Polysaccharide Enzyme Suppliers USA
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Product | Description | |
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1,5-a-L-Arabinohexaose Quick inquiry Where to buy Suppliers range | 1,5-a-L-Arabinohexaose is a polysaccharide frequently leveraged in enzymology and reaction kinetics pertaining to carbohydrates, furnishing a foundation to investigate metabolic anomalies. Synonyms: Arabinohexaose; 190852-26-7; (2R,3R,4R,5S)-5-[[(2R,3R,4R,5S)-5-[[(2R,3R,4R,5S)-5-[[(2R,3R,4R,5S)-5-[[(2R,3R,4R,5S)-5-[[(2R,3R,4R,5S)-3,4-dihydroxy-5-(hydroxymethyl)oxolan-2-yl]oxymethyl]-3,4-dihydroxyoxolan-2-yl]oxymethyl]-3,4-dihydroxyoxolan-2-yl]oxymethyl]-3,4-dihydroxyoxolan-2-yl]oxymethyl]-3,4-dihydroxyoxolan-2-yl]oxymethyl]oxolane-2,3,4-triol. CAS No. 190852-26-7. Molecular formula: C30H50O25. Mole weight: 810.70. | |
1,5-a-L-Arabinotetraose Quick inquiry Where to buy Suppliers range | 1,5-a-L-Arabinotetraose is a polysaccharide compound used primarily in biomedical research to study the effects of specific enzymes on fibre digestion. Its unique structure is valuable in studying the degradation of complex polysaccharides in diseases like Celiac and Crohn's disease. CAS No. 190852-24-5. Molecular formula: C20H34O17. Mole weight: 546.47. | |
4-Nitrophenyl b-D-galactofuranoside Quick inquiry Where to buy Suppliers range | 4-Nitrophenyl b-D-galactofuranoside is a specialized component extensively used in the biomedical industry. This compound is employed in research investigations to study galactofuranosyl transferases and related enzymes involved in the metabolism of galactofuranose-containing polysaccharides. Synonyms: 4-nitrophenyl beta-D-galactofuranoside; 4-Nitrophenylgalactofuranoside; 4-Nitrophenyl-beta-D-galactofuranoside; (2S,3R,4R,5S)-2-[(1R)-1,2-dihydroxyethyl]-5-(4-nitrophenoxy)oxolane-3,4-diol; 4-NP-GF; pNPbetaGalf; pNP-beta-D-Galf; 4-Nitrophenyl b-D-galactofuranoside; P-NITROPHENYL B-D-GALACTOFURANOSIDE; 4-Nitrophenyl hexofuranoside; CHEMBL1254442; SCHEMBL15353550; DTXSID10905638; 4-Nitrophenyl ?-D-Galactofuranoside; 4-Nitrophenyl |A-D-Galactofuranoside; p-nitrophenyl-beta-d-galactofuranoside; 4-Nitrophenyl beta -D-Galactofuranoside; beta-D-Galactofuranoside, 4-nitrophenyl. CAS No. 100645-45-2. Molecular formula: C12H15NO8. Mole weight: 301.25. | |
Agar, Ash : 2.0-4.5% Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Density: H2O: 1.5 % with heat. | |
Agar, Ash ≤ 1.5%, High gel strength(1000-1200 g/cm2) Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Density: H2O: 1.5 % with heat. | |
Agar, Ash ≤ 1.5%, Low gel strength(700-900 g/cm2) Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Density: H2O: 1.5 % with heat. | |
Agar, Ash ≤ 5.0%, High gel strength(1000-1200 g/cm2) Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Density: H2O: 1.5 % with heat. | |
Agar, Ash ≤ 5.0%, High gel strength(1400 g/cm2) Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Density: H2O: 1.5 % with heat. | |
Agar, Ash ≤ 5.0%, Lowgelstrength(700-900 g/cm2) Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Density: H2O: 1.5 % with heat. | |
Agar, Bacteriological grade Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Density: H2O: 1.5 % with heat. | |
Agar, Bacteriological, microbiology tested, suitable for plant cell culture, granular Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 83-89 °C. Density: H2O: 1.5 % with heat. | |
Agar, BioReagent Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Density: H2O: 1.5 % with heat. | |
Agar, BioReagent, gel strength(1200 g/cm2) Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Density: H2O: 1.5 % with heat. | |
Agar, Food grade Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Density: H2O: 1.5 % with heat. | |
Agar, For chromogenic media Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: ≥85 °C. Density: H2O: 1.5 % with heat. | |
Agar, For membrane filtration, low gel strengh Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Density: H2O: 1.5 % with heat. | |
Agar, For molecular biology Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Density: H2O: 1.5 % with heat. | |
Agar, Granulated, purified and free from inhibitors, suitable for microbiology Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 90 °C. Density: Slightly soluble 20 g/L. | |
