Advantages of NMNH
NMNH: 1. “Bonzyme” Whole-enzymatic method, environmental-friendly, no harmful solvent residues manufacturing powder. 2. Bontac is a very first manufacture in the world to produce the NMNH powder on the level of high purity, stability. 3. Exclusive “Bonpure” seven-step purification technology, high purity(up to 99%) and stability of production of NMNH powder 4. Self-owned factories and obtained a number of international certifications to ensure high quality and stable supply of products of NMNH powder 5. Provide one-stop product solution customization service
Advantages of NADH
NADH: 1. Bonzyme whole-enzymatic method, environmental-friendly, no harmful solvent residues 2. Exclusive Bonpure seven-step purification technology, purity up higher than 98 % 3. Special patented process crystal form, higher stability 4. Obtained a number of international certifications to ensure high quality 5. 8 domestic and foreign NADH patents, leading the industry 6. Provide one-stop product solution customization service
Advantages of NAD
NAD: 1. “Bonzyme” Whole-enzymatic method, environmental-friendly, no harmful solvent residues 2. Stable supplier of 1000+ enterprises around the world 3. Unique “Bonpure” seven-step purification technology, higher product content and higher conversion rate 4. Freeze drying technology to ensure stable product quality 5. Unique crystal technology, higher product solubility 6. Self-owned factories and obtained a number of international certifications to ensure high quality and stable supply of products
Advantages of MNM
NMN: 1. “Bonzyme”Whole-enzymatic method, environmental-friendly, no harmful solvent residues 2. Exclusive“Bonpure”seven-step purification technology, high purity(up to 99.9%) and stability 3. Industrial leading technology: 15 domestic and international NMN patents 4. Self-owned factories and obtained a number of international certifications to ensure high quality and stable supply of products 5. Multiple in vivo studies show that Bontac NMN is safe and effective 6. Provide one-stop product solution customization service 7. NMN raw material supplier of famous David Sinclair team of Harvard University
We Have The Best Solutions for Your Business
Bontac Bio-Engineering (Shenzhen) Co., Ltd. (hereafter referred to as BONTAC) is a high-tech enterprise established in July 2012. BONTAC integrates R&D, production and sales, with enzyme catalysis technology as the core and coenzyme and natural products as main products. There are six major series of products in BONTAC, involving coenzymes, natural products, sugar substitutes, cosmetics, dietary supplements and medical intermediates.
As the leader of the global NMN industry, BONTAC has the first whole-enzyme catalysis technology in China. Our coenzyme products are widely used in health industry, medical & beauty, green agriculture, biomedicine and other fields. BONTAC adheres to independent innovation, with more than 170 invention patents. Different from the traditional chemical synthesis and fermentation industry, BONTAC has advantages of green low-carbon and high-value-added biosynthesis technology. What’s more, BONTAC has established the first coenzyme engineering technology research center at the provincial level in China which also is the sole in Guangdong Province.
In the future, BONTAC will focus on its advantages of green, low-carbon and high-value-added biosynthesis technology, and build ecological relationship with academia as well as upstream/downstream partners, continuously leading the synthetic biological industry and creating a better life for human beings.
NAD powder efficacy in health
Molecules that can be taken in supplement form to increase NAD levels in the body are referred to by some as “NAD boosters.” Studies conducted over the past six decades suggest that the following are some of the many benefits associated with taking an NAD supplement:
Can Help Restore Mitochondrial Function
Helps Repair Blood Vessels —A 2018 mice study found that supplementation could aid in repair and growth of aged blood vessels. There’s also some evidence it can help manage heart disease risk factors like high blood pressure and high cholesterol.
May Improve Muscle Function — One animal study conducted in 2016 found that degenerative muscles had improved muscle function when supplemented with NAD+ precursors.
Potentially Helps Repair Cells and Damaged DNA — Some studies have found evidence that NAD+ precursor supplementation leads to an increase in DNA damage repair. NAD+ is broken down into two component parts, nicotinamide and ADP-ribose, which combine with proteins to repair cells.
May Help Improve Cognitive Function — Several studies conducted on mice have found that mice treated with NAD+ precursors experienced improvements in cognitive function, learning and memory. Findings have led researchers to believe that NAD supplement may help protect against cognitive decline/Alzheimer’s disease.
May Help Prevent Age-Related Weight Gain — A 2012 study showed that when mice fed a high-fat diet were given an NAD supplement, they gained 60 percent less weight than they did on the same diets without the supplement. One reason this may be true is that nicotinamide adenine dinucleotide helps regulate production of stress- and appetite-related hormones, thanks to its effects on circadian rhythms.
Precursors are molecules used in chemical reactions inside the body to create other compounds. There are a number of precursors of NAD+ that result in higher levels when you consume enough of them.
