$44.00
Growth Factor-1 (IGF-1)
Contents: 2mg of PEG-MGF
Form: Lyophilized Powder
Purity: ≥ 99% USA Tested, Verified Purity (HPLC Tested)
Verification: Verifiable COA’s (Batch-Matched)
Emerging Research Evidence:
PEG-MGF is studied in laboratory models to investigate the pathways of structural resilience and signaling persistence. This pegylated analog allows researchers to observe how cells coordinate IGF-related signaling and maintain architectural stability within a controlled environment. The focus remains on gathering data regarding biological agility and signal timing, providing a technical framework for understanding how extended molecular stability supports pathway coordination and systemic harmony at a cellular level.
Keep product in cool, dark place.
Sold for Research Use Only / Not FDA Regulated
Batch-verified inventory. See 3rd Party COA.
In stock
PEG-MGF is a specialized synthetic analog utilized in laboratory models to study structural resilience and extended signaling persistence. By incorporating a pegylated framework, this peptide allows researchers to observe how molecules maintain enhanced molecular stability and coordinate cellular communication over broadened observation windows. Investigators use this tool to track growth-factor pathways and the maintenance of the cellular framework within a controlled environment.
Researchers employ PEG-MGF to analyze how pegylated structural integrity influences the timing of intracellular communication and pathway modulation. By mapping these IGF-associated signaling cascades, investigators gather technical data on how cells manage architectural coordination and maintain biological agility at a molecular level.
Current studies focus on exploring the mechanisms of signal endurance and structural behavior. This vial provides a robust technical framework for investigating the resilient signaling networks that support system integrity, offering a deeper look at molecular persistence without focusing on tissue repair or physical recovery outcomes.
CAS Number: 108174-48-7
Molecular Formula (peptide portion): C₁₂₁H₂₀₀N₄₂O₃₉
(Sequence and terminus variants may be referenced in different research catalogs)
Molecular Weight:
Peptide portion ~2.9 kDa (varies by sequence); pegylation increases total molecular mass depending on PEG size.
Parent Compound:
IGF-1 (Insulin-Like Growth Factor-1), MGF splice variant (E-domain–derived sequence).
Monoisotopic Mass (peptide portion): ~2865.5 Da
(Pegylation increases mass accordingly)
PEG-MGF is utilized in pre-clinical research models across the following areas:
Growth-Factor Signaling Pathway Research
Investigating IGF-associated receptor engagement, downstream signaling cascades, and pathway coordination.
Protein Interaction & Pathway Modulation Studies
Studying molecular interactions and signaling behavior of growth-factor–derived peptide fragments.
Signal Persistence & Molecular Stability Analysis
Examining the effects of pegylation on signaling duration, pathway engagement, and biomarker modulation.
Cellular Signaling & Biomarker Response Models
Researching intracellular signaling responses and pathway activity in controlled experimental environments.
IGF-Related Pathway Mapping
Evaluating growth-factor signaling network organization without physiological, performance, or therapeutic framing.
PEG-MGF is a specialized research analyte used to explore the pathways of structural resilience and signaling persistence. In laboratory settings, this pegylated analog allows researchers to observe how molecular interactions coordinate growth-factor signaling and maintain cellular framework stability over broadened observation windows. These exploratory studies focus on mapping the timing of intracellular communication and how peptide signals support biological agility at the cellular level, providing technical data on signaling behavior without any focus on therapeutic, performance, or recovery results.
PEG-MGF is intended for laboratory research use only. Not for human or veterinary consumption. Not approved by the FDA for therapeutic or diagnostic use. All referenced studies are pre-clinical and exploratory.
For Research Use Only — Not for Human or Veterinary Use. Not evaluated or approved by the FDA. Not intended to diagnose, treat, cure, or prevent any disease. All information on this website is provided strictly for laboratory research and educational purposes. Nothing herein constitutes medical, clinical, or legal advice, nor an endorsement of non-laboratory use. Any discussion of specific peptides or potential research findings is informational only and must not be interpreted as guidance for use in or on humans or animals.