Agar, High gel strength, suitable for plant cell culture Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Density: H2O: 1.5 % with heat. | |
Agar, High purity, low ionic content, low gel strenght Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Density: H2O: 1.5 % with heat. | |
Agar, Pharmaceutical grade Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Density: H2O: 1.5 % with heat. | |
Agar, Plant cell culture tested Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Density: H2O: 1.5 % with heat. | |
Agar, Powder, suitable for microbiology Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Density: H2O: 1.5 % at 70 °C, clear to slightly hazy (100 °C/15 min.). | |
Agar, Powder,suitable for plant cell culture Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Density: H2O: 1.5 % with heat. | |
Agar, Puriy ≥ 95% Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Flash Point: ≥95 %. Density: H2O: 1.5 % with heat. | |
Agar, Suitable for microbiology, loss : ≤10 % loss on drying, quality level : 100 Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 83-89 °C. Density: H2O: 1.5 % with heat. | |
Agar, Suitable for microbiology, loss : ≤10 % loss on drying, quality level : 200 Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: ≥85 °C. Density: H2O: 1.5 %, clear to almost clear (100 °C/15 min.). | |
Agar, Suitable for microbiology, loss : ≤12 % loss on drying, quality level : 100 Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Density: H2O: 1.5 % at 70 °C, clear to very faintly turbid, almost colorless. | |
Agar, Suitable for plant cell culture, powder Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Density: H2O: 1.5 % with heat. | |
Agar, Type A, Ash : 5-6% Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Density: H2O: 1.5 % with heat. | |
Agar, Type A, suitable for plant cell culture Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Density: H2O: 1.5 % with heat. | |
Agar, Type E, suitable for plant cell culture Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Density: H2O: 1.5 % with heat. | |
Agar, Type M, suitable for plant cell culture Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Density: H2O: 1.5 % with heat. | |
β-Cyclodextrin Quick inquiry Where to buy Suppliers range | β-cyclodextrin is a cyclic oligosaccharide produced from starch via enzymatic conversion. It is widely used in food, medicine, cosmetics, chemical and other industries. β-cyclodextrin is used as a complexing agent in drug delivery, increasing the water solubility, dissolution rate and bioavailability of poorly water-soluble drugs. β-Cyclodextrin is commonly used to produce HPLC columns that allow the separation of chiral enantiomers. Uses: Sequestering agents. Synonyms: Cycloheptaamylose; Adrabetadex; BCD; Betadex; BW 7 (polysaccharide); Cavamax W 7; Celdex N; Cibatex OC-CLD; Cyclodextrin Beta W 7M1.8; Cycloheptaglucan; Cycloheptaglucosan; Cyclomaltoheptaose; CYL 3190; Dexipar β-100; Dextrin, β-cyclo; Dexy Pearl 100; HP-β-CD; HRBS-Q 009; Kleptose; Kleptose B; Kleptose STD; NSC 269471; NSC 314334; Rhodocap N; Rindex B; Ringdex B; Ringdex BL; Schardinger β-dextrin; Stereoisomer of 5, 10, 15, 20, 25, 30, 35-heptakis(hydroxymethyl)-2, 4, 7, 9, 12, 14, 17, 19, 22, 24, 27, 29, 32, 34-tetradecaoxaoctacyclo[31.2.2.23, 6.28, 11.213, 16.218, 21.223, 26.228, 31]nonatetracontane-36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49-tetradecol; Trappsol Cyclo; VAR 200; VTS 270; β-Cycloamylose; β-Cycloheptaamylose; β-Dextrin. Grades: ≥95%. CAS No. 7585-39-9. Molecular formula: C42H70O35. Mole weight: 1134.98. | |
Dermatan Sulfate (dp10) Quick inquiry Where to buy Suppliers range | Dermatan Sulfate (dp10), a polysaccharide with myriad biomedical applications, has captivated researchers as a therapeutic intervention for osteoarthritis, cancer, and other inflammatory diseases. Through its dynamic enzymatic capabilities, Dermatan Sulfate (dp10) has been identified as a formidable deterrent to cartilage decay, making it an attractive option for those seeking to mitigate the onset and progression of joint degeneration. Synonyms: Dermatan Sulphate Oligosaccharide dp10. Mole weight: 2480. | |