BONTAC NAD product features and advantages
1、Enzymatic method, environmental-friendly, no harmful solvent residues manufacturing powder
2、High purity(up to 99%) and stability of production of NAD powder
3、Self-owned factories and obtained a number of international certifications to ensure high quality and stable supply of products of NAD powder
4、Multiple in vivo studies show that Bontac NAD powder is safe and effective
5、Provide one-stop product solution customization service
NAD powder manufacturing method
The preparation methods of NAD powder are mainly divided into chemical synthesis method and biocatalytic method, among which biocatalytic method includes biological fermentation method and enzyme catalysis method. Enzyme catalysis method has gradually become the mainstream direction because of its advantages of green, environmental protection and pollution-free. And then the purity of NAD powder will reach 99% after the procedure of further purifying.
User Reviews
What users say about BONTAC
Frequently Asked Question
Do you have any question?
Nicotinamide adenine dinucleotide (NAD) has several essential roles in metabolism. It acts as a coenzyme in redox reactions, as a donor of ADP-ribose moieties in ADP-ribosylation reactions, as a precursor of the second messenger molecule cyclic ADP-ribose, as well as acting as a substrate for bacterial DNA ligases and a group of enzymes called sirtuins that use NAD+ to remove acetyl groups from proteins. In addition to these metabolic functions, NAD+ emerges as an adenine nucleotide that can be released from cells spontaneously and by regulated mechanisms, and can therefore have important extracellular roles.
First, inspect the factory. After some screening, NAD companied that directly face consumers pay more attention to brand building. Therefore, for a good brand, quality is the most important thing, and the first thing to control the quality of raw materials is to inspect the factory. Bontac company actually manufacturing NAD powder of high quality with the caterias of SGS. Secondly, the purity is tested. Purity is one of the most important parameters of NAD powder. If high purity NAD cannot be guaranteed, the remaining substances are likely to exceed the relevant standards. As the attached certificates demonstrates that the NAD powder produced by Bontac reach the purity of 99.9%. Finally, a professional test spectrum is needed to prove it. Common methods for determining the structure of an organic compound include Nuclear Magnetic Resonance Spectroscopy (NMR) and high-resolution mass spectrometry (HRMS). Usually through the analysis of these two spectra, the structure of the compound can be preliminarily determined.
The difference all comes down to the charge of these coenzymes. NAD+ is written with a superscript + sign because of the positive charge on one of its nitrogen atoms. It is the oxidized form of NAD. It’s considered “an oxidizing agent” because it accepts electrons from other molecules.
Although they are different chemically, these terms are mostly used interchangeably when discussing their health benefits. Another term you may come across is NADH, which stands for nicotinamide adenine dinucleotide (NAD) + hydrogen (H). This is also used interchangeably with NAD+ for the most part. Both are nicotinamide adenine dinucleotides that function as either hydride donors or hydride acceptors. The difference between these two is that that NADH becomes NAD+ after it donates an electron to another molecule.
Our updates and blog posts
Metabolites of Rg3 are Expected to Increase the Anti-cancer Properties of Rg3
Introduction Rare ginsenoside Rg3, an active extract from Panax ginseng, is reported to possess a wide range of pharmacological properties including anti-angiogenesis and anti-cancer, with high lipophilicity (estimated log P4) and a low water solubility at pH7.4. Nevertheless, its permeability and bioavailability are relatively low, and production procedures are complex. Remarkably, the metabolites of Rg3 have similar and even stronger activity than Rg3, opening up new opportunities for future adjuvant cancer therapy. The association of ginsenoside Rg3 and its metabolites There are two epimers of ginsenoside Rg3, which can be subsequently deglycosylated into epimers of ginsenoside Rh2 (S-Rh2 and R-Rh2) and protopanaxadiol (S-PPD and R-PPD). The anti-cancer properties of Rg3 metabolites Angiogenesis and tumor cell proliferation are both interdependent factors in tumor progression. In terms of anti-proliferation, Rg3 metabolites, who induce S-phase arrest and necroptosis in a human triple negative breast cancer cell line MDA-MB-231 as well as G0/G1 arrest and apoptosis in human umbilical vein endothelial cells (HUVECs), are more potent than Rg3. The clinically relevant target of Rg3 metabolites are the endothelial cells. Anti-angiogenic effects are evaluated using loop formation assay. Among Rg3 metabolites, S-Rh2 is the most potent inhibitor of loop formation. VEGFR2 and AQP1 as the targets of Rh2 According to the prediction by in silico molecular docking, there is a good binding score between Rh2/PPD and the ATP-binding pocket of VEGFR2, a dominant regulator controlling both physiological and pathological angiogenesis. Through VEGF bioassay, it is discovered that S-Rh2 is a most potent anti-angiogenic candidate with allosteric modulatory action on VEGFR2 function. In addition, Rh2 and PPD have the potential of blocking AQP1 and AQP5, two members of the aquaporin family with vital roles in proliferation, migration, invasion and angiogenesis. Moreover, Rg3 is more selective for AQP1 and does not show a good binding score with AQP5. In light of this, blocking the water channel function of AQP1 may have an immediate role in inhibition of loop formation and anti-angiogenic effects of Rh2. Conclusion