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
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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.
NADH powder manufacturing method
The main methods of NMNH powder preparation include extraction, fermentation, fortification, biosynthesis and organic matter synthesis. Compared with other preparations, the whole enzyme become the mainstream method owing to the advantages of pollution free, high level of purity and stability.
NMNH is more potent than NMN
when applied to cultured cells, the NMNH is shown to be more efficient than NMN as it was able to “significantly increase NAD+ at a ten times lower concentration (5 µM) than that needed for NMN”. Moreover, NMNH shows to be more effective, as at 500 µM concentration, it achieved “an almost 10- fold increase in the NAD+ concentration, while NMN was only able to double NAD+ content in these cells, even at 1 mM concentration.”.
Interestingly, NMNH also appears to act quicker and has a longer-lasting effect compared to NMN. According to the authors, NMNH induces a “significant increase in NAD+ levels within 15 minutes”, and “NAD+ steadily increased for up to 6 hours and remained stable for 24 hours, while NMN reached its plateau after only 1 hour, most likely because the NMN recycling pathways to NAD+ had already become saturated.”.
BONTAC NMNH product features and advantages
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
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NMNH also proved more effective than NMN in raising NAD+ levels in a variety of tissues when administered at the same concentration, confirming the results observed in cell lines. The data presented in this study also corroborate the evidence that NAD+ boosters protect against different models of acute kidney injury, and place NMNH as a great alternative intervention to other NAD+ precursors to reduce tubular damage and accelerate recovery.
To overcome the limitations of the current repertoire of NAD+ enhancers, other molecules with a more pronounced effect on the NAD+ intracellular pool are desired. This has stimulated us to investigate the use of the reduced form of nicotinamide mononucleotide (NMNH) as an NAD+ enhancer. There is very scarce information about the role of this molecule in cells. In fact, only one enzymatic activity has been described to produce NMNH. This is the NADH diphosphatase activity of the human peroxisomal Nudix hydrolase hNUDT1232 and the murine mitochondrial Nudt13.33 It has been postulated that, in cells, NMNH would be converted to NADH via nicotinamide mononucleotide adenylyl transferases (NMNATs).34 However, both NMNH production by Nudix diphosphatases and its use by NMNATs for NADH synthesis have only been described in vitro using isolated proteins, and how NMNH participates in cellular NAD+ metabolism remains unknown.
First, inspect the factory. After some screening, NMNH companies 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 NMNH powder of high quality with the caterias of SGS. Secondly, the purity is tested. Purity is one of the most important parameters of NMN powder. If high purity NMNH cannot be guaranteed, the remaining substances are likely to exceed the relevant standards. As the attached certificates demonstrates that the NMNH powder produced by Bontac reach the purity of 99%. 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.
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Frontier Dynamics on the Molecular Mechanism of Ginsenoside Rh2 Against Tumor
Introduction Ginsenoside Rh2, one protopanaxadiol (PPD)-type rare ginsenoside in Panax ginseng, is uncovered to possibly have broad-spectrum pharmacological activity in diversified tumors. It is utilized as an adjuvant drug for preoperative neoadjuvant chemotherapy, postoperative adjuvant chemotherapy, and rescue treatment of advanced cancer, which has been a research hotspot in recent years. Current states on cancer therapies Cancer has emerged as the second largest cause for death across the world, with approximately 9.6 million cancer-related deaths in 2018, in accordance with the statistical report by World Health Organization (WHO). Radiotherapy, chemotherapy and surgery are the preferred option for cancer, whose efficacy is however limited by the tumor relapse and drug resistance, requiring a patch such as adjuvant drugs to fix the bug. For anticancer treatment, over 60% of the approved and pre-new drug application candidates are natural products or synthetic molecules based upon natural product molecular skeletons. Strikingly, ginsenosides act as a promising therapeutic target by virtue of its pharmacological activities such as immune adjustment, anti-tumor, anti-oxidation, and protection of the heart and cerebral vessels. 20(S) ginsenoside Rh2 vs. 20(R) ginsenoside Rh2 There are two stereoisomeric forms of ginsenoside Rh2, namely 20(S) ginsenoside Rh2 and 20(R) ginsenoside Rh2. Relative to the (20R) ginsenoside Rh2, (20S) ginsenoside Rh2 has higher cytotoxic activity towards cancer cells. In a previously reported study, the half maximal inhibitory concentration values of 20(S) ginsenoside Rh2 and 20(R) ginsenoside Rh2 in A549 cells are 45.7 and 53.6 µM, respectively. The underlying mechanisms of ginsenoside Rh2 against tumor Mechanically, the anti-tumor effects of ginsenoside Rh2 are realized by enhancing the body’s immune activity to regulate microenvironment, inhibiting differentiation, angiogenesis, proliferation, invasion, and metastasis of tumor cells, inducing the apoptosis, cell cycle arrest, autophagy, superoxide and reactive oxygen species, and reversing the drug resistance via regulating a series of important tumor-related signaling pathway. For instance, ginsenoside Rh2 can activate CD4+ and CD8a+ T lymphocytes, promote their invasion, and enhance the killing effect of lymphocytes on B16-F10 melanoma cells in a concentration-dependent manner. Besides, the number of tumor cells in the G0/G1 phase is increased significantly post treatment with ginsenoside Rh2 and 5-FU, by which the expansion and migration of tumor cells are effectively hampered. Additionally, the ginsenoside Rh2 downregulates the levels of drug-resistance-related genes (eg. MRP1, MDR1, LRP and GST), making colorectal cancer cells more sensitive to 5-FU. Conclusion Ginsenoside Rh2 plays multifunctional roles in both tumor treatment and tumor microenvironment immunomodulation, which may become a promising choice of medication for patients with tumors in the future. Reference [1] Xiaodan S, Ying C. Role of ginsenoside Rh2 in tumor therapy and tumor microenvironment immunomodulation. Biomed Pharmacother. 