Gum Arabic, Analytical reagent Quick inquiry Where to buy Suppliers range | Gum arabic (GA) is a mixture of polysaccharides and glycoproteins (GP) with properties of glue and adhesive. Gum arabic readily dissolves in water, forming a clear solution ranging in color from very pale yellow to orange-brown at a pH of about 4.5. GA is used as an emulsifier and thickener in icings, fillings, chewing gum and other confections. GA was more effective in inhibiting non-enzymatic browning and as a color preservative in dehydrated tomatoes. The addition of GA significantly improved the color stability of anthocyanins; the efficacy decreased with increasing concentrations due to changes in the conformation of the gum molecules that hindered their contact with anthocyanins. Gum arabic was found to be an excellent color preservative and inhibitor of non-enzymatic browning of dehydrated tomatoes during storage. Uses: ·Food industry: (1) role of protective colloid or stabilizer; (2) adhesiveness of aqueous solution; (3) thickening ·Medicine: Gum arabic is mainly used as a suspending and emulsifying agent in oral and topical pharmaceutical preparations ·Printing industry: for wiping printing layouts ·Adhesives: used for bonding paper, wood, ceramics, glass, etc. Group: Plant Hydrocolloids. CAS No. 9000-1-5. Purity: 1.35 g/mL. Density: Water soluble. Aqueous solution is acidic to litmus. | |
gum arabic derived from black locust, branched polysaccharide Quick inquiry Where to buy Suppliers range | Gum arabic (GA) is a mixture of polysaccharides and glycoproteins (GP) with properties of glue and adhesive. Gum arabic readily dissolves in water, forming a clear solution ranging in color from very pale yellow to orange-brown at a pH of about 4.5. GA is used as an emulsifier and thickener in icings, fillings, chewing gum and other confections. GA was more effective in inhibiting non-enzymatic browning and as a color preservative in dehydrated tomatoes. The addition of GA significantly improved the color stability of anthocyanins; the efficacy decreased with increasing concentrations due to changes in the conformation of the gum molecules that hindered their contact with anthocyanins. Gum arabic was found to be an excellent color preservative and inhibitor of non-enzymatic browning of dehydrated tomatoes during storage. Uses: ·Food industry: (1) role of protective colloid or stabilizer; (2) adhesiveness of aqueous solution; (3) thickening ·Medicine: Gum arabic is mainly used as a suspending and emulsifying agent in oral and topical pharmaceutical preparations ·Printing industry: for wiping printing layouts ·Adhesives: used for bonding paper, wood, ceramics, glass, etc. Group: Plant Hydrocolloids. CAS No. 9000-1-5. Purity: 1.35 g/mL. Density: Water soluble. Aqueous solution is acidic to litmus. | |
Gum arabic derived from locust, Reagent grade Quick inquiry Where to buy Suppliers range | Gum arabic (GA) is a mixture of polysaccharides and glycoproteins (GP) with properties of glue and adhesive. Gum arabic readily dissolves in water, forming a clear solution ranging in color from very pale yellow to orange-brown at a pH of about 4.5. GA is used as an emulsifier and thickener in icings, fillings, chewing gum and other confections. GA was more effective in inhibiting non-enzymatic browning and as a color preservative in dehydrated tomatoes. The addition of GA significantly improved the color stability of anthocyanins; the efficacy decreased with increasing concentrations due to changes in the conformation of the gum molecules that hindered their contact with anthocyanins. Gum arabic was found to be an excellent color preservative and inhibitor of non-enzymatic browning of dehydrated tomatoes during storage. Uses: ·Food industry: (1) role of protective colloid or stabilizer; (2) adhesiveness of aqueous solution; (3) thickening ·Medicine: Gum arabic is mainly used as a suspending and emulsifying agent in oral and topical pharmaceutical preparations ·Printing industry: for wiping printing layouts ·Adhesives: used for bonding paper, wood, ceramics, glass, etc. Group: Plant Hydrocolloids. CAS No. 9000-1-5. Purity: 1.35 g/mL. Density: Water: soluble. | |