Metabolites of Rg3 could potentially increase the anti-cancer properties of Rg3. The application of these molecules alone or together may be potent alternatives for future adjuvant cancer therapy. Reference Nakhjavani M, Smith E, Yeo K, et al. Differential antiangiogenic and anticancer activities of the active metabolites of ginsenoside Rg3. J Ginseng Res. 2024;48(2):171-180. doi:10.1016/j.jgr.2021.05.008 BONTAC Ginsenosides BONTAC has been dedicated to the R&D, manufacture and sale of raw materials for coenzyme and natural products since 2012, with self-owned factories, over 170 global patents as well as strong R&D team. BONTAC has rich R&D experience and advanced technology in the biosynthesis of rare ginsenosides Rh2/Rg3, with pure raw materials, higher conversion rate and higher content (up to 99%). One-stop service for customized product solution is available in BONTAC. With unique Bonzyme enzymatic synthesis technology, both S-type and R-type isomers can be accurately synthesized here, with stronger activity and precise targeting action. Our products are subjected to strict third-party self-inspection, which are worth of trustworthy. Disclaimer This article is based on the reference in the academic journal. The relevant information is provided for sharing and learning purposes only, and does not represent any medical advice purposes. If there is any infringement, please contact the author for deletion. The views expressed in this article do not represent the position of BONTAC. Under no circumstances will BONTAC be held responsible or liable in any way for any claims, damages, losses, expenses, costs or liabilities whatsoever (including, without limitation, any direct or indirect damages for loss of profits, business interruption or loss of information) resulting or arising directly or indirectly from your reliance on the information and material on this website.
Probing the Magic Role of NAD+ Metabolism-associated Genes in Gastric Cancer
1. Introduction Gastric cancer (GC) represents a global health-care challenge, which is the fifth most common cancer and the fourth leading cause of cancer death across the world in 2020, with a significant incidence rate. Despite the efficacy of improved chemotherapy and surgical options, the prognosis of GC patients remains unsatisfactory. Remarkably, NAD+ is an intriguing target for cancer therapy by leverage of its impacts upon energy metabolism and pathway regulation. This research is engineered to probe into the magic roles of NAD+ metabolism-associated genes (NMRGs) in GC. 2. The establishment of prognostic risk model for GC patients Based on the expression levels of NAD+ metabolism-related genes in GC cell lines, a prognostic model is established for GC patients. Simply put, a total of 13 lncRNAs related to NMRGs are singled out by LASSO regression to construct prognostic risk model, with seven markedly up-regulated lncRNAs and six prominently down-regulated lncRNAs in GC tissues, as confirmed by real-time polymerase chain reaction. On this basis, six lncRNAs with the minimum likelihood of deviance corresponding to the first-rank value of Log (k) are chosen, followed by the plotting of model AUC and calculation of the risk score. The detailed calculation formula is listed below: risk score = AL139147.1 × (0.416) + AC107021.2 × (0.3119) + AC090825.1 × (0.1218) + AC005726.2 × (−0.0.0062) + AC012615.1 × (−0.0130) + AP001107.6 × (−0.0451). It is found that patients with high-risk scores have a poor prognosis. 3. The correlation between immune factors and risk scores The levels of immune cell infiltration, including CD8 T cells, CD4 naïve T cells, CD4 memory-activated T cells, B memory cells, and naïve B cells, are markedly associated with risk scores. Besides, high-risk patients show activated immune checkpoints as well as high immune and stromal scores. 4. The role of NAD+ in the metabolism of GC patients NAD+ not only promotes GC progression, but also promotes immune cell infiltration into tumors. The modulation of NAD+ is significant for the metabolism of GC patients. 5. Conclusion NMRGs may be promising biomarkers for predicting clinical outcomes of GC patients and ultimately facilitating their precise management. Reference Sun, X., Wen, H., Li, F., Bukhari, I., Ren, F., Xue, X., Zheng, P., & Mi, Y. (2023). NAD+ associated genes as potential biomarkers for predicting the prognosis of gastric cancer. Oncology research, 32(2), 283–296. https://doi.org/10.32604/or.2023.044618 BONTAC NAD and NMN BONTAC has rich R&D experience and advanced technology in the biosynthesis of NAD and NMN. Bonzyme whole-enzymatic method is adopted, which is environmental-friendly, with no harmful solvent residues. The purity of products can reach up to 95%, which is benefited from the exclusive Bonpure seven-step purification technology. BONTAC has self-owned factories and has obtained a number of international certifications, where high quality and stable supply of products can be ensured. BONTAC has over 170 domestic and foreign patents, leading the industry of coenzyme and natural products. Disclaimer This article is based on the reference in the academic journal. The relevant information is provide for sharing and learning purposes only, and does not represent any medical advice purposes. If there is any infringement, please contact the author for deletion. The views expressed in this article do not represent the position of BONTAC. Under no circumstances will BONTAC be held responsible or liable in any way for any claims, damages, losses, expenses, costs or liabilities whatsoever (including, without limitation, any direct or indirect damages for loss of profits, business interruption or loss of information) resulting or arising directly or indirectly from your reliance on the information and material on this website.
