Hepatology 2009 43 Jammeh S, Thomas HC, Karayiannis P: Replicat

Hepatology 2009. 43. Jammeh S, Thomas HC, Karayiannis P: Replicative competence of the T131I, K141E, and G145R surface variants of hepatitis B Virus. J Infect Dis 2007,196(7):1010–1013.PubMedCrossRef Authors’ contributions YLZ, TC, JZ and NSX conceived the study, participated in its design and coordination and drafted the manuscript. YLZ and QY carried out the molecular genetic studies, analyzed the aligned sequences, found conserved targets, participated in the study design and were involved in the shRNA design. YZL and YJC constructed all shRNA plasmids. YZL, YJC, CL, TZ, DZX, RYL, LWY

and YBW performed all cell and mice experiments (including all transfections, hydrodynamic injections, WST-8 assays, RT-PCR and chemiluminescence immunoassays). YLZ, YJC, TC and QY conducted the data analysis and interpretation. AEY, JWS, QY, JZ and NSX helped to draft the manuscript and critically revised its final version. TC, JZ and NSX obtained funding. Selleckchem LOXO-101 All authors read and approved the final manuscript.”
“Background At least eight Cryptosporidium species infect humans [1]; however, only two species are of major significance to public health by causing the majority MLN2238 cost of human cases both sporadic and outbreak related cases, C. hominis and C. parvum [2–5]. Cryptosporidium parvum is zoonotic and infects a wide range of selleck chemicals animal hosts including humans, whereas C. hominis is generally restricted to humans [6]. Therefore, the main phenotypic difference between C. hominis

and C. parvum is the host range [1–3]. In addition, these two Cryptosporidium species differ in geographical and temporal distribution and pathogenicity [7, 8]. Differential risk factors and transmission routes have also been identified [3, 7, 9]. However human infections are not solely linked to these two species and other species and genotypes have been associated with illness [10]. These additional species and genotypes are therefore considered emergent. This was the case of the rabbit genotype, the aetiological agent in an outbreak of waterborne human cryptosporidiosis in Northamptonshire, East Midlands, England [11, 12]. Subsequent characterization studies revealed that the rabbit genotype, which caused

this outbreak, corresponds to Cryptosporidium cuniculus (Inman and Takeuchi, 1979) [13]. The public health relevance Lepirudin of C. parvum and C. hominis has driven a bias in Cryptosporidium research towards these two species. Indeed, the genomes of C. parvum and C. hominis (IOWA and TU502 reference strains, respectively) have been sequenced [14, 15]. The genome sequencing of C. muris, a less relevant Cryptosporidium species from a public health perspective, is underway [16]. The genomic data for all 3 genome representatives is available online http://​CryptoDB.​org. The genome sizes for C. parvum and C. hominis are 9.11 and 9.16 Mb, respectively. The GC content is ~ 30% and the coding region is of about 6 Mb [15]. The number of published genes is slightly higher in C. hominis than in C.

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