Gum arabic derived from locust, spray dried Quick inquiry Where to buy Suppliers range | Gum arabic (GA) is a mixture of polysaccharides and glycoproteins (GP) with properties of glue and adhesive. Gum arabic readily dissolves in water, forming a clear solution ranging in color from very pale yellow to orange-brown at a pH of about 4.5. GA is used as an emulsifier and thickener in icings, fillings, chewing gum and other confections. GA was more effective in inhibiting non-enzymatic browning and as a color preservative in dehydrated tomatoes. The addition of GA significantly improved the color stability of anthocyanins; the efficacy decreased with increasing concentrations due to changes in the conformation of the gum molecules that hindered their contact with anthocyanins. Gum arabic was found to be an excellent color preservative and inhibitor of non-enzymatic browning of dehydrated tomatoes during storage. Uses: ·Food industry: (1) role of protective colloid or stabilizer; (2) adhesiveness of aqueous solution; (3) thickening ·Medicine: Gum arabic is mainly used as a suspending and emulsifying agent in oral and topical pharmaceutical preparations ·Printing industry: for wiping printing layouts ·Adhesives: used for bonding paper, wood, ceramics, glass, etc. Group: Plant Hydrocolloids. CAS No. 9000-1-5. Purity: 1.35 g/mL. Density: Water: soluble. | |
Gum arabic derived from locust, spray dried, loss : ≤10 % loss on drying Quick inquiry Where to buy Suppliers range | Gum arabic (GA) is a mixture of polysaccharides and glycoproteins (GP) with properties of glue and adhesive. Gum arabic readily dissolves in water, forming a clear solution ranging in color from very pale yellow to orange-brown at a pH of about 4.5. GA is used as an emulsifier and thickener in icings, fillings, chewing gum and other confections. GA was more effective in inhibiting non-enzymatic browning and as a color preservative in dehydrated tomatoes. The addition of GA significantly improved the color stability of anthocyanins; the efficacy decreased with increasing concentrations due to changes in the conformation of the gum molecules that hindered their contact with anthocyanins. Gum arabic was found to be an excellent color preservative and inhibitor of non-enzymatic browning of dehydrated tomatoes during storage. Uses: ·Food industry: (1) role of protective colloid or stabilizer; (2) adhesiveness of aqueous solution; (3) thickening ·Medicine: Gum arabic is mainly used as a suspending and emulsifying agent in oral and topical pharmaceutical preparations ·Printing industry: for wiping printing layouts ·Adhesives: used for bonding paper, wood, ceramics, glass, etc. Group: Plant Hydrocolloids. CAS No. 9000-1-5. Purity: 1.35 g/mL. Density: Water soluble. Aqueous solution is acidic to litmus. | |
Gum Arabic, Granular, Hand selected fine, Light yellow Quick inquiry Where to buy Suppliers range | Gum arabic (GA) is a mixture of polysaccharides and glycoproteins (GP) with properties of glue and adhesive. Gum arabic readily dissolves in water, forming a clear solution ranging in color from very pale yellow to orange-brown at a pH of about 4.5. GA is used as an emulsifier and thickener in icings, fillings, chewing gum and other confections. GA was more effective in inhibiting non-enzymatic browning and as a color preservative in dehydrated tomatoes. The addition of GA significantly improved the color stability of anthocyanins; the efficacy decreased with increasing concentrations due to changes in the conformation of the gum molecules that hindered their contact with anthocyanins. Gum arabic was found to be an excellent color preservative and inhibitor of non-enzymatic browning of dehydrated tomatoes during storage. Uses: ·Food industry: (1) role of protective colloid or stabilizer; (2) adhesiveness of aqueous solution; (3) thickening ·Medicine: Gum arabic is mainly used as a suspending and emulsifying agent in oral and topical pharmaceutical preparations ·Printing industry: for wiping printing layouts ·Adhesives: used for bonding paper, wood, ceramics, glass, etc. Group: Plant Hydrocolloids. CAS No. 9000-1-5. Purity: 1.35 g/mL. Density: Water soluble. Aqueous solution is acidic to litmus. | |