2022;156:113912. doi:10.1016/j.biopha.2022.113912 [2] Yang L, Chen JJ, Sheng-Xian Teo B, Zhang J, Jiang M. Research Progress on the Antitumor Molecular Mechanism of Ginsenoside Rh2. Am J Chin Med. Published online January 31, 2024. doi:10.1142/S0192415X24500095 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. BONTAC holds no responsibility for any claims, damages, losses, expenses, costs or liabilities resulting or arising directly or indirectly from your reliance on the information and material on this website.
Is stevioside a sugar reducer or a health killer?
1. Introduction On July 2023, the World Health Organization (WHO) has classified the soda sweetener aspartame as a possible carcinogen, but said that aspartame is safe to consume within a daily limit of 40 milligrams per kilogram of a person’s body weight according to the latest assessment results regarding the impacts of the non-sugar sweetener aspartame upon the health. How about another sweetener stevioside? Is stevioside a sugar reducer or a health killer? 2. Current situation on stevioside Stevioside (also termed stevia glycoside) has been regarded as “the third largest source of natural sugar across the world” by virtue of its low calorie, high sweetness, good stability and low price, which is widely used in medicine, daily chemicals, beverage, food, brewing and other industries. 3. Regulatory application and control of stevioside The aforementioned report of WHO on the possible carcinogenesis of soda sweetener aspartame is based on high intake. An adult weighing 70 kilograms or 154 pounds would have to drink more than 9 to 14 cans of aspartame-containing soda daily to exceed the limit and potentially face health risks. There is no need to be worry about the risk of carcinogenesis in the case of healthy intake. The same situation is applicable to another sweetener stevioside. Stevioside is approved to be sweetener in food in countries like Mainland China, Japan, Korea, Australia, New Zealand, the USA and European Union. In China, there are detail specifications on the food additive stevioside (GB 2760-2014). 4. The therapeutic properties of stevioside 4.1 Antitumor effect Stevioside can be applied as a valuable chemotherapy candidate to be further investigated for cancer therapy. The activity of the well-known tumor promoter, 12-O-tetradecanoylphorbol-13-acetate (TPA), is successfully inhibited with stevioside in a murine skin-cancer model. In addition, stevioside can reduce mammary adenoma incidence in F344 rats. 4.2 Anti-hypertensive activity The hypotensive effect observed in rats after chronic oral administration (30 days) of 2.67 g stevia leaves/day has been confirmed in spontaneously hypertensive rats. In that murine model, stevioside (100 mg/kg; i.v.) is able to reduce blood pressure with no change in serum epinephrine, norepinephrine, or dopamine levels. 4.3 Anti-diabetics In diabetic rats, stevioside (0.2 g/kg; i.v. administration) decreases glucose blood levels, yet increases insulin responses and reactions to an intravenous glucose tolerance test (IVGT). Also, stevioside enhances insulin levels above basal during the IVGT, without altering blood glucose response, in normal rats, hinting its potential as a drug candidate for type 2 diabetes. 4.4 Inhibition of pathogenic bacteria Stevioside has demonstrated antibacterial action on various foodborne pathogenic bacteria, including Escherichia coli, a wellknown etiologic agent of severe diarrhea. Regarding antiviral properties, stevioside seems to impede binding of rotavirus to host cells. Rotavirus is commonly associated with pediatric gastroenteritis. 4.5 Anti-inflammatory property In lipopolysaccharide (LPS)-stimulated THP1 cells, stevioside (1mM) inhibits NF-κB. Moreover, stevioside prevents in vitro upregulation of genes involved in liver inflammation. In addition, silico assays demonstrate its antagonistic action in two proinflammatory receptors: tumor necrosis factor receptor (TNFR)-1 and Toll-like receptor (TLR)-4-MD2. 4.6 Antioxidant capability The antioxidant effects of stevioside and rebaudioside A have been confirmed in a fish model, both of which effectively control lipoperoxidation and protein carbonylation. Furthermore, stevioside prevents oxidative DNA damage in the livers and kidneys of a type 2 diabetes murine model. 5 Conclusion As long as the intake is properly controlled, stevioside can be very useful. Stevioside holds a great promise in the clinical treatment and daily health care. Reference Orellana-Paucar A. M. (2023). Steviosides from Stevia rebaudiana: An Updated Overview of Their Sweetening Activity, Pharmacological Properties, and Safety Aspects. Molecules (Basel, Switzerland), 28(3), 1258. https://doi.org/10.3390/molecules28031258 BONTAC Stevioside Reb-D product features and advantages BONTAC possesses the international application and authorized patents on Stevioside Reb-D (US11312948B2 & ZL2018800019752), where the product quality (purity and stability) can be better ensured. Disclaimer BONTAC shall hold no responsibility for any claims arising directly or indirectly from your reliance on the information and material on this website.
