Structural Characterization and transcriptional regulation of Cypin: The role in Neuronal Dendrite Branching,Used

Structural Characterization and transcriptional regulation of Cypin: The role in Neuronal Dendrite Branching,Used

In Stock
SKU: DADAX3838367642
Brand: LAP Lambert Academic Publishing
Condition: New
$108.86
Quantity
Add to wishlist
Add to compare

Sold by Ergodebooks, an authorized reseller.

Returns accepted within 30 days | support@ergodebooks.com

Verified
Shipping Information
  • Free Standard Shipping — United States only
  • Processing Time: 1–3 business days
  • Estimated Delivery: 3–5 business days after dispatch
  • Double-boxed, fully insured & discreetly packaged
  • Tracking number sent via email once dispatched
  • Orders over $250 require signature upon delivery. Taxes calculated at checkout.
Returns & Refund

Returns accepted within 30 days of delivery.

Damaged or Defective Item

Free return shipping + replacement or full refund

Wrong Item Received

Free return shipping + replacement or full refund

Change of Mind

Return shipping at customer's expense · 25% restocking fee applies

All returns require a Return Authorization (RA) number before sending.

To initiate a return, contact us:

support@ergodebooks.com +1 (281) 738-1050
View Full Return & Refund Policy
Payment Option
Payment Methods

Help

If you have any questions, you are always welcome to contact us. We'll get back to you as soon as possible, withing 24 hours on weekdays.

Customer service

All questions about your order, return and delivery must be sent to our customer service team by e-mail at yourstore@yourdomain.com

Sale & Press

If you are interested in selling our products, need more information about our brand or wish to make a collaboration, please contact us at press@yourdomain.com

This work focuses on the identification of specific structural properties of cypin that lead to the multifunctional roles in guanine metabolism and dendrite development. We first employed phylogenetic analysis and computational structure modeling techniques to construct a three dimensional structural model of cypin. In addition, we used a combination of protein structure analysis, experimental kinetic studies, and cell culture tests to uncover novel potential ligands for cypin. We obtained a list of compounds that demonstrate higher binding affinity to GDA than does guanine. Our results provide evidence that an in silico drug discovery strategy coupled with in vitro verification can be successfully implemented to discover compounds that may have therapeutic value for the treatment of diseases and disorders where GDA activity is abnormal. The discovery of intrinsic regulators of cypin expression aids in our understanding of molecular mechanisms underlying dendritic patterning, and hence, synaptic plasticity, learning and memory.

⚠️ WARNING (California Proposition 65):

This product may contain chemicals known to the State of California to cause cancer, birth defects, or other reproductive harm.

For more information, please visit www.P65Warnings.ca.gov.

Recently Viewed