Genetic diversity and structure of Schistosoma japonicum within two marshland villages of Anhui, China, prior to schistosome transmission control and elimination

Ding, Huan; Lü, Duo; Gao, Yumeng; Deng, Yao; Li, Ying

doi:10.1007/s00436-016-5321-x

Cited by 3 publications

(1 citation statement)

References 29 publications

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“…Some anthropogenic changes could influence the genetic diversity and population structure of Schistosoma japonicum [ 5 – 8 ]. Geographical differentiation among S. japonicum populations in China has been observed using a variety of markers, including nuclear genes [ 9 , 10 ], mitochondrial genes [ 11 , 12 ], microsatellite loci [ 13 , 14 ], and genome-wide single nucleotide polymorphisms (SNPs) [ 15 , 16 ]. The population differentiation of S. japonicum was thought to result from geographical separation, habitat isolation [ 12 , 17 ], co-evolution with different species of snails [ 18 – 20 ], and different transmission patterns driven by definitive hosts [ 17 , 21 , 22 ].…”

Section: Introductionmentioning

confidence: 99%

The genetic variation of different developmental stages of Schistosoma japonicum: do the distribution in snails and pairing preference benefit the transmission?

Emery

et al. 2020

Parasites Vectors

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Background: Schistosoma japonicum is a waterborne parasite that causes schistosomiasis in humans and in more than 40 animal species. Schistosoma japonicum shows distinct genetic differentiation among geographical populations and multiple hosts, but the genetic diversity of different developmental stages of S. japonicum from is less studied. Such studies could elucidate ecological mechanisms in disease transmission by analysing feedbacks in individual physiology and population state. Methods: After infection using cercariae from a pool of snails shedding together (Method I) and infection using mixed equal numbers of cercariae from individually shed snails (Method II), different developmental stages of S. japonicum were genotyped with microsatellite loci, including 346 cercariae, 701 adult worms and 393 miracidia. Genetic diversity and molecular variation were calculated at different population levels. Kinships (I′) among cercariae at intra-snail and inter-snail levels were evaluated. Genetic distance (Dsw) was compared between paired and unpaired worms, and partner changing was investigated through paternity identification for miracidia. Results: The cercaria clones in individual snails varied from 1 to 8 and the kinship of cercariae within individual snails was significant higher (P < 0.001) than that among different snails after deleting near-identical multi-locus genotypes (niMLGs). The allelic diversity of worms in Method I was lower (P < 0.001) than that in Method II, and allele frequency among mice in Method I was also less consistent. The parents of some miracidia were worms that were not paired when collected. The Dsw between each female of paired and unpaired males was much larger (P < 0.001) than that between the female and male in each pair. Conclusions: Most of the infected snails contained multiple miracidia clones. The aggregation of genetically similar S. japonicum miracidia in individual snails and the unbalanced distribution of miracidia among snails suggests a nonuniform genetic distribution of cercariae among snails in the field. This further influenced the genetic structure of adult worms from infections with different cercariae sampling methods. Schistosoma japonicum in mice can change

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Section: Introductionmentioning

confidence: 99%

The genetic variation of different developmental stages of Schistosoma japonicum: do the distribution in snails and pairing preference benefit the transmission?

Emery

et al. 2020

Parasites Vectors

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Genetic diversity and structure of Oncomelania hupensis hupensis in two eco-epidemiological settings as revealed by the mitochondrial COX1 gene sequences

Zhang

et al. 2021

Mol Biol Rep

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RETRACTED: Diversity and Compatibility of Human Schistosomes and Their Intermediate Snail Hosts

Sanogo

Yuan

Zeng

et al. 2018

Trends in Parasitology

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Human schistosomiasis is a major neglected tropical disease that remains endemic in numerous countries of the tropics and subtropics. Controlling the transmission of schistosomes in their intermediate snail hosts remains a key challenge in the fight against schistosomiasis. Divergence in species, biogeography, and genotype in schistosomes and their intermediate hosts has resulted in diverse parasite-host interactions. This review focuses on recent insights in the biogeography and diversity of schistosome species and their snail hosts, and the molecular basis of compatibility polymorphism between them.

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Genetic diversity and structure of Schistosoma japonicum within two marshland villages of Anhui, China, prior to schistosome transmission control and elimination

Cited by 3 publications

References 29 publications

The genetic variation of different developmental stages of Schistosoma japonicum: do the distribution in snails and pairing preference benefit the transmission?

The genetic variation of different developmental stages of Schistosoma japonicum: do the distribution in snails and pairing preference benefit the transmission?

Genetic diversity and structure of Oncomelania hupensis hupensis in two eco-epidemiological settings as revealed by the mitochondrial COX1 gene sequences

RETRACTED: Diversity and Compatibility of Human Schistosomes and Their Intermediate Snail Hosts

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