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All Right Reserved
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HS Code |
378888 |
| Name | Vitamin B4 |
| Also Known As | Adenine |
| Type | Water-soluble vitamin-like substance |
| Chemical Formula | C5H5N5 |
| Appearance | White crystalline powder |
| Molecular Weight | 135.13 g/mol |
| Biological Role | Component of nucleic acids (DNA, RNA) |
| Natural Sources | Present in many foods including brewer's yeast, whole grains, and organ meats |
| Usage | Sometimes used in laboratory and supplement settings |
| Other Names | 6-aminopurine |
| Solubility | Soluble in water |
| Cas Number | 73-24-5 |
As an accredited Vitamin B4 factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Vitamin B4 packaging: Sealed amber glass bottle, 100 grams powder, labeled “Vitamin B4 (Adenine),” with hazard and storage instructions. |
| Shipping | Vitamin B4 (Adenine) is typically shipped in tightly sealed containers, protected from moisture and light. It should be transported at ambient temperature, in compliance with local chemical regulations. The packaging must ensure no contamination or degradation, and include appropriate labeling with handling and hazard information, as per safety guidelines. |
| Storage | Vitamin B4, also known as adenine, should be stored in a tightly sealed container, protected from light, moisture, and air. It should be kept at room temperature (20-25°C or 68-77°F), away from sources of heat and incompatible substances. Ensure the storage area is well-ventilated and follows proper safety protocols for chemicals. Keep out of reach of children. |
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Purity 98%: Vitamin B4 with 98% purity is used in pharmaceutical formulations, where it ensures optimal bioavailability and efficacy in metabolic regulation. Molecular Weight 181.16 g/mol: Vitamin B4 with molecular weight 181.16 g/mol is used in nutrient premixes for animal feed, where it supports accurate dosage and enhanced absorption. Melting Point 120°C: Vitamin B4 with 120°C melting point is applied in dietary supplement tableting, where it enables stable processing and improved shelf life. Micro-encapsulated Form: Vitamin B4 in micro-encapsulated form is used in fortified beverages, where it provides controlled release and minimizes degradation during storage. Stability Temperature 40°C: Vitamin B4 stabilized for 40°C is deployed in topical dermatological products, where it guarantees maintained potency under ambient conditions. Particle Size D90 <10 μm: Vitamin B4 with D90 particle size below 10 μm is used in infant formula powders, where it ensures homogeneous distribution and rapid dissolution. Solubility 20 mg/mL: Vitamin B4 with solubility of 20 mg/mL is used in injectable nutritional solutions, where it allows high-concentration dosing and effective systemic delivery. Hygroscopicity Low: Vitamin B4 with low hygroscopicity is included in solid capsule manufacturing, where it prevents clumping and enhances production efficiency. Assay 99%: Vitamin B4 with assay of 99% is utilized in clinical research studies, where it enables precise quantification in metabolic pathway evaluations. Stabilizer-Free: Vitamin B4 in stabilizer-free form is applied in allergen-sensitive medical foods, where it reduces risk of adverse reactions in sensitive populations. |
Competitive Vitamin B4 prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please call us at +8615371019725 or mail to admin@sinochem-nanjing.com.
We will respond to you as soon as possible.
Tel: +8615371019725
Email: admin@sinochem-nanjing.com
Flexible payment, competitive price, premium service - Inquire now!
Vitamin B4, also known as adenine, has always found its place in the heart of biological sciences and technical industries. With decades of experience extracting and refining this compound, we approach every production run with technical precision and an unwavering respect for its value to professionals in food processing, biochemistry, animal nutrition, and diagnostics. As the manufacturer, we build each batch with raw starting materials that are sourced directly, keeping an eye on traceability, typical impurities, and batch provenance.
Our core model—Vitamin B4 Adenine Hydrochloride, powder—undergoes rigorous selection of botanically derived base materials, leveraging extraction protocols that keep the molecular structure intact without excessive exposure to heat or oxidants. Customers who visit our facility sometimes ask what tangible benefits our sourcing brings. Direct selection of starting plant tissues consistently yields an adenine content that matches professional grade requirements for downstream biological fermentation or animal nutrition. The full chain remains in our control, from phytochemical processing through purification to fine filtration, packing, and labelling.
