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mostly above the estimated minimally important change for both scales, implying clinically relevant changes.Past studies suggest that monolingual and bilingual infants respond differently to race information in face discrimination and social learning tasks. In particular, bilingual infants have been shown to respond more similarly to own- and other-race individuals, in contrast to monolingual infants, who respond preferentially to own-race individuals. In the current study, we investigated monolingual and bilingual sensitivity to speaker race in spoken word recognition. Two-year-old infants were presented with spoken words in association with visual targets. Words were presented in association with own- or other-race actors and were either correctly pronounced or mispronounced. Measuring speech-responsive eye movements to visual targets, we analyzed fixation to visual targets for correct and mispronounced words in relation to speaker race for each group. When presented with own-race speakers, both monolingual and bilingual infants associated correctly pronounced labels, but not mispronounced labels, with visual targets. When presented with other-race speakers, bilingual infants responded similarly. In contrast, monolingual infants did not fixate visual targets regardless of whether words were correctly pronounced or mispronounced by an other-race speaker. Results are discussed in terms of the sensitivities of bilingual and monolingual infants to novelty, learned associations between race and language, and prior social experiences.Streptococcus mitis strain Nm-65 secretes an atypical 5-domain-type cholesterol-dependent cytolysin (CDC) called S. mitis-derived human platelet aggregation factor (Sm-hPAF) originally described as a platelet aggregation factor. Sm-hPAF belongs to Group III CDC that recognize both membrane cholesterol and human CD59 as the receptors, and shows preferential activity towards human cells. Draft genome analyses have shown that the Nm-65 strain also harbors a gene encoding another CDC called mitilysin (MLY). This CDC belongs to Group I CDC that recognizes only membrane cholesterol as a receptor, and it is a homolog of the pneumococcal CDC, pneumolysin. The genes encoding each CDC are located about 20 kb apart on the Nm-65 genome. Analysis of the genomic locus of these CDC-encoding genes in silico showed that the gene encoding Sm-hPAF and the region including the gene encoding MLY were both inserted into a specific locus of the S. NSC 696085 mitis genome. The results obtained using deletion mutants of the gene(s) encoding CDC in Nm-65 indicated that each CDC contributes to both hemolysis and cytotoxicity, and that MLY is the major hemolysin/cytolysin in Nm-65. The present study aimed to determine the potential pathogenicity of an S. mitis strain that produces two CDC with different receptor recognition properties and secretion modes.The spread of carbapenem-resistant Enterobacteriaceae (CRE) worldwide remains a major threat to public health. Notably, carbapenemase-encoding genes are usually located in plasmids harboring other resistance determinants, and isolates having multiple plasmids are often highly resistant to carbapenems. In this study, we characterized the genetic context of coproduction of KPC-2, VIM-1, and FosA3 via two plasmids in the multidrug-resistant Klebsiella pneumoniae sequence type 11 (ST11) isolate JS187, recovered during an outbreak of KPC-2-producing K. pneumoniae in a Chinese teaching hospital in 2008. Plasmid p187-1, coharboring blaVIM-1 and fosA3, consisted of a pKOX-R1-like backbone and two multidrug resistant (MDR) regions separated by pKHS1-like backbone sequences involving plasmid replication and stability. The MDR region 1 was a chimera composed of the blaVIM-1-bearing In916-like integron and Tn1721-like transposon, and was disrupted by sequential insertion of an IS26-based transposition unit carrying blaCTX-M-3 and a ΔTn3-like transposon bearing blaTEM-1. MDR region 2 was an IS26-array structure with fosA3 and blaSHV-12. Plasmid p187-2 harboring blaKPC-2 was closely related to pKP048. blaKPC-2 in p187-2 was carried by a Tn1721 variant, which differed from the prototype Tn1721-blaKPC-2 transposon observed in pKP048 by disruption of an IS26 at Tn3 and deletion of a 31-kb MDR fragment. Co-existence of the novel VIM-1- and FosA3-encoding MDR plasmid p187-1 and the KPC-2-encoding pKP048-like plasmid p187-2 made K. pneumoniae JS187 highly resistant to carbapenems. Moreover, p187-1 still carried genes conferring resistance to cephalosporins, fosfomycin, chloramphenicol, and quaternary ammonium, posing substantial challenges for the treatment of Enterobacteriaceae infections. Thus, monitoring the prevalence and evolution of these plasmids and/or strains is critical.Transmissible spongiform encephalopathies can jump species barriers. In relatively few cases is the possible route of transmission thought to be known, mostly involving humans, cattle and sheep. It is thought that sheep might be the cause of Bovine Spongiform Encephalopathy (BSE) and Chronic Wasting Disease (CWD) in cervids, and that humans might have gotten prion disease (e.g., vCJD) from eating meat from BSE+ cows. A looming societal question is whether humans will acquire a prion disease from ingesting prions from CWD+ deer. On an evolutionary tree of the PRNP gene in mammals, deer, sheep and cow are relatively closely related, whereas these three species are relatively distant from humans. If a prion disease jumped the species barrier from cow to humans, the phylogenetic gap from deer to humans is no greater, and sheer evolutionary distance alone cannot explain a CWD species barrier in humans. Aspects of the PRNP gene were compared among these species to search for genetic differences that might influence the permeability of the species barrier. Human prion disease has been associated with having more than four copies of the octarepeat unit (PHGGGWG), whereas deer, sheep and cow all have three copies. Two amino acid positions in the metal-binding region (96 and 97) have been implicated in species barriers (Breydo and Uversky, 2011), whereas no variation was detected in white-tailed deer and mule deer with and without CWD, or in black-tailed deer, Key deer or Coues deer. Four out of 10 differences between deer and human in the β2-α2 loop might preclude CWD prions from converting human PrPC to PrPSc because of disruption of a steric zipper. The reasons for a CWD species barrier between deer and humans, if there is one, is still unresolved.

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