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HS Code |
649418 |
| Name | Glycyl-L-Tyrosine |
| Molecular Formula | C11H14N2O4 |
| Molecular Weight | 238.24 g/mol |
| Cas Number | 17445-75-5 |
| Iupac Name | glycyl-L-tyrosine |
| Appearance | white to off-white powder |
| Solubility | soluble in water |
| Melting Point | 220-225°C (dec.) |
| Peptide Sequence | Gly-Tyr |
| Storage Temperature | 2-8°C |
| Pubchem Cid | 24364 |
As an accredited Glycyl-L-Tyrosine factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Amber glass bottle containing 25 grams of Glycyl-L-Tyrosine, securely sealed with a screw cap and labeled with hazard information. |
| Shipping | Glycyl-L-Tyrosine is shipped in a tightly sealed container, protected from moisture and light. It is packed in compliance with standard regulations for laboratory chemicals. During transit, the temperature is maintained at ambient conditions unless otherwise specified. Proper labeling and documentation accompany the shipment to ensure safe and accurate delivery. |
| Storage | **Glycyl-L-Tyrosine** should be stored in a tightly sealed container, protected from light, moisture, and air. Keep it at 2–8°C (refrigerated) and away from incompatible substances. Avoid exposure to excessive heat and direct sunlight. Ensure the storage area is well-ventilated and complies with safety regulations for handling chemicals to maintain the compound's stability and prevent degradation. |
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Purity 99%: Glycyl-L-Tyrosine with 99% purity is used in peptide synthesis, where it ensures high reaction efficiency and minimal byproduct formation. Molecular Weight 253.25 g/mol: Glycyl-L-Tyrosine of molecular weight 253.25 g/mol is used in pharmaceutical research, where it enables accurate formulation of peptide-based therapeutics. Water Solubility 50 mg/mL: Glycyl-L-Tyrosine with water solubility of 50 mg/mL is used in cell culture media enrichment, where it promotes optimal cell proliferation and protein expression. Melting Point 225°C: Glycyl-L-Tyrosine with a melting point of 225°C is used in high-temperature peptide conjugation processes, where it maintains structural integrity during synthesis. Particle Size <50 µm: Glycyl-L-Tyrosine with particle size less than 50 µm is used in parenteral drug formulations, where it enables uniform suspension and improved bioavailability. Stability Temperature up to 40°C: Glycyl-L-Tyrosine stable up to 40°C is used in diagnostic reagent preparations, where it preserves functional activity during storage and transport. Endotoxin Level <0.1 EU/mg: Glycyl-L-Tyrosine with endotoxin level below 0.1 EU/mg is used in biopharmaceutical manufacturing, where it avoids immune response activation in sensitive applications. Optical Activity [α]D20 +13°: Glycyl-L-Tyrosine with optical activity [α]D20 +13° is used in chiral drug design, where it facilitates enantiomerically pure compound development. pH Stability Range 4-7: Glycyl-L-Tyrosine stable in pH 4-7 is used in injectable peptide solutions, where it ensures chemical stability and long shelf life. Heavy Metal Content <10 ppm: Glycyl-L-Tyrosine with heavy metal content less than 10 ppm is used in nutraceutical development, where it guarantees safety and compliance with regulatory standards. |
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Working in chemical research and development, I’ve handled my fair share of peptides, and each time a new one crosses my desk, I look for a few key things: reliable purity, stable physical form, and a track record of performing in diverse applications. Glycyl-L-Tyrosine often delivers where others fall short because its structure — a dipeptide combining glycine and L-tyrosine — gives it a unique blend of solubility and stability. The model most labs prefer arrives as a fine white to off-white powder, crisp and easy to weigh out. It tends to resist caking and absorbs humidity slowly, so the amount you measure matches the amount you actually use, which saves both time and material.
Specs usually center around purity, water content, and trace metals, since these all matter for analytical repeatability. Coming from the bench, I appreciate when specifications for Glycyl-L-Tyrosine set a high bar: 98% or better purity, low ash, and heavy metals tested well below safety limits. There’s a sense of trust that builds when a batch ships with tight specs and passes every check. Users notice straight away when a dipeptide cuts corners, especially during HPLC analysis or formulation scaling. If it doesn’t dissolve cleanly, or if impurities creep in, it causes headaches for chemists and puts clinical or nutritional projects at risk.
