Construction of a DNA database for ticks collected in Japan: application of molecular identification based on the mitochondrial 16S rDNA gene
Ai TakanoHiromi FujitaTeruki KadosakaMamoru TakahashiTakeo YamauchiFubito IshiguroNobuhiro TakadaYasuhiro YanoYosaburo OikawaToshirou HONDAMutsuyo GokudenTakashi TsunodaMiyako TsurumiShuji AndoMasako AndohKozue SatoHiroki Kawabata
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Abstract:
Tick identification is important in control of tick-born diseases because tick-borne pathogens are often transmitted by specific tick species. In this study, we determined partial DNA sequences of the mitochondrial 16S rDNA gene (mt-rrs) for ticks including 7 genera and 39 species, and these ticks were allocated to 113 sequence types. Of the 39 species of ticks, 36 species (92.3%) were distinguishable by phylogenetic analysis of mt-rrs. This result suggests that species identification of ticks based on mt-rrs is a viable alternative to morphological identification. In order to establish a DNA database for identification of ixodid and argasid ticks in Japan, we deposited all sequence data in GenBank (from AB819156 to AB819268).Keywords:
Identification
Argasidae
Tick-borne diseases are of increasing economic importance. The biogeographical distributions of tick species are important in the distri- bution of tick-borne diseases. The tick fauna of South Carolina was previously known to include 19 species, and the most recent tick checklist focused pri- marily on the coastal counties in the state. We report an additional seven species of ticks from South Carolina, bringing the total number of tick species collected in the state to 26, and provide information on tick species in the foothills and mountainous area of the state. The newly reported species are Aponomma trimaculatum (Lucas), Argas persicus (Oken), Haemaphysalis chordeilis (Packard), Ixodes dentatus Marx, I. muris Bishopp & Smith, Otobius megnini (Duges), and Rhipicephalus appendiculatus Neumann.
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Abstract Argas brumpti Neumann is a large argasid (soft) tick that inhabits the drier areas of eastern and southern Africa. This species typically feeds on a wide variety of small to large mammals (including humans) and lizards, and resides in shallow caves, rocky areas, or dust-bath areas used by large mammals. Individuals of this species, collected as nymphs and adults from a semidesert area of Kenya and subsequently maintained under constant conditions in the laboratory, survived for 27 yr. Furthermore, after 8 yr of starvation and at least 4 yr after the last male died, at least one female laid eggs. The progeny developed into considerable numbers of both males and females, some of which are still living after 26 yr. The longevity of these ticks is apparently a record for any species of tick. The delay in reproduction likely represents long-term storage of viable sperm, also apparently a record for any species of tick.
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Ticks (suborder Ixodida) ecologically divided into two nidicolous and non-nidicolous groups. More argasid ticks are classified into the former group whereas they are able to coordinate with the specific host(s) and living inside/adjacent to their host’s nest. The current study focused on an argasid tick species adapted to bats in Iran. Tick specimens collected on a bat were captured in a thatched rural house located in suburban Koohdasht in Lorestan province, west of Iran. Tick’s larvae and nymphs were identified as Argas vespertilionis (Latreille, 1796) by using descriptive morphological keys. This argasid tick behaves as a nidicolous species commonly parasitizing bats. We suggest that future studies be conducted on ticks parasitizing wild animals for detection of real fauna of Iranian ticks.
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The argasid tick Carios (Ornithodoros) kelleyi Cooley & Kohls is a common ectoparasite of bats and has been found in massive numbers in homes with associated bat colonies in eastern Iowa. This tick feeds nearly exclusively on bats in nature. Several inhabitants of infested homes complained of "bug bites" at night while asleep that may have resulted in erythematous, edematous, urticaric skin lesions and constitutional signs and symptoms. We provide laboratory evidence that a single, engorged C. kelleyi nymph contained host blood from a human female. The clinical implications of our findings are intriguing but unclear.
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Ornithodoros hermsi Wheeler (Acari: Argasidae) is the vector of Borrelia hermsii, the primary cause of tick-borne relapsing fever in North America. This tick is one of the smallest Ornithodoros species involved with the biological transmission of spirochetes; yet, the amount of blood ingested while feeding is unknown. Therefore, we determined the amount of blood O. hermsi ingested during a bloodmeal to establish its potential for spirochete acquisition while feeding on an infected host. Ticks at different developmental stages were weighed before and after feeding and the volume of blood ingested was calculated. Females ingested the most blood, averaging ≈15 μl per meal, but late-stage nymphs took in the most blood in proportion to unfed body weight. A cohort of nymphs was weighed three more times during the 48 h after feeding, which demonstrated that O. hermsi may have excreted coxal fluid ranging from 24 −36% of the bloodmeal weight. We also developed a quantitative polymerase chain reaction method to determine the number of spirochetes ingested and maintained within the ticks after feeding. The density of spirochetes in ticks having just engorged was slightly less than in the host's blood. In the first 5 d after feeding, the number of spirochetes within the ticks declined from the number initially ingested but then remained constant through 15 d. These observations establish a basis for future studies to determine the minimum number of spirochetes required in the host's blood to allow O. hermsi to become persistently infected and transmit during subsequent bloodmeals.
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