Semax (10mg)

Description

Product: Semax (10mg) Product Overview: Semax is a synthetic heptapeptide derived from adrenocorticotropic hormone (ACTH), designed with structural modifications to enhance its stability and suitability for research applications. These modifications include the removal of specific amino acids and the addition of a Pro-Gly-Pro sequence at the C-terminal, which contribute to its distinct properties under laboratory investigation. Semax has been studied in preclinical research for its potential involvement in molecular pathways associated with cognitive and neuroprotective processes. Research Profile: Semax has been investigated in preclinical models to explore its interactions with neurological and cellular mechanisms. Research has focused on its potential effects on pathways related to neuroplasticity and cellular homeostasis. - NEUROTROPHIC FACTORS: Studied for its potential influence on brain-derived neurotrophic factor (BDNF) expression, which is associated with synaptic plasticity and neuronal survival in preclinical models. - OXIDATIVE STRESS RESPONSE: Investigated for its potential effects on antioxidant defense systems, including preliminary studies on enzymes such as superoxide dismutase. - CELL SIGNALING PATHWAYS: Explored for its interaction with cyclic adenosine monophosphate (cAMP) signaling, which is involved in intracellular communication and neuroprotective processes. - COGNITIVE FUNCTIONS: Evaluated in research settings for its potential effects on attention, memory, and learning processes through interactions with neurotransmitter systems. - GENE EXPRESSION: Studied in laboratory models for its potential role in the transcriptional regulation of genes associated with cellular repair and adaptation. Key Research Applications: Semax has been utilized in various preclinical research models to investigate its potential mechanisms and effects in controlled laboratory environments. - NEUROPLASTICITY STUDIES: Examined for its potential role in promoting synaptic connections and adaptive changes in neuronal networks. - OXIDATIVE DAMAGE MODELS: Used to study cellular responses to oxidative stress and associated repair pathways. - NEUROTRANSMITTER RESEARCH: Investigated for its potential modulatory effects on dopaminergic and glutamatergic systems in experimental models. - STRESS RESPONSE MODELS: Studied for its interactions with stress-related hormonal and molecular systems in preclinical research. Specifications: Peptide Content: 10mg per vial Appearance: Lyophilized powder Storage & Handling: Store in a cool, dry environment protected from light and moisture. Reconstitution and handling should be performed using standard laboratory procedures and appropriate laboratory controls.