A transgenic non-human animal is provided. In certain embodiments, the animal comprises a genome comprising an immunoglobulin heavy chain locus comprising: a) a transcribed gene encoding a fusion protein comprising, from N-terminus to C-terminus: i. a scaffold comprising a first binding domain; and ii. a heavy chain constant region operably linked to the scaffold; wherein the scaffold is capable of specifically binding to a target in the absence of additional polypeptides; and b) a plurality of pseudogenes that are operably linked to the transcribed gene and that donate, by gene conversion, nucleotide sequence to the part of the transcribed gene that encodes the binding domain.

The present invention provides Factor IX fusion proteins with higher specific activity and a longer useful clotting function relative to wild type or non-modified Factor IX protein.

The invention relates to nucleic acid constructs for expression in mice for the production of heavy chain only antibodies and V.sub.H domains, transgenic mice, related methods and uses.

The present disclosure is directed to a method of treating a neuropsychiatric disorder. This method involves selecting a subject having the neuropsychiatric disorder and administering to the selected subject a preparation of glial progenitor cells at a dosage effective to treat the neuropsychiatric disorder in the subject. Another aspect of the disclosure is directed to a method of treating a neuropsychiatric disorder that includes selecting a subject having the neuropsychiatric disorder and administering, to the selected subject, a potassium (K.sup.+) channel activator at a dosage effective to restore normal brain interstitial glial K.sup.+ levels in the selected subject and treat the neuropsychiatric disorder is also disclosed.

It is shown that ventral hippocampal kindling results in functional reorganization of the ventral hippocampal excitatory circuits. Most pronounced is the connectivity to the medial prefrontal cortex, with increased volume of activation on fMRI and increased amplitude of activation on electrophysiology. There is evidence of increased anxiety following kindling Methods are provided for simultaneous LFP-fMRI to image single seizures Imaging the spatiotemporal dynamics of individual seizures enables characterization of propagation patterns of focal and secondary-generalized seizures, that provide for targeted intervention.

This invention relates to the finding that testis development related protein (TDRP; also termed Immunomoodulin or Imood herein) is a circulatory anxiogenic factor that modulates anxiety-like behaviour in mammalian models through the regulation of the immune system. Methods of treatment of mental disorders, such as anxiety, and TDRP antagonists for use in such methods are provided. Methods of diagnosing or monitoring a mental disorder in an individual by determining levels of TDRP in a sample and methods of screening for compounds that reduce levels of TDRP are provided.

Transgenic non-human animal models for cellular senescence are provided herein, as are methods and materials for making and using the transgenic non-human animal models. For example, a p21-Cre mouse model for cellular senescence is provided herein.

An auxin-inducible degron system kit that controls degradation of a target protein in a non-plant-derived eukaryotic cell, the kit containing a first nucleic acid that encodes a mutant TIR1 family protein having a mutation at an auxin-binding site, an auxin analog that has an affinity to the mutant TIR1 family protein and a second nucleic acid that encodes a degradation tag containing at least a part of an Aux/IAA family protein and having an affinity to a complex of the mutant TIR1 family protein and the auxin analog.

Described herein are methods of prolonging or reactivating organogenesis in a subject in need thereof (e.g., a subject that has impaired organ function such as a prematurely born infant). The methods comprise increasing the expression or activity of Lin28A or Lin28B proteins, inhibiting the expression or activity of let-7 family microRNAs, and/or inhibiting the expression or activity of Dis3L2 exonuclease.

A nerve in a mammal is optogenetically transduced, wherein the nerve is susceptible to stimulus by selective application of transdermal light, and a light source is applied to dermis of the mammal at or proximate to the optogenetically transduced nerve, to thereby stimulate the nerve. A wearable device for optogenetic motor control and sensation restoration of a mammal includes a wearable support, a power source at the wearable support, a controller at the wearable support and in electrical communication with a power source, and a transdermal light source coupled to the controller.