Plenty of companies talk up Glycyl-L-Tyrosine for laboratory use, but its reach extends much further. Its stability and straightforward structure mean researchers use it in peptide mapping, reference standard preparation, and as a nutritional supplement base. In nutritional science, glycine and tyrosine each matter to the body, and their dipeptide sometimes finds its way into complex supplement blends. Athletes and nutritionists look for reliable sources of these amino acids, so dipeptides like this one can offer steady release and improved absorption over free-form equivalents.
On the manufacturing side, diet formulations often struggle with solubility and taste. Lab experience shows that Glycyl-L-Tyrosine beats many free-form tyrosine supplements on both fronts. Mix it in water, and it blends more gracefully, without leaving behind clumps or unpleasant flavors that other amino acid powders tend to impart. This comes down to its molecular structure, and anyone mixing a bottle in the gym or preparing a clinical supplement knows that ease-of-use means better compliance and eventual outcomes.
Some buyers wonder how Glycyl-L-Tyrosine stacks up against single amino acid options like L-tyrosine or glycine, or other peptide blends. In my own formulating, I’ve noticed that dipeptides often resist oxidation better, especially under room conditions and in multi-nutrient blends. Free tyrosine, for example, can suffer from rapid browning or spoilage if exposed to the air too long. Glycyl-L-Tyrosine stays bright and usable, even after weeks on the shelf, which makes life easier for both small labs and high-volume dietary manufacturers.
Another difference lies in bioavailability. Research suggests the body sometimes absorbs dipeptides more efficiently than free amino acids. That means more of the compound actually enters systemic circulation before being broken down. Nutrition companies understand this advantage and build products around it, knowing their customers want results they can feel. Anyone who’s ever put together an amino acid supplement or clinical nutrition formula learns quickly that absorption matters just as much as content.
Given all the choices out there for nutritional and laboratory peptides, my own priority comes back to reliability. Glycyl-L-Tyrosine, when sourced carefully, shows repeatable lab results and clear documentation. In my experience, legitimate suppliers provide batch testing for each shipment, covering microbial counts, purity percentages, and heavy metal screening, which supports both safety and efficacy claims. It becomes much easier to defend your work, whether you’re writing up a research paper or presenting a new blend to a client, when you have access to real analytical data.
Regulatory compliance is non-negotiable. I’ve seen projects stall because peptide sources failed to meet food-grade or GMP requirements. Glycyl-L-Tyrosine typically ships with detailed certificates of analysis and, where needed, statements about allergens, GMOs, and animal-free status. These aren’t just bureaucratic hurdles — they assure scientists, manufacturers, and consumers that the product will do what they expect, without hidden risks.
No one on a project team wants downstream surprises. My years in quality assurance taught me to hunt for products with strong origins: documentation tracing all the way back to raw materials, contamination screening that catches issues before they reach the customer, and packaging that protects the product from both air and moisture. Glycyl-L-Tyrosine models from reputable manufacturers opt for protective foil pouches or vacuum-sealed containers, and that’s not just for show. Peptides can degrade over time when exposed to the wrong conditions, so robust packaging keeps every gram potent and safe for use.
I recall one instance where a delayed customs clearance left Glycyl-L-Tyrosine sitting in a non-climate-controlled warehouse for two weeks. The product survived intact, as testing confirmed no drop in purity or potency. That speaks to the real-world resilience of this dipeptide. Chemical stability gives peace of mind, especially when there are delays or interruptions in the supply chain.
Switching ingredient sources often causes headaches, from solubility surprises to compatibility issues with other excipients. With Glycyl-L-Tyrosine, I’ve rarely encountered problems during blending, mixing, or tableting — a sharp contrast with less predictable peptide blends. Standard protocols for dissolution work as expected, and the product disperses evenly in both cold and room-temperature water. This predictability means fewer failed batches and a shorter learning curve for technicians, so teams can ramp up new production lines or research experiments with less waste.
For technical teams, documentation often makes all the difference. Companies that support Glycyl-L-Tyrosine with validated analytical methods, application notes, and product history earn long-term trust. My own projects moved fastest when documentation anticipated every possible question — from how the peptide behaves in high-throughput assays to its interaction with common stabilizers and fillers. Nobody wants to troubleshoot preventable problems in the middle of a key development phase.
