Birds treated with T tripled their singing rates and crystallized

Birds treated with T tripled their singing rates and crystallized normal songs in 2 weeks. After T removal, subjects were tutored by 4 new adults. Birds previously treated with T tended toward learning fewer new songs post T, consistent with the hypothesis that T helps to close the song learning phase. However, one T-treated bird proceeded to learn several new songs in the spring, despite singing perfectly crystallized songs in the fall. His small crystallized fall learn more repertoire and initial lag behind other subjects in song development suggest that this individual may have had limited early song learning experience. We conclude that

an exposure to testosterone sufficient for crystallization of a normal song repertoire does not necessarily prevent future song learning and AZD0530 mw suggest that early social experiences might override the effects of hormones in closing song learning. (c) 2012 Elsevier B.V. All rights reserved.”
“Human reticulon 4 (RTN-4) has been identified as the neurite outgrowth

inhibitor (Nogo). This protein contains a span of 66 amino acids (Nogo-66) flanked by two membrane helices at the C-terminus. We previously determined the NMR structure of Nogo-66 in a native-like environment and defined the regions of Nogo-66 expected to be membrane embedded. We hypothesize that aromatic groups and a negative charge hyperconserved among RTNs (Glu26) drive the remarkably strong association of Nogo-66 with a phosphocholine surface. Glu26 is an isolated charge with no counterion provided by nearby protein groups. We modeled the docking of dodecylphosphocholine GSI-IX ic50 (DPC) with Nogo-66 and found that a lipid choline group could form a stable salt bridge with Glu26 and serve as a membrane anchor point To test the role of the Glu26 anion in binding choline, we mutated this residue to alanine and assessed the

structural consequences, the association with lipid and the affinity for the Nogo receptor. In an aqueous environment, Nogo-66 Glu26Ala is more helical than WT and binds the Nogo receptor with higher affinity. Thus, we can conclude that in the absence of a neutralizing positive charge provided by lipid, the glutamate anion is destabilizing to the Nogo-66 fold. Although the Nogo-66 Glu26Ala free energy of transfer from water into lipid is similar to that of WI, NMR data reveal a dramatic loss of tertiary structure for the mutant in DPC micelles. These data show that Glu26 has a key role in defining the structure of Nogo-66 on a phosphocholine surface. This article is part of a special issue entitled: Interfacially Active Peptides and Proteins. Guest Editors: William C. Wimley and Kalina Hristova. (C) 2014 Elsevier B.V. All rights reserved.”
“Background: The association between vitamin D status at birth and childhood allergic outcomes is uncertain.

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