Good Quality Organic Ginseng extract in Dubai
Good Quality Organic Ginseng extract in Dubai Detail:
[Latin Name] Panax ginseng CA Mey.
[Plant Source] Dried Root
[Specifications] Ginsenosides 10%–80%(UV)
[Appearance] Fine Light Milk Yellow Powder
[Particle size] 80 Mesh
[Loss on drying] ≤ 5.0%
[Heavy Metal] ≤20PPM
[Extract solvents] Ethanol
[Microbe] Total Aerobic Plate Count: ≤1000CFU/G
Yeast & Mold: ≤100 CFU/G
[Storage] Store in cool & dry area, keep away from the direct light and heat.
[Shelf life]24 Months
[Package] Packed in paper-drums and two plastic-bags inside.
[What is Ginseng]
In terms of modern scientific research, ginseng is known to be an adaptogen. Adaptogens are substances that assist the body to restore itself to health and work without side effects even if the recommended dose is widely exceeded.
Ginseng due to its adaptogens effects is widely used to lower cholesterol, increase energy and endurance, reduce fatique and effects of stress and prevent infections.
Ginseng is one of the most effective antiaging supplements. It can alleviate some major effects of aging, such as degeneration of the blood system, and increase mental and physical capacity.
Other important benefits of ginseng is its support in cancer treatment and its effects on sports performance.
[Application]
1. Applied in food additives, it owns the effect of antifatigue, anti-aging and nourishing brain;
2. Applied in pharmaceutical field, it is used to treat coronary heart disease, angina cordis, bradycardia and high heart rate arrhythmia, etc.;
3. Applied in cosmetics field, it owns the effect of whitening, dispelling spot, anti-wrinkle, activating skin cells, making skin more tender and firm.
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Our company sticks to the principle of "Quality is the life of the company, and reputation is the soul of it" for Good Quality Organic Ginseng extract in Dubai , The product will supply to all over the world, such as: Croatia, Milan, Victoria, By integrating manufacturing with foreign trade sectors, we can present total customer solutions by guaranteeing the delivery of right merchandise to the right place at the right time, which is supported by our abundant experiences, powerful production capability, consistent quality, diversified products and the control of the industry trend as well as our maturity before and after sales services. We'd like to share our ideas with you and welcome your comments and questions.
What is BIOPOLYMER? What does BIOPOLYMERmean? BIOPOLYMER meaning – BIOPOLYMER pronunciation – BIOPOLYMER definition – BIOPOLYMER explanation – How to pronounce BIOPOLYMER?
Source: Wikipedia.org article, adapted under https://creativecommons.org/licenses/by-sa/3.0/ license.
Biopolymers are polymers produced by living organisms; in other words, they are polymeric biomolecules. Since they are polymers, biopolymers contain monomeric units that are covalently bonded to form larger structures. There are three main classes of biopolymers, classified according to the monomeric units used and the structure of the biopolymer formed: polynucleotides (RNA and DNA), which are long polymers composed of 13 or more nucleotide monomers; polypeptides, which are short polymers of amino acids; and polysaccharides, which are often linear bonded polymeric carbohydrate structures.
Cellulose is the most common organic compound and biopolymer on Earth. About 33 percent of all plant matter is cellulose. The cellulose content of cotton is 90 percent, for wood it is 50 percent.
A major defining difference between biopolymers and synthetic polymers can be found in their structures. All polymers are made of repetitive units called monomers. Biopolymers often have a well-defined structure, though this is not a defining characteristic (example: lignocellulose): The exact chemical composition and the sequence in which these units are arranged is called the primary structure, in the case of proteins. Many biopolymers spontaneously fold into characteristic compact shapes (see also “protein folding” as well as secondary structure and tertiary structure), which determine their biological functions and depend in a complicated way on their primary structures. Structural biology is the study of the structural properties of the biopolymers. In contrast, most synthetic polymers have much simpler and more random (or stochastic) structures. This fact leads to a molecular mass distribution that is missing in biopolymers. In fact, as their synthesis is controlled by a template-directed process in most in vivo systems, all biopolymers of a type (say one specific protein) are all alike: they all contain the similar sequences and numbers of monomers and thus all have the same mass. This phenomenon is called monodispersity in contrast to the polydispersity encountered in synthetic polymers. As a result, biopolymers have a polydispersity index of 1.
