Fmoc-MAP(4)-Alko-PEG Resin
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Fmoc-MAP(4)-Alko-PEG Resin

* Please kindly note that our products are not to be used for therapeutic purposes and cannot be sold to patients.

Category
Other Resins
Catalog number
BAT-014281
Synonyms
(Fmoc)4-(Lys)2-Lys-β-Ala-Alko-PEG Resin
1. Microbial Conversion of Toxic Resin Acids
Natalia A Luchnikova, Kseniya M Ivanova, Ekaterina V Tarasova, Victoria V Grishko, Irina B Ivshina Molecules. 2019 Nov 14;24(22):4121. doi: 10.3390/molecules24224121.
Organic wood extractives-resin acids-significantly contribute to an increase in the toxicity level of pulp and paper industry effluents. Entering open ecosystems, resin acids accumulate and have toxic effects on living organisms, which can lead to the ecological imbalance. Among the most effective methods applied to neutralize these ecotoxicants is enzymatic detoxification using microorganisms. A fundamental interest in the in-depth study of the oxidation mechanisms of resin acids and the search for their key biodegraders is increasing every year. Compounds from this group receive attention because of the need to develop highly effective procedures of resin acid removal from pulp and paper effluents and also the possibility to obtain their derivatives with pronounced pharmacological effects. Over the past fifteen years, this is the first report analyzing the data on distribution, the impacts on living organisms, and the microbial transformation of resin acids. Using the example of dehydroabietic acid-the dominant compound of resin acids in effluents-the review discusses the features of interactions between microorganisms and this pollutant and also highlights the pathways and main products of resin acid bioconversion.
2. Frankincense--therapeutic properties
Ali Ridha Mustafa Al-Yasiry, Bożena Kiczorowska Postepy Hig Med Dosw (Online). 2016 Jan 4;70:380-91. doi: 10.5604/17322693.1200553.
Recently, increasing interest in natural dietary and therapeutic preparations used as dietary supplements has been observed. One of them is frankincense. This traditional medicine of the East is believed to have anti-inflammatory, expectorant, antiseptic, and even anxiolytic and anti-neurotic effects. The present study aims to verify the reported therapeutic properties of Boswellia resin and describe its chemical composition based on available scientific studies. The main component of frankincense is oil (60%). It contains mono- (13%) and diterpenes (40%) as well as ethyl acetate (21.4%), octyl acetate (13.4%) and methylanisole (7.6%). The highest biological activity among terpenes is characteristic of 11-keto-ß-acetyl-beta-boswellic acid, acetyl-11-keto-ß-boswellic acid and acetyl-α-boswellic acid. Contemporary studies have shown that resin indeed has an analgesic, tranquilising and anti-bacterial effects. From the point of view of therapeutic properties, extracts from Boswellia serrata and Boswellia carterii are reported to be particularly useful. They reduce inflammatory conditions in the course of rheumatism by inhibiting leukocyte elastase and degrading glycosaminoglycans. Boswellia preparations inhibit 5-lipoxygenase and prevent the release of leukotrienes, thus having an anti-inflammatory effect in ulcerative colitis, irritable bowel syndrome, bronchitis and sinusitis. Inhalation and consumption of Boswellia olibanum reduces the risk of asthma. In addition, boswellic acids have an antiproliferative effect on tumours. They inhibit proliferation of tumour cells of the leukaemia and glioblastoma subset. They have an anti-tumour effect since they inhibit topoisomerase I and II-alpha and stimulate programmed cell death (apoptosis).
3. Safety and efficacy of shilajit (mumie, moomiyo)
Sidney J Stohs Phytother Res. 2014 Apr;28(4):475-9. doi: 10.1002/ptr.5018. Epub 2013 Jun 3.
Shilajit (mumie; moomiyo, mummiyo) has been used for a wide variety of illnesses and conditions for many years. However, relatively few well-controlled human studies have been conducted on the effects of shiliajit, although a growing number of studies have been published in recent years involving animal and in vitro systems. The safety of shilajit is well documented based on animal and human studies. Various research studies indicate that shilajit exhibits antioxidant, anti-inflammatory, adaptogenic, immunomodulatory, and anti-dyslipidemic properties. Animal and human studies indicate that shilajit enhances spermatogenesis. Furthermore, animal and human data support its use as a 'revitalizer', enhancing physical performance and relieving fatigue with enhanced production of ATP. Key constituents in shilajit responsible for these effects appear to be dibenzo-α-pyrones and fulvic acid and their derivatives. Various mechanistic studies provide support for the above observed effects. Additional well-controlled human and animal studies involving the use of standardized products are needed.
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