Dihexa [Liquid]

Description

Dihexa [Liquid]

Dihexa [Liquid] is a synthetic oligopeptide compound that has been investigated in preclinical and experimental research for its potential neurogenic and cognitive-enhancing properties. Dihexa is derived from modifications of angiotensin IV analogs and is primarily studied for its effects on synaptogenesis, neuroplasticity, and cognitive function in laboratory models.

Additionally, Dihexa has gained significant interest within neuroscience and pharmacology research communities due to its ability to promote neuronal connectivity and synaptic formation, potentially supporting memory, learning, and overall brain function in preclinical studies.

Chemical Properties

• PRODUCT TYPE: LIQUID
• Product Name: Dihexa
• Chemical Class: Synthetic oligopeptide / Neurogenic research compound
• Molecular Formula: C₃₂H₄₂N₆O₆
• Molecular Weight: 618.7 g/mol
• Form: Liquid
• Purity: High-purity research-grade
• Synonyms: Dihexa, N-hexanoic-Tyr-Ile-(6) aminohexanoic amide
• Storage: Store in a tightly sealed container, in a cool and dry environment. Protect from light and moisture.
• Intended Use: Laboratory research, cognitive neuroscience studies, and experimental research applications only.

What is the Working Mechanism of Dihexa?

Preclinical studies suggest that Dihexa exerts its effects primarily by influencing neurotrophic and synaptic signaling pathways. Laboratory findings indicate several mechanisms of action:

Promotion of Synaptogenesis

Dihexa has been shown in cell culture models to enhance the formation of new synapses. By stimulating synaptic connections, Dihexa may support learning, memory formation, and cognitive function.

Interaction with Hepatocyte Growth Factor (HGF) Pathway

Dihexa is believed to act as a potent agonist of HGF/c-Met signaling, which is a key regulator of neuronal growth, synaptic plasticity, and tissue repair in experimental models. Activation of this pathway has been linked to enhanced neurogenesis and synaptic remodeling.j

Neuroplasticity Enhancement

Laboratory studies indicate that Dihexa may promote neuronal structural plasticity, leading to improved dendritic branching and synaptic connectivity, which are crucial for adaptive learning and memory processes.

Cognitive Function Modulation

Through the combined effects on HGF signaling and synaptogenesis, Dihexa demonstrates potential cognitive-enhancing effects in preclinical models, including improved spatial memory, associative learning, and executive function in laboratory models.

Potential Observations of Dihexa in Preclinical Studies

Laboratory studies have reported the following observations associated with Dihexa:

• Increased dendritic branching and synaptic formation
• Enhanced performance in memory and learning behavioral tests
• Neuroprotective effects against stress-induced neural atrophy
• Modulation of signaling pathways involved in neuronal growth
• Improved cognitive outcomes in experimental models of neurodegeneration

Potential Side Effects Observed in Experimental Settings

Although research is limited, preclinical studies have noted potential effects under specific conditions:

• Altered neurotransmitter signaling in some laboratory models
• Overstimulation of synaptic pathways under high concentrations
• Temporary neural excitation or hyperactivity in lab studies
• Reduced stability under improper storage or exposure to light and heat

Why Choose RCDbio for Dihexa Liquid?

RCDbio supplies research-grade compounds, analytical standards, and laboratory-tested liquids with strict quality control and third-party purity verification. Our Dihexa  Liquid is manufactured under controlled conditions to ensure batch consistency, chemical integrity, and reproducibility across experimental applications.

Disclaimer

Dihexa Liquid is exclusively for laboratory research purposes. RCDbio products are not intended to diagnose, treat, cure, or prevent any disease. 

The Food and Drug Administration has not evaluated the statements on our website. Researchers must comply with all applicable local laws and regulations. By purchasing, you agree to our Terms and Conditions.
For queries, complaints, or support, please contact support@rcdbio.co.