Mitigation of TOCP-induced Oocyte Damage by Replenishing NMN
Introduction Triocresyl phosphate (TOCP) is widely used in the realm of industry and agriculture in the last century. However, it is subsequently banned due to the increasing understanding of its toxicity. In the 21st century, TOCP comes back into the limelight as the aviation industry springs up. This research uncovers the adverse effects of TOCP on the reproductive system. Notably, nicotinamide mononucleotide (NMN), a crucial intermediate in the generation of NAD+, may serve as a therapeutic intervention to attenuate the oocyte damage caused by TOCP. About TOCP TOCP, a classic aromatic organophosphate ester, generally functions as flame retardant, plasticizer, lubricant, and jet fuel additive due to its chemical and thermal stability. At room temperature, TOCP is an odorless, yellowish transparent liquid. It is insoluble in water, but soluble in organic solvents such as alcohol, ether and benzene. In addition to its use in aviation industry, TOCP is currently applied in the manufacturing of construction materials such as plastics, furniture, textiles, printed circuit boards, and insulation. The negative roles of TOCP in oocytes Through the analyses of germinal vesicle breakdown (GVBD) and polar body extrusion (PBE), it is discovered that TOCP impedes the maturation process of oocyte meiotic division, suppressing the reinitiation of oocytes and the final extrusion of the first polar body. Remarkably, maturation of oocytes is deemed as a critical prerequisite for successful fertilization and subsequent embryonic development. Besides, it triggers disturbances in the cytoskeleton of oocytes and affects the distribution and functionality of mitochondria. Furthermore, exposure to TOCP alters the genes related to histone modification in oocytes, as manifested by the elevated levels of histone methylation at H3K9me3 and H3K27me3. The reversing effects of NMN on TOCP in oocytes Replenishing NMN partially restores the spindle/chromosome structure as well as the attachment of microtubules to centromeres, and stabilizes the distribution of actin filaments, thereby maintaining chromosomal integrity and supporting the nuclear maturation process of oocytes. Meanwhile, NMN is also effective in rescuing mitochondrial dysfunction induced by TOCP, which restores membrane potential and ATP levels, reduces excessive ROS production, prevents DNA damage, and hinders cell apoptosis as well as epigenetic alterations. Conclusion Nicotinamide mononucleotide maintains cytoskeletal stability and fortifies mitochondrial function to mitigate oocyte damage induced by TOCP, signifying its potential application value in refining reproductive therapeutic strategies. Reference Meng F, Zhang Y, Du J, et al. Nicotinamide mononucleotide maintains cytoskeletal stability and fortifies mitochondrial function to mitigate oocyte damage induced by Triocresyl phosphate. Ecotoxicol Environ Saf. 2024;275:116264. doi:10.1016/j.ecoenv.2024.116264 BONTAC NMN BONTAC is the pioneer of NMN industry and the first manufacturer to launch NMN mass production, with the first whole-enzyme catalysis technology around the world. At present, BONTAC has become the leading enterprise in niche areas of coenzyme products. Notably, BONTAC is the NMN raw material supplier of famous David Sinclair team at the Harvard University, who uses the raw materials of BONTAC in a paper titled “Impairment of an Endothelial NAD+-H2S Signaling Network Is a Reversible Cause of Vascular Aging”. Our services and products have been highly recognized by global partners. Furthermore, BONTAC has the first national and the only provincial independent coenzyme engineering technology research center in Guangdong, China. The coenzyme products of BOMNTAC are widely used in fields such as nutritional health, biomedicine, medical beauty, daily chemicals and green agriculture. 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.