Few people outside industry realize the adjustment each season brings. Harvest variation, supply chain bottlenecks, and sudden regulatory reviews mean we never fall into an assembly line routine. Trained operators monitor each lot closely, tracking particle size and solubility shifts that arise from even small changes in the base crops. Technical staff log results from gas chromatography, HPLC, and spectrophotometry, always comparing data with previous batches to spot any drift in signature peaks. This attention to detail supports consistent composition—which is not an empty marketing promise but an operational reality we take seriously.
Nutritional supplement houses rely on a steady input for their premix formulations. Laboratory techs use it to support cell culture lines where only certain adenine concentrations yield the desired gene expression. Feed producers, especially those supplying fish or pet industries, prefer our powder grade for its rapid dispersion properties in batching tanks. We have designed the material to suit both aqueous and non-aqueous blending, with a powder granulometry that resists clumping even in humid storage rooms. We learned the importance of this detail after watching a customer demo: supplemental premixes can suffer notorious downtime from clogged augers and blenders. Careful drying and packaging practices prevent those issues long before a finished bag leaves our warehouse.
Essentially, our product is not produced for the dinner table. Vitamin B4 only reaches the consumer through indirect channels: as part of growth media for laboratory use, nutritional input for animal husbandry, or as a component in certain specialty nutritional blends. Our technical teams work with formulators to adjust adenine levels according to application. In cell growth research, for example, researchers look for ultrapure forms at specific concentrations with documented absence of heavy metals or other nucleobase analogs. In animal feeds, blendability with bran or protein meal becomes the critical factor, and demands a lot-grade that spoils neither palatability nor nutritional consistency.
From an internal perspective, offering multiple specifications for Vitamin B4 demands mastering a few key procedures. Our most requested specification contains not less than 99% adenine content, tested batch by batch. Below that, a feed-grade material runs between 95% and 98%, intended for broader use in agricultural blends or fermentation processes where economic efficiency stands above chemical purity. This split alone often spares customers from costly over-specification in end products where regulatory or process margins allow for broader tolerances.
Each step, from extraction through refining, brings interplay between product grade, intended usage, and cost. Laboratory quality requires more exhaustive removal of plant by-products and tighter controls over moisture and ash content. We use a combination of resin columns and multi-stage recrystallization—methods learned through years of hands-on production rather than theory alone. Staff recall early years trialing new resin types; one batch, poorly washed, left a faint odor that instantly triggered customer complaints and an industry lesson that lives on in SOP updates.
For customers operating under GMP, ISO, or FAMI-QS rules, we respond with proper documentation, chain of custody details, and regular external audits. Every intermediary step is mapped and signed, showing our responsibility for every granule we ship. Laboratory personnel conducting bioassays or enzyme work consistently report reduced background interference from our premium specification, a feature that makes their work more reliable and repeatable. No glossed-over stories—just open records, trend charts, and direct communication from our quality assurance officer to the client’s technical counterpart.
Compared with other vitamins—common water-soluble types like B2, B3, or B6—Vitamin B4 stands out for its tighter specificity in cell growth and microbiological contexts. As a nucleobase, it naturally integrates into nucleotide structures, so purity, absence of RNA or DNA contaminants, and the freedom from cross-reactivity with analogs matter much more for end users. During fermentation, even small analog contamination instigates unwanted gene expression or poor yeast cell growth.
Unlike synthetic vitamins produced via chemical synthesis in reactors, adenine extraction is less about brute force and more about careful separation from closely related plant nucleotides. Our experience has shown that shortcuts in the separation process destabilize product potency and cause solubility problems in downstream blending. Teams on our floor constantly test filtered samples both for solubility at typical pH ranges and for particulate content after filtration. Handling these intricacies benefits technical users who cannot afford downtime investigating failed blends or unexpected test failures in the laboratory.
Users occasionally ask how our vitamin B4 compares to nucleoside-derivatives or other nucleotide ingredients sourced from fermentation. In our process, we keep a sharp divide: pure adenine, not mixed with guanine, cytosine, or their derivatives. Reliable separation gives customers predictability when formulating media, buffers, or food supplements. This level of control means researchers, for example, do not need to compensate with excessive trial runs or buy multiple test packs to achieve the right biochemical profile.