The convention for a polypeptide is to list its constituent amino acid residues as they occur from the amino terminus to the carboxylic acid terminus. The amino acid residues are always joined by peptide bonds. Protein, though used colloquially to refer to any polypeptide, refers to larger or fully functional forms and can consist of several polypeptide chains as well as single chains. Proteins can also be modified to include non-peptide components, such as saccharide chains and lipids.
The convention for a nucleic acid sequence is to list the nucleotides as they occur from the 5′ end to the 3′ end of the polymer chain, where 5′ and 3′ refer to the numbering of carbons around the ribose ring which participate in forming the phosphate diester linkages of the chain. Such a sequence is called the primary structure of the biopolymer.
Sugar-based biopolymers are often difficult with regards to convention. Sugar polymers can be linear or branched and are typically joined with glycosidic bonds. The exact placement of the linkage can vary, and the orientation of the linking functional groups is also important, resulting in ?- and ß-glycosidic bonds with numbering definitive of the linking carbons’ location in the ring. In addition, many saccharide units can undergo various chemical modifications, such as amination, and can even form parts of other molecules, such as glycoproteins.
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Versuri:
Zhao – refren:
Dau o fugă în oraș după domnișoare
Că nu mai am niciun loc gol de parcare
Și o să parchez la ele în dormitoare
Azi o ardem în deplasare
Maximilian – strofă:
Ok, am o revelație
Nu-s capabil de-o relație
Mai nou, pare obligație
Ce era cândva senzație
Plus că, nu mai sunt eu
Așa apăsat mereu
Lasă-mă să-ți spun ceva
Nici tu nu mă vrei așa
Recunoaște, îmi stă mai bine
Când zâmbesc că sunt cu tine
Spui că mă iubești, și eu…
Și eu, și eu, și eu…
Zhao – refren:
Dau o fugă în oraș după domnișoare
Că nu mai am niciun loc gol de parcare
Și o să parchez la ele în dormitoare
Azi o ardem în deplasare
Maximilian – strofă:
Nu-mi vorbești o săptămână
Dacă nu te țin de mână
Nu-mi vorbești o lună-ntreagă
Încep să cred c-o să meargă
Până te superi iar
N-am făcut nimic da-i clar
C-am făcut ceva, normal
Numai unu-i vinovat
Mda, și ghici tu care
Mereu același, în continuare
Nu mai am stare, îl sun pe Zhao
Și dau o, dau o, dau o…
Zhao – refren:
Dau o fugă în oraș după domnișoare
Că nu mai am niciun loc gol de parcare
Și o să parchez la ele în dormitoare
Azi o ardem în deplasare
Spike – strofă:
E tare rău peisaju’
Sau am greșit iar dozaju’
Că viața mea n-are carnet
Da’ rupe kilometraju
Te rog, deschide-mi garaju’
Și spune-mi care-i etaju’
Eu sunt în trecere p-aici
Zi, pot să urc să-ți stric machiaju’?
Da’ seara trece repede
Vezi cum răsare soarele
Ea știe c-o să plec
Să mă văd cu toate nasoalele
Mă-ntreabă dacă stau
Îi zic că nu știu să răspund
Și când mă bag rapid în duș
Îmi fac bagajele în gând să…
Zhao – refren:
Dau o fugă în oraș după domnișoare
Că nu mai am niciun loc gol de parcare
Și o să parchez la ele în dormitoare
Azi o ardem în deplasare
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