Shiga toxin-encoding bacteriophages transfer Shiga toxin genes to Escherichia coli and are responsible for the emergence of pathogenic bacterial strains that cause severe foodborne human diseases. Gene vb_24B_21 is the most highly conserved gene across sequenced Shiga bacteriophages. Protein vb_24B_21 (also termed 933Wp42 and NanS-p) is a carbohydrate esterase with homology to the E. coli chromosomally encoded NanS that deacetylates sialic acid in the intestinal mucus. click here To assist the functional characterization of vb_24B_21, we have studied its molecular structure by homology modelling its esterase domain and by elucidating the crystal structure of its uncharacterized C-terminal domain at the atomic resolution of 0.97 Å. Our modelling confirms that NanS from the E. coli host is the closest structurally characterized homolog to the esterase domain of vb_24B_21. Like NanS, vb_24B_21 has an atypical active site, comprising a simple catalytic dyad Ser-His and a divergent oxyanion hole. The crystal structure of the C-terminal domain reveals a lectin-like, jelly-roll β-sandwich fold. The domain displays a prominent cleft that bioinformatics analysis predicts to be a carbohydrate binding site without catalytic properties. In summary, our study indicates that vb_24B_21 is a NanS-like atypical esterase that is assisted by a carbohydrate-binding module of yet undetermined binding specificity.Teeth are comprised of three unique mineralized tissues, enamel, dentin, and cementum, that are susceptible to developmental defects similar to those affecting bone. X-linked hypophosphatemia (XLH), caused by PHEX mutations, leads to increased fibroblast growth factor 23 (FGF23)-driven hypophosphatemia and local extracellular matrix disturbances. Hypophosphatasia (HPP), caused by ALPL mutations, results in increased levels of inorganic pyrophosphate (PPi), a mineralization inhibitor. Generalized arterial calcification in infancy (GACI), caused by ENPP1 mutations, results in vascular calcification due to decreased PPi, later compounded by FGF23-driven hypophosphatemia. In this perspective, we compare and contrast dental defects in primary teeth associated with XLH, HPP, and GACI, briefly reviewing genetic and biochemical features of these disorders and findings of clinical and preclinical studies to date, including some of our own recent observations. The distinct dental defects associated with the three heritable mineralization disorders reflect unique processes of the respective dental hard tissues, revealing insights into their development and clues about pathological mechanisms underlying such disorders.Hepatitis B virus (HBV) is a member of the Hepadnaviridae family and infects hepatocytes, leading to liver pathology in acutely and chronically infected individuals. Co-infection with Hepatitis D virus (HDV), which requires the surface proteins of HBV to replicate, can exacerbate this disease progression. Thus, the >250 million people living with chronic HBV infection, including 13 million co-infected with HDV, would significantly benefit from an effective and affordable curative treatment. Animal models are crucial to the development of innovative disease therapies, a paradigm repeated again and again throughout the fields of immunology, neurology, reproduction, and development. Unfortunately, HBV has a highly-restricted species tropism, infecting limited species including humans, chimpanzees, and treeshrews. The first experimentally controlled studies of HBV infection were following inoculation of human volunteers in 1942, which identified the transmissibility of hepatitis through serum transfer and led to on-human primate (NHP) models of HBV/HDV infection.Although extrastriatal dopaminergic (DAergic) systems are being recognized as contributors to Parkinson's disease (PD) pathophysiology, the role of extrastriatal DA depletion in L-Dopa-induced dyskinesia (LID) is still unknown. In view of the physiologic actions of DA on pallidal neuronal activity and the effects on motor behavior of local injection of DA drugs, the loss of the external (GPe, GP in rodents) and internal (GPi, entopeduncular nucleus (EP) in rodents) pallidal DAergic innervation might differentially contribute to LID. A role of pallidal serotonergic (SER) terminals in LID has been highlighted, however, the effect of DAergic innervation is unknown. We investigated the role of DAergic pallidal depletion on LID. Rats were distributed in groups which were concomitantly lesioned with 6-OHDA or vehicle (sham) in the GP, or EP, and in the medial forebrain bundle (MFB) as follows a) MFB-sham+GP-sham, b) MFB-sham+GP-lesion, c) MFB-lesion+GP-sham, d) MFB-lesion+GP-lesion, e) MFB-sham+EP-sham, f) MFB-sham+EP-lesion, g) MFB-lesion+EP-sham, and h) MFB-lesion+EP-lesion. Four weeks later, animals were treated with L-Dopa (6 mg/kg) twice daily for 22 days.. Immunohistochemical studies were performed in order to investigate the changes in pallidal SER and serotonin transporter (SERT) levels. GP, but not EP, DAergic denervation attenuated LID in rats with a concomitant MFB lesion (p less then 0.01). No differences were found in GP SERT expression between groups of animals developing or not LID. These results provide evidence of the relevance of GP DAergic innervation in LID. The conversion of levodopa to DA in GP serotonergic nerve fibers appears not to be the major mechanism underlying LID.Although (S)-ketamine was approved for use in treatment-resistant depression in 2019, new preclinical findings suggest that (R)-ketamine might produce better efficacy and tolerability relative to (S)-ketamine. Here we evaluated the effects of (R)-, (S)-, and (R,S)-ketamine on executive functions as measured in the attentional set shifting task (ASST) and on their discriminative stimulus effects in rats. Earlier data demonstrated that cognitive flexibility is compromised by (R,S)-ketamine, but the effects of enantiomers in rats are unknown. Separate cohorts of rats were tested in ASST and trained to discriminate either (R,S)-ketamine, (S)-ketamine, or (R)-ketamine (all at 10 mg/kg) from saline; in order to maintain the discrimination, a higher (R)-ketamine dose (17.5 mg/kg) was subsequently instituted. In ASST, all three forms increased the trials to criterion measure at reversal learning and extra-dimensional set-shifting phases. However, in contrast to (R)- and (S)-ketamine, (R,S)-ketamine prolonged the mean time to complete a single trial during early stages, suggesting increased reaction time, and/or unspecific side-effects related to motor or motivational impairments.