|
HS Code |
468708 |
| Cas Number | 3895-92-9 |
| Molecular Formula | C21H18ClNO4 |
| Molecular Weight | 383.83 g/mol |
| Appearance | Yellow powder |
| Solubility | Soluble in DMSO, ethanol, methanol, water |
| Purity | ≥98% (HPLC) |
| Storage Temperature | -20°C |
| Melting Point | 285-287°C |
| Iupac Name | 1,2-Dimethoxy-12-methyl[1,3]benzodioxolo[5,6-c]phenanthridin-13-ium chloride |
| Synonyms | Chelerythrine chloride; Chelerythrine monohydrochloride |
| Light Sensitivity | Protect from light |
| Shelf Life | 2 years if stored properly |
As an accredited Chelerythrine Hydrochloride factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Chelerythrine Hydrochloride (10 mg) is packaged in a clear, sealed glass vial with a secure cap, labeled for laboratory use. |
| Shipping | Chelerythrine Hydrochloride is shipped in tightly sealed, chemically resistant containers to prevent moisture and light exposure. The package is appropriately labeled as a hazardous chemical and handled by certified carriers. Temperature control is maintained as required, and all shipments comply with international transportation regulations for laboratory and research chemicals. |
| Storage | Chelerythrine Hydrochloride should be stored in a tightly sealed container, protected from light and moisture, at a temperature between 2-8°C (refrigerated). It should be kept away from incompatible substances and sources of ignition. Proper storage ensures stability and prevents degradation. Always handle the compound in a well-ventilated area, using appropriate protective equipment. |
Competitive Chelerythrine Hydrochloride prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please contact us at +8615365186327 or mail to sales3@ascent-chem.com.
We will respond to you as soon as possible.
Tel: +8615365186327
Email: sales3@ascent-chem.com
Flexible payment, competitive price, premium service - Inquire now!
As a chemical manufacturer with years of hands-on experience, it's clear to us that chelerythrine hydrochloride stands out for a reason. Researchers search for reliable tools to dissect molecular pathways and manipulate cellular responses. This product captures wide interest thanks to its ability to act as a robust, selective inhibitor of protein kinase C. The compound's role in unraveling signal transduction and cellular behavior has grown with the surge of studies in cancer biology, cardiovascular disease, and neuropharmacology.
There's an ongoing push in the lab to find consistent, well-characterized compounds that yield the same results batch after batch. From the chemist's perspective, chelerythrine hydrochloride, as an alkaloid derived from natural Chelidonium plants, consistently delivers. Produced in modern facilities, each crystal is monitored for high purity, typically above 98 percent by HPLC, ensuring minimal batch deviation. Scientists depend on this standardization, since unexplained variables can derail months of effort. Reproducibility begins at raw materials and production stages—controlling moisture, limiting minor impurities, and maintaining a rigorous approach from synthesis to packaging.
Through our years manufacturing chelerythrine hydrochloride, we’ve refined the process to offer a crystalline powder with a distinctive yellow tint. Standard sizing ranges from small, researcher-friendly 10-milligram vials up to larger, project-scale packages. Each lot includes a verified Certificate of Analysis, reflecting routine screening for contaminants, heavy metals, and residual solvents—critical requirements for any high-pressure life science environment.
Not all research-grade reagents are created equal. Inconsistent particle size, background absorbance, and variable stability can throw off sensitive assays. Ours dissolves cleanly in aqueous and organic solvents, aiding researchers in preparing stock solutions with accurate dosing and reliable repeat performance. Accurate solubility data ensures smooth experimental planning, eliminating the need to troubleshoot at the bench every step of the way.
Research isn’t just about pouring chemicals together and watching what bubbles up. Investigators strive to dissect complex signaling webs to track how cells communicate, divide, or self-destruct. Chelerythrine hydrochloride enables these discoveries by selectively blocking protein kinase C. This enzyme governs a range of cellular events—growth, differentiation, apoptosis. In the hands of molecular biologists and pharmacologists, chelerythrine helps map these events and gauge the subtle interplay between signal and outcome.
Chemically, chelerythrine and its hydrochloride salt offer logistical advantages. The hydrochloride form stabilizes the molecule, granting it a longer shelf life and reducing the risk of degradation during storage and shipping. From our perspective in production, adopting the hydrochloride form means fewer headaches at every link in the supply chain. Consistent product stability translates directly to researcher confidence.