The Nuanced Role of NADPH in the Complex Landscape of Metabolic Disorders
1.Introduction Nicotinamide adenine dinucleotide phosphate hydrogen (NADPH), also known as reduced coenzyme II, is a critical cofactor in cellular antioxidant systems and lipid synthesis, which links insulin resistance and ferroptosis of pancreatic β cells in the context of metabolic disorders such as diabetes mellitus, playing a central role in maintaining metabolic homeostasis. 2. Biological role of NADPH NADPH functions as a coenzyme essential to cellular metabolism, playing pivotal roles in various critical biological processes, such as ROS scavenging, ROS production, fatty acid synthesis and cholesterol synthesis. 3. Biosynthetic pathway of NADPH Cellular production of NADPH is facilitated through several pathways, including the pentose phosphate pathway, the citric acid cycle, and fatty acid metabolism. The dynamic equilibrium between NADPH synthesis and consumption is essential for preserving cellular redox balance and enabling a host of biosynthetic reactions. 4. The role of NADPH in insulin secretion from pancreatic β-Cells Both redox reaction and metabolic signaling can modulate insulin secretion from pancreatic β-cells, where NADPH plays a central role. It can not only serves as a metabolic coupling factor, but also acts as a custodian of β-cell integrity, delicately managing the interplay between metabolic inputs and insulin output. 5. The interaction between insulin resistance and NADPH A substantial body of evidence reveals that NADPH is critical for the regulation of oxidative stress and inflammatory responses, the main contributors to the pathogenesis of insulin resistance. Specifically, NADPH is implicated in ROS production via NOX and is also utilized in the synthesis of new fatty acids, which contributes to the development of insulin resistance, particularly in the context of obesity-induced chronic inflammation. 6. The impact of NADPH upon the ferroptosis in the context of diabetes In pancreatic β cells, the elevated blood sugar and pro-inflammatory cytokines can trigger oxidative stress and iron accumulation to promote lipid peroxidation, thereby facilitating the ferroptosis. In return, the ferroptosis can reduce insulin secretion and beta cell mass, which is contributive to the progression of diabetes. In general, NADPH plays a dual role in ferroptosis. On the one hand, it can promote ROS generation via NOX. On the other hand, it can support antioxidant defense through glutathione regeneration. In the context of diabetes, NADPH may predominantly fuel processes leading to ferroptosis, mainly due to the enhanced activity and affinity of NOX, which however requires further research for verification. 7. Conclusion NADPH has a critical role in the complex landscape of metabolic disorders, particularly insulin resistance and ferroptosis. Regulating NADPH-related pathways may open up new opportunities for the treatment of metabolic disorders. Reference Moon, Dong-Oh. “NADPH Dynamics: Linking Insulin Resistance and β-Cells Ferroptosis in Diabetes Mellitus.” International journal of molecular sciences vol. 25,1 342. 26 Dec. 2023, doi:10.3390/ijms25010342 Production advantages and features of BONTAC NADPH BONTAC has rich R&D experience and advanced technology in the biosynthesis of NADPH. Bonzyme whole-enzymatic method is adopted, which is environmental-friendly, with no harmful solvent residues. The purity of NADPH can reach up to 95%, which is benefited from the exclusive Bonpure seven-step purification technology. BONTAC has self-owned factories and has obtained a number of international certifications, where high quality and stable supply of products can be ensured. BONTAC has four domestic and foreign NADPH patents, leading the industry. Disclaimer This article is based on the reference in the academic journal. The relevant information is provide for sharing and learning purposes only, and does not represent any medical advice purposes. If there is any infringement, please contact the author for deletion. The views expressed in this article do not represent the position of BONTAC. Under no circumstances will BONTAC be held responsible or liable in any way for any claims, damages, losses, expenses, costs or liabilities whatsoever (including, without limitation, any direct or indirect damages for loss of profits, business interruption or loss of information) resulting or arising directly or indirectly from your reliance on the information and material on this website.