Search Results for: neuroscience

Neuroscience 2021 and Targeting Trends

Have you read Targeting Trends newsletters? Now in a more convenient format, the ATS newsletters are accessible on our website. Features include summaries of the latest publications, FAQ to answer product questions, and articles with cutting edge research shared by featured scientists. Plus cameo appearances by our beloved cats. Flip through the pages of the newsletters like […]

Neuroscience 2021 and Targeting Trends Read More »

Cover Article: Deep Lumbar Neurons Control Ejaculation

Contributed by William Truitt, PhD, Department of Cell Biology, Neurobiology, and Anatomy, Neuroscience Graduate Program, University of Cincinnati, College of Medicine, Post Office Box 670521, Cincinnati, OH 45267-0521, USA. Previously we demonstrated the existence of a spinothalamic pathway in the male rat where neural activation is specifically induced by ejaculation.1 This pathway includes the parvocellular

Cover Article: Deep Lumbar Neurons Control Ejaculation Read More »

Got an itch? Bombesin-SAP may help

Itch Induces Conditioned Place Aversion in Mice. Mu, D, & Sun, Y-G. (2017). Neuroscience Letters, http://dx.doi.org/10.1016/j.neulet.2017.08.046 “Consistently, ablation of itch‐specific neurons that express gastrin‐releasing peptide receptor in the spinal cord also abolished itch‐induced Conditioned Place Aversion (CPA), confirming that itch‐induced CPA is dependent on the spinal itch circuit.” Mice were given a single intrathecal injection

Got an itch? Bombesin-SAP may help Read More »

Saporin Clearance

Q: I am planning an experiment to investigate the effects of ablation of spinal NK-1r-expressing cells (using intrathecal injection of SSP-SAP, Cat. #IT-11). In the first part of the experiment I want to destroy the NK-1r-expressing cells before surgical modification. I am unsure how long after injection of SSP-SAP I should carry out the surgery.

Saporin Clearance Read More »

Animal Models

ATS Animal Models ATS offers many different Animal Model products and full kits for various disease and behavioral research applications. Animal Models Learn more about our Saporin-produced Animal Models. Choose the product links below for the Animal Model of your interest. Most Animal Models are ready in 2 weeks using our Saporin conjugate system to

Animal Models Read More »

Immunology

NGFr (ME20.4, p75) Mouse Monoclonal (Cat. #AB-N07) The p75 neurotrophin receptor (p75NTR), also known as the low affinity nerve growth factor receptor, binds nerve growth factor, brain-derived neurotrophic factor, neurotrophin-3 and neurotrophin-4 with varying specificities. The p75NTR plays an important role in neurotrophic factor signaling and has been shown to modulate the susceptibility of selective

Immunology Read More »

Cover Article: Depletion of Microglia by Mac-1-SAP in Mouse Hippocampal Slice Cultures Enhances Ischemia-Like Neurodegeneration

Contributed by Maria Montero (a), Berta Gonzalez (b), Jens Zimmer (a)(a) Anatomy and Neurobiology, University of Southern Denmark, Denmark(b) Histology Unit, Autonomous University of Barcelona, Spain Microglial cells contribute about 12% of the cells in the brain, acting as “biosensors” for homeostatic regulation in normal and pathological conditions.[3,13] Resting microglial cells in the adult brain

Cover Article: Depletion of Microglia by Mac-1-SAP in Mouse Hippocampal Slice Cultures Enhances Ischemia-Like Neurodegeneration Read More »

Neurovascular Coupling and Brain Imaging

Lecrux et al. Impact of altered cholinergic tones on the neurovascular coupling response to whisker stimulation. Journal of Neuroscience (2017), 1784-16. PMID: 28069927 Brain imaging techniques that use vascular signals to map changes in neuronal activity rely on the coupling between electrophysiology and hemodynamics, a phenomenon referred to “neurovascular coupling” (NVC). It is unknown whether

Neurovascular Coupling and Brain Imaging Read More »

Cholinesterase Inhibitors and Estrogen Receptor Expression

Effects of Cholinergic Lesions and Cholinesterase Inhibitors on Aromatase and Estrogen Receptor Expression in Different Regions of the Rat Brain. Li J, Rao D, & Gibbs RB. Neuroscience Available online 29 May 2018 In Press, Uncorrected Proof. Highlights This paper applied a novel UPLC–MS/MS method to detect aromatase (ARO) activity in the brain tissue. Medial

Cholinesterase Inhibitors and Estrogen Receptor Expression Read More »

Shopping Cart
Scroll to Top