Some laboratories turn to broad-spectrum kinase inhibitors or develop custom derivatives for special projects. While broad-spectrum agents cast a wide net, they bring background noise and unpredictable off-target effects. Chelerythrine hydrochloride, by contrast, focuses precision intervention on protein kinase C. Published research demonstrates its selectivity, and in our own quality checks, we monitor that expected specificity holds batch to batch.
We’ve heard from customers struggling with other inhibitors that degrade rapidly or produce inconsistent biological responses. Our production line for chelerythrine hydrochloride employs a purification process using high-grade solvents and temperature controls, which trims away labile side products. This kind of consistency is hard-won and cannot be claimed by all suppliers. Our approach gives researchers the confidence to trust their results, avoiding doubts that arise from off-target activity or product breakdown.
Chelerythrine hydrochloride has built a solid reputation across university labs, pharmaceutical screening units, and contract research organizations. Teams exploring new pathways in oncology, vascular biology, and neurodegeneration return to this molecule, often reporting increased clarity and reproducibility in their experimental models. Its impact extends from cell culture to animal studies, bridging in vitro insights with in vivo exploration.
We prioritize feedback from researchers at the bench, incorporating suggestions into our production workflow. For instance, we've adopted glass vials with inert linings to minimize adsorption during transport and storage—an issue that can lead to unpredictable drop in working concentrations with sensitive compounds. We also switched to laser-etched labeling, after feedback on ink smudging from low-temp storage. These may sound like small things, but they help researchers avoid preventable errors.
One of the ongoing issues in the specialty chemicals market revolves around supply consistency. Several years ago, a supply-chain disruption led to batch shortages across the industry. We responded by establishing redundant sourcing for raw plant alkaloids, and by investing in additional purification infrastructure, to maintain inventory and meet sudden spikes in demand. Research hinges on access to reliable tools, and an interruption can halt months of progress.
In our direct interaction with pharmaceutical partners, we see the rising concern about contaminants and the need for thorough lot traceability. Laboratories working under strict GLP or cGMP conditions cannot accept materials with even the faintest doubt about trace origins. We built our documentation system to track each batch from source isolation through the final packaging step. Transparency isn’t about bureaucracy—it’s about letting scientists focus on discovery instead of worrying about what’s in the vial.
Biological research never stands still. Over the past decade, renewed interest has surged in protein kinase pathways, particularly in the context of therapies targeting cancer, inflammation, and neuroprotection. Chelerythrine hydrochloride remains a staple for both classical PKC studies and newer models that probe crosstalk between multiple kinases. Its use in apoptosis research, especially in determining cell survival under stress conditions, has sparked new insight into therapeutic response and resistance.
Several collaborators draw on our chelerythrine hydrochloride when evaluating small-molecule screening platforms, frequently citing the clarity it brings to positive and negative control groups. Graduate students and senior scientists alike have highlighted reduced background, as well as the lack of interference seen with some older, less-pure compounds. This isn’t just flattery—it reflects our ongoing partnership with the researchers who rely on our attention to production details.
The scientific community’s commitment to reproducibility demands more than lip service. In-house testing reveals batch consistency in optical absorbance and biological activity, eliminating those unwelcome surprises that send researchers back to square one. This level of rigor is part and parcel of our manufacturing approach, not an afterthought tacked on in response to a crisis.
Open science efforts count on the ability to source documented, high-purity reagents that perform predictably, so published data can be cross-checked and expanded. As a manufacturer, we support these initiatives by making full batch characterization data available, down to specific lot chromatograms and mass spectra. Not every supplier is willing to provide this level of transparency. For the academic community, these facts often bridge the gap between a promising lead and a validated mechanism.
Manufacturing biologically active alkaloids demands an ongoing focus on worker safety and environmental impact. Our team adheres to rigorous containment protocols, including specialized airflow controls and personal protective equipment, limiting the chance that even trace quantities escape into the broader environment. By optimizing reaction steps and purification methods, we minimize waste and reduce the volume of hazardous byproducts for processing.
