spp.)
2018
Overview
Background
In African tsetse flies
Glossina
, spp. detection of bacterial symbionts such as
Wolbachia
is challenging since their prevalence and distribution are patchy, and natural symbiont titers can range at levels far below detection limit of standard molecular techniques. Reliable estimation of symbiont infection frequency, especially with regard to interrelations between symbionts and their potential impact on host biology, is of pivotal interest in the context of future applications for the control and eradication of
Glossina
-vectored African trypanosomosis. The presence or absence of symbionts is routinely screened with endpoint polymerase chain reaction (PCR), which has numerous advantages, but reaches its limits, when detecting infections at natural low titer. To not only determine presence of native tsetse symbionts but also to localize them to specific host tissues, fluorescence in situ hybridization (FISH) can be applied. However, classic FISH assays may not detect low-titer infections due to limitations in sensitivity.
Results
We have compared classic endpoint PCR with high-sensitivity blot-PCR. We demonstrate that the latter technique allows for clear detection of low-titer
Wolbachia
in the
morsitans
and
palpalis
groups while classic endpoint PCR does not. In order to localize
Wolbachia
in situ in high and low-titer
Glossina
species, we applied high-end Stellaris®
r
RNA-FISH. We show that with this high sensitivity method, even low amounts of
Wolbachia
can be traced in specific tissues. Furthermore, we highlight that more tissues and organs than previously recorded are infested with
Wolbachia
in subspecies of the
morsitans
and
palpalis
groups.
Conclusions
Our results demonstrate that overall symbiont infection frequencies as well as the presence in specific host tissues may be underestimated when using low-sensitivity methods. To better understand the complex interrelation of tsetse flies and their native symbionts plus the pathogenic trypanosomes, it is important to consider application of a broader range of high-sensitivity detection tools.
Publisher
BioMed Central,BioMed Central Ltd,Springer Nature B.V,BMC
Subject
/ Animals
/ Bacterial Outer Membrane Proteins - genetics
/ Biology
/ Biomedical and Life Sciences
/ Female
/ Fluorescence in situ hybridization
/ In Situ Hybridization, Fluorescence - methods
/ Insect Vectors - microbiology
/ Insects
/ Low-titer symbiont detection limit
/ Male
/ Muscidae
/ Mycology
/ Organs
/ Polymerase Chain Reaction - methods
/ Proteins
/ rRNA
/ Stellaris® fluorescence in situ hybridization
/ Tsetse fly (Glossina palpalis)
/ Virology