gum arabic, hand-selected delicate, light yellow Quick inquiry Where to buy Suppliers range | Gum arabic (GA) is a mixture of polysaccharides and glycoproteins (GP) with properties of glue and adhesive. Gum arabic readily dissolves in water, forming a clear solution ranging in color from very pale yellow to orange-brown at a pH of about 4.5. GA is used as an emulsifier and thickener in icings, fillings, chewing gum and other confections. GA was more effective in inhibiting non-enzymatic browning and as a color preservative in dehydrated tomatoes. The addition of GA significantly improved the color stability of anthocyanins; the efficacy decreased with increasing concentrations due to changes in the conformation of the gum molecules that hindered their contact with anthocyanins. Gum arabic was found to be an excellent color preservative and inhibitor of non-enzymatic browning of dehydrated tomatoes during storage. Uses: ·Food industry: (1) role of protective colloid or stabilizer; (2) adhesiveness of aqueous solution; (3) thickening ·Medicine: Gum arabic is mainly used as a suspending and emulsifying agent in oral and topical pharmaceutical preparations ·Printing industry: for wiping printing layouts ·Adhesives: used for bonding paper, wood, ceramics, glass, etc. Group: Plant Hydrocolloids. CAS No. 9000-1-5. Purity: 1.35 g/mL. Density: Water soluble. Aqueous solution is acidic to litmus. | |
Gum Arabic, Industrial grade Quick inquiry Where to buy Suppliers range | Gum arabic (GA) is a mixture of polysaccharides and glycoproteins (GP) with properties of glue and adhesive. Gum arabic readily dissolves in water, forming a clear solution ranging in color from very pale yellow to orange-brown at a pH of about 4.5. GA is used as an emulsifier and thickener in icings, fillings, chewing gum and other confections. GA was more effective in inhibiting non-enzymatic browning and as a color preservative in dehydrated tomatoes. The addition of GA significantly improved the color stability of anthocyanins; the efficacy decreased with increasing concentrations due to changes in the conformation of the gum molecules that hindered their contact with anthocyanins. Gum arabic was found to be an excellent color preservative and inhibitor of non-enzymatic browning of dehydrated tomatoes during storage. Uses: ·Food industry: (1) role of protective colloid or stabilizer; (2) adhesiveness of aqueous solution; (3) thickening ·Medicine: Gum arabic is mainly used as a suspending and emulsifying agent in oral and topical pharmaceutical preparations ·Printing industry: for wiping printing layouts ·Adhesives: used for bonding paper, wood, ceramics, glass, etc. Group: Plant Hydrocolloids. CAS No. 9000-1-5. Purity: 1.35 g/mL. Density: Water soluble. Aqueous solution is acidic to litmus. | |
Gum Arabic, Pharmaceutical grade Quick inquiry Where to buy Suppliers range | Gum arabic (GA) is a mixture of polysaccharides and glycoproteins (GP) with properties of glue and adhesive. Gum arabic readily dissolves in water, forming a clear solution ranging in color from very pale yellow to orange-brown at a pH of about 4.5. GA is used as an emulsifier and thickener in icings, fillings, chewing gum and other confections. GA was more effective in inhibiting non-enzymatic browning and as a color preservative in dehydrated tomatoes. The addition of GA significantly improved the color stability of anthocyanins; the efficacy decreased with increasing concentrations due to changes in the conformation of the gum molecules that hindered their contact with anthocyanins. Gum arabic was found to be an excellent color preservative and inhibitor of non-enzymatic browning of dehydrated tomatoes during storage. Uses: ·Use as an emulsifier to determine lipase activity in shrimp ·For visualization of mossy fiber sprouting ·As an immunogen and coats microtiter wells in Plate ·Capture Antigen ELISA (PTA-ELISA) ·Silver enhancement for immunohistochemistry ·As part of Timm's staining solution ·In nitrocellulose-based soil adhesion assays ·Separation of Few Graphene (FLG) from Bulk Graphite Layers. Group: Plant Hydrocolloids. CAS No. 9000-1-5. Purity: 1.35 g/mL. Density: Water soluble. Aqueous solution is acidic to litmus. | |