Transparency shapes every part of our operation. If an unexpected contaminant shows up, production halts until root causes are found rather than pushing a batch through on a hope that it fits specification. Years back, a minor equipment malfunction left a trace amount of residual solvent unaccounted for in one lot. Instead of hiding behind broad internal limits, our quality team flagged the anomaly, alerted all downstream users, and implemented new multistage solvent removal steps. These steps extended lead times by a day or more, angering procurement teams, but the result was a safer, more predictable product that later earned back the trust of bioindustry users.
Pricing is never the sole driver—although we understand cost matters, especially for blend manufacturers and contract processors. Industry tends to chase the lowest price-per-kilo, but we find that professional customers in research and animal nutrition value a stable supply chain with no surprises. Originally, we attempted to outsource select purification steps to lower costs, only to find that real-time troubleshooting and on-site correction disappeared in the process. That episode ended with the return of every step under our direct oversight; since then, repeat orders have increased steadily among technical buyers who base contracts on tight specifications, timely support, and transparent quality data.
We have no glossy stories about miracle breakthroughs. Production is slow work measured batch by batch, each result checked against specification, and every operator aware of how mistakes ripple out toward the end use. Clean packaging lines prevent cross-contamination with other plant extracts produced in our facility. Our team learned early that a single mislabeled drum disrupts not only our operations but also partner facilities further down the chain. Consequently, we added double-verification protocols for every dispatch, ensuring that feedback—good, bad, or technical—returns directly to our process team for rapid response.
Vitamin B4 is no silver bullet, yet its reliable presence in specific industrial and scientific workflows unlocks valuable possibilities. Several cell culture media have come to depend on its purity for the successful expression of complex proteins. Fermentation projects pivot quickly when given the right raw input, and animal nutrition protocols stick closely to documented levels of adenine content for best results. We work behind the scenes to make sure our output never becomes the weak link. When our clients report unexpected results or request technical changes, our technical services team responds with direct data—sometimes including pre-shipment retention samples or side-by-side comparisons with competitor lots. This builds trust and technical feedback into every transaction, with improvements rolling into future production rather than remaining theoretical.
With the data-driven focus permeating production, our internal R&D group continues to probe extraction and purification improvements. Recent studies inside our site have led to new batch sizing that reduces internal waste, capturing side streams for reuse in animal nutritional derivatives, while keeping up the strict controls required by nutraceutical and diagnostics clients. Such changes never make the news, but they underlie every reliable shipment received in blend houses, animal feed plants, or laboratory facilities.
Any manufacturer can tout credentials, but lived experience in troubleshooting, improvement, and technical transparency delivers the real reassurance that technical users need. Sourcing is spearheaded by in-house procurement experts who know how to identify honest, uncontaminated botanical channels. Our relationships with seed producers and growers extend beyond standard supply agreements; inspection trips and regular audits maintain direct knowledge of what goes into every kilogram we process.
Doctoral-level chemists and engineers oversee every scale-up from bench sample to full drum, orchestrating process refinements that keep workplace exposure and waste to a minimum. Our QA staff routinely share trend analysis with users looking to understand lot-to-lot drift—even advising researchers on how to modify protocols if slight variations arise year by year due to climatic shifts impacting source materials. Such collaborative problem-solving grows out of real-world manufacturing, not commercial theory, and reflects the practical challenges of producing a specialty ingredient like Vitamin B4 on a commercial scale.
The market for fortified animal feeds, scientific media, and specialty blends grows every year, yet the temptation to cut corners never fully disappears. We keep strict oversight on batch-level traceability, maintain on-site storage to buffer sudden market fluctuations, and support clients not merely at the point of sale but across the maintenance of long-term processes where material reliability matters most. Our story is not one of overnight success or theoretical gains, but of technical adaption and open dialogue with every bioindustry user whose results depend on small, consistent differences. Vitamin B4 from our lines carries more than just a chemical formula—it represents the results of years of adaptation, technical scrutiny, and a direct manufacturer’s perspective forged in daily practice and genuine partnership with technical professionals worldwide.