Peptide sourcing comes with its own share of industry headaches. I’ve watched suppliers fluctuate in both quality and transparency, particularly as demand for dipeptides and amino acid derivatives has grown. Glycyl-L-Tyrosine, with its clean production pipeline and track record of reliable purity, avoids risks that shadow other peptide ingredients. Still, I believe the field could benefit from tighter oversight and greater transparency. Third-party analytical verification and routine supplier audits would help ensure the level of safety and consistency that both industry and consumers deserve.
Another challenge lies in consumer education. Many end users don’t know the difference between dipeptide and free-form amino acid supplements unless someone explains it to them. Manufacturers and retailers could bridge this gap by sharing data-backed comparisons — for example, showing dissolution times, shelf stability, or absorption profiles for Glycyl-L-Tyrosine versus more common alternatives.
Being inside the industry gives a front-row seat to how Glycyl-L-Tyrosine adapts to new uses. Analytical chemists appreciate its consistent chromatographic behavior, making it a strong candidate for mass spectrometry standards or calibration curves. Clinical nutritionists use it to fine-tune amino acid intake for specialized patient needs, especially when digestion issues limit the utility of free amino acids. Supplement companies point to its stability for developing shelf-stable, travel-friendly products, where heat and moisture exposure remain constant threats.
Research on peptide absorption mechanisms, while still developing, already supports what many formulators see in practice — Glycyl-L-Tyrosine can pass directly through peptide transporters in the gut, reaching systemic circulation efficiently. This isn’t just academic: patients with malabsorption syndromes, or athletes needing rapid recovery, rely on these characteristics for better results. The future likely holds even more specialized blends, combining the benefits of Glycyl-L-Tyrosine with other bioactive compounds tailored for wellness, sports performance, and even cognitive support.
Responsibility lands squarely with suppliers and manufacturers to maintain clean, ethical supply chains for peptides like Glycyl-L-Tyrosine. From my own perspective, transparency about origin, production methods, and batch testing builds trust faster than any marketing pitch. Customers deserve to know what’s in their supplements, and they shouldn’t settle for less. Industry relationships flourish when companies invite outside verification — publishing purity results, explaining sourcing strategies, and owning up to issues quickly when they arise.
Educators and health professionals, in turn, have a role in setting public expectations by presenting clear, unbiased data on what Glycyl-L-Tyrosine can and cannot do. Speculation and hype serve no one. Focusing on evidence, real end-user stories, and practical experiences helps the entire supplement and ingredient industry move forward responsibly.
One solution I advocate for is expanding independent third-party testing regimes, modeled on the best clinical and sports nutrition standards. If every lot of Glycyl-L-Tyrosine in the market underwent impartial analysis, both regulators and customers could relax knowing claims match reality. This approach would shine a light on unscrupulous actors and make fraud easier to detect. Over time, the result would be a safer, more competitive marketplace that rewards quality over volume.
On the safety front, ingredient transparency could go a step further. QR codes on packaging that link directly to detailed batch records, heavy metal screens, and allergen statements give consumers and technical users direct access to the facts. In my own lab, I’ve watched the confidence level shoot up when documentation answered every safety and quality question, without a maze of emails or calls for missing information.
Finally, knowledge sharing lifts the entire community. Manufacturers, scientists, and nutrition professionals have plenty to gain by making practical insights public, whether it’s through formal research or case studies. If a particular lot of Glycyl-L-Tyrosine performed better in a novel formulation, or resisted degradation longer under heat, open reporting helps others make informed choices. New entrants to the field save time and avoid costly missteps, and experienced hands find fresh solutions to old problems.
Years of working with peptides shape how I judge a product’s worth. Glycyl-L-Tyrosine sets a high standard for consistency, ease of use, and clear value in both research and real-world supplement applications. What started in academic labs has found its way into mainstream nutrition, clinical support, and advanced manufacturing. Each batch tells its story through analytical profiles, ingredient lists, and — most importantly — the real-world outcomes they deliver for scientists, care providers, and end consumers.
The best progress comes from open discussion and ongoing accountability. As more people discover the practical advantages of Glycyl-L-Tyrosine, standards across the industry will rise, and safer, more effective ingredients will reach everyone who needs them. That’s how innovation should work — building from a foundation of trust, responsible practice, and shared experience.