While efficacy captures headlines, safety shapes the industry’s future. Early mishandling of chelerythrine hydrochloride—such as incomplete neutralization during disposal—has prompted our sector to engage more closely with end-users. We offer guidance for safe handling and disposal, drawing on real-world cases from our facility’s daily operations. It goes beyond routine checklists: a genuine partnership with customers means trading experience and keeping safety at the center.
Where basic science met applied therapeutics, chelerythrine hydrochloride emerged as a case study. Originally a tool for dissecting PKC pathways, today it helps characterize drug response, tissue remodeling, and neuroplasticity. Researchers in translational medicine have adopted this molecule as part of early assessment pipelines, pinpointing cellular mechanisms before scaling to preclinical or clinical models.
Development teams often consult us about customizing packaging or concentration ranges to align with their specific applications. We see first-hand that protocol-driven research sometimes requires nonstandard configurations. Meeting those needs supports researchers’ goals rapidly, so projects stay on track. These cooperative relationships often translate into longer product cycles and more meaningful discoveries.
It’s no secret that supply of specialty alkaloids involves technical hurdles. Every batch of chelerythrine hydrochloride undergoes not only HPLC purity testing but also in-depth analysis for structural confirmation, matching NMR data and comparing with authenticated standards. Product traceability forms the backbone of our operation. Mistakes in this business don’t only mean financial loss—they risk lost opportunity and scientist morale.
Routine audits and quality reviews foster a culture of accuracy. We train staff not just to follow processes but to understand what’s at stake for our customers. This sense of responsibility underpins each production step, making sure the product reaching researchers doesn’t introduce unwanted variables. Any deviation, even with an outlier impurity, sparks internal review and, if needed, a customer notification—preempting bigger trouble down the line.
The science community has no shortage of kinase inhibitors or cellular probes. What consistently sets chelerythrine hydrochloride apart is its dual commitment to biological activity and chemical integrity. Many alternatives try to blanket a broad range of kinases, often at the cost of losing precision. Chelerythrine’s targeting of protein kinase C provides a distinct advantage for those studying pathways without unwanted off-target effects.
We’ve dedicated resources to maintaining low heavy metal content, controlled residual solvent levels, and packaging engineered for stability under diverse climates. Some would say that any high-purity alkaloid could fit the bill, but our long-term users spot differences in performance after real-world storage or shipping adventures. It’s not just about an impressive certificate on a webpage—it’s about whether that purity and activity persevere from first arrival to final experiment.
Continued investment in synthesis optimization, documentation, and supply logistics keeps us ahead of shifting market and regulatory expectations. As more researchers aim for clinical translation, the scrutiny on source, reproducibility, and safety sharpens. We keep an open line with scientific partners, sharing best practices on both product application and safe, compliant disposal. Feedback becomes the foundation for the next round of process improvements.
In-house teams across production, analytical chemistry, and logistics meet regularly to review trends, anticipate shipment bottlenecks, and implement small tweaks that reveal themselves as valuable over time. Whether it’s ensuring tighter batch release metrics or adjusting crystallization parameters for a cleaner product, the goal is straightforward—support the research community with a dependable, proven tool in chelerythrine hydrochloride.
We recognize the pressures facing modern research: rising costs, shrinking timelines, new compliance requirements. Meeting those challenges takes more than a good product. It demands open communication, flexibility in supporting custom needs, and a willingness to respond transparently to tough questions about sourcing, traceability, and environmental stewardship. The relationship with our users is a daily reality, not a slogan.
As the boundaries between academic and industrial research blur, our role shifts to that of an ongoing partner. We share lessons learned from years on the manufacturing floor: close coordination across the value chain, careful monitoring of emerging contaminants, and honest dialogue about risks and opportunities. Every bottle of chelerythrine hydrochloride we ship reflects that commitment—not just to science, but to the scientists counting on reliable results.
Chelerythrine hydrochloride’s story is still being written. Research fronts are advancing at breakneck speed, and we see new application fields opening every year. Our production and quality teams stay ready to adapt, learning from each unexpected use case or fresh demand for customization. As a manufacturer, the greatest satisfaction lies in seeing this carefully crafted tool spark insight, deepen understanding, and drive scientific progress.
By investing in both the technical and relationship aspects of production, we help put chelerythrine hydrochloride—and the scientists behind it—in a stronger position to answer tomorrow’s toughest questions.
