PTD-DBM Peptide

$130.00

For Research Use Only. Not for human use.

The high-purity PTD-DBM peptide is designed for advanced laboratory research on hair follicle regeneration and skin repair. PTD-DBM is a synthetic peptide studied for its role in activating the Wnt/β-catenin cell signaling pathway. It is widely referenced in scientific literature exploring hair follicle neogenesis, wound healing mechanisms, and tissue regeneration in preclinical models ().

Out of stock

For Research Use Only. Not for human use.

PTD-DBM is a synthetic peptide commonly used in pre-clinical research to study activation of the Wnt cell signaling pathway, hair follicle development, new follicle formation after injury, and skin tissue repair. This research-grade PTD-DBM peptide is produced under strict GMP-compliant conditions and supplied as a lyophilized powder to maintain high purity, stability, and consistency in laboratory experiments.

Designed only for preclinical studies, each batch of PTD-DBM undergoes thorough quality checks and comes with full documentation, including a Certificate of Analysis (COA), purity reports, and structure confirmation.

Scientific Overview

PTD-DBM works by blocking the interaction between two proteins (CXXC5 and Dishevelled), thereby increasing Wnt/β-catenin signaling activity in research models. According to preclinical literature, PTD-DBM has been studied in the following research areas (

Formation of new hair follicles and hair regrowth in animal models
Wound closure and skin tissue repair observations in preclinical settings
Increased activity of key growth signals in skin cell research models
Collagen production observations in preclinical wound repair studies
Growth and activity of cells involved in skin regeneration research

Why Researchers Choose Our PTD-DBM

Laboratories seeking reliable PTD-DBM for research benefit from our focus on consistency and accuracy. Every batch is verified for:

High purity and correct structure
Reliable results across experiments
Strict manufacturing controls and complete records
Competitive pricing for research needs

Research-Referenced Functional Attributes

(Based on existing preclinical and literature data — not intended as claims of therapeutic use. For research use only.)

Blocking CXXC5-Dishevelled protein interactions to study Wnt pathway activity
Observing new hair follicle growth outcomes in animal research models
Studying skin wound closure and collagen dynamics in preclinical models
Investigating regeneration mechanisms after tissue injury in laboratory settings
Examining cell growth signals in skin research models
Studying combinatory effects with other Wnt pathway activators in preclinical repair research

For Research Use Only. Not for human use.

Additional information

Weight	.125 lbs
Dimensions	8 × 7 × .5 in

Peptide Research

Targeting CXXC5 stimulates hair regrowth and new follicle formation after wounds (2017) – https://pubmed.ncbi.nlm.nih.gov/28595998/
CXXC5 blocks Wnt pathway in skin wound healing (2015) – https://pubmed.ncbi.nlm.nih.gov/25961490/
CXXC5 role in hormone-related hair loss via prostaglandin signaling (2023) – https://pubmed.ncbi.nlm.nih.gov/36831222/
Strategies to activate Wnt pathway for better wound healing (2023) – https://pubmed.ncbi.nlm.nih.gov/36608734/
Advances in hair follicle regeneration through Wnt modulation (various reviews) – https://pubmed.ncbi.nlm.nih.gov/32060528/

Keep lyophilized peptides sealed in their original vial, protected from light and humidity, and store at -4°F or colder for optimal long-term stability in research settings; short-term refrigeration at around 39°F suffices for immediate use within weeks, though freezer storage maximizes integrity across extended research timelines.