Gum arabic, Powder, derived from the trunk exudate of the genus Acacia Quick inquiry Where to buy Suppliers range | Gum arabic (GA) is a mixture of polysaccharides and glycoproteins (GP) with properties of glue and adhesive. Gum arabic readily dissolves in water, forming a clear solution ranging in color from very pale yellow to orange-brown at a pH of about 4.5. GA is used as an emulsifier and thickener in icings, fillings, chewing gum and other confections. GA was more effective in inhibiting non-enzymatic browning and as a color preservative in dehydrated tomatoes. The addition of GA significantly improved the color stability of anthocyanins; the efficacy decreased with increasing concentrations due to changes in the conformation of the gum molecules that hindered their contact with anthocyanins. Gum arabic was found to be an excellent color preservative and inhibitor of non-enzymatic browning of dehydrated tomatoes during storage. Uses: ·Food industry: (1) role of protective colloid or stabilizer; (2) adhesiveness of aqueous solution; (3) thickening ·Medicine: Gum arabic is mainly used as a suspending and emulsifying agent in oral and topical pharmaceutical preparations ·Printing industry: for wiping printing layouts ·Adhesives: used for bonding paper, wood, ceramics, glass, etc. Group: Plant Hydrocolloids. CAS No. 9000-1-5. Purity: 1.35 g/mL. Density: Water soluble. Aqueous solution is acidic to litmus. | |
Heparinase I Quick inquiry Where to buy Suppliers range | This enzyme selectively cleaves highly sulfated polysaccharide chains containing 1-4 linkages between N-sulfated glucaoamine and 2-O-sulfated iduronic acid. It cleaves heparin sulfate but only to a limited extent in the sulfated zone. It also cleaves the antithrombin III pentasaccharide unit in the heparin molecule. Optimum pH 7.0-7.6. Stabilised with 0.2-0.4% BSA, 0.22 μm sterile filtered and dispensed into sterile tubes/vials. Synonyms: Native Flavobacterium Heparinum Heparinase I; EC 4.2.2.7; Heparinase I; Heparin Eliminase; Heparinase; Heparin Lyase; Heparinase I From Bacteroides Eggerthii, Recombinant. Grades: 95%. CAS No. 9025-39-2. Mole weight: 42.8 kDa. | |
Heparinase II from Flavobacterium heparinum Quick inquiry Where to buy Suppliers range | This enzyme cleaves most links in heparin and heparin sulfate. It is relatively non-specific for 1-4 links in sulfated polysaccharide chains between hexosamines and glucuronic acid plus iduronic acids, but does not fully depolymerise either. Optimum pH 7.0-7.6. Stabilised with 0.2-0.4% BSA, 0.22 μm sterile filtered and dispensed into sterile tubes/vials. Synonyms: Heparinase II; Heparin lyase II; EC 4.2.2.8. CAS No. 149371-12-0. Mole weight: 84.1 kDa. | |
Inulin-13C Quick inquiry Where to buy Suppliers range | Inulin molecule is a linear linear polysaccharide composed of D-fructofuranose molecules connected by β (2?1) bonds, and glucose molecules are often located at the end of each fructose chain. Inulin has a degree of polymerization (DP) of 2-60. The degree of polymerization and the presence of branching are important attributes affecting the functionality of inulin, including solubility, thermostability, sweetness, and probiotic activity. Due to the existence of β(2?1) bonds in the fructose monomer, inulin polysaccharides can resist the hydrolysis of digestive enzymes in the human digestive tract and will not be digested like typical carbohydrates. Uses: ·Biochemical research: culture medium, kidney function diagnosis ·Food processing, functional health food ·Used in medicine to test the glomerular filtration capacity of the kidneys. Group: Plant Hydrocolloids. CAS No. 9005-80-5. Molecular Weight: 504.43708 g/mol. Boiling Point: 176-181 °C. Flash Point: ≥97 atom % 13C. Purity: 1.35 g/cm3. Density: Soluble in hot water and solutions of dilute acids and alkalis; slightly soluble in cold water and organic solvents. | |
Inulin, 90 % Quick inquiry Where to buy Suppliers range | Inulin molecule is a linear linear polysaccharide composed of D-fructofuranose molecules connected by β (2?1) bonds, and glucose molecules are often located at the end of each fructose chain. Inulin has a degree of polymerization (DP) of 2-60. The degree of polymerization and the presence of branching are important attributes affecting the functionality of inulin, including solubility, thermostability, sweetness, and probiotic activity. Due to the existence of β(2?1) bonds in the fructose monomer, inulin polysaccharides can resist the hydrolysis of digestive enzymes in the human digestive tract and will not be digested like typical carbohydrates. Uses: ·Biochemical research: culture medium, kidney function diagnosis ·Food processing, functional health food ·Used in medicine to test the glomerular filtration capacity of the kidneys. Group: Plant Hydrocolloids. CAS No. 9005-80-5. Molecular Weight: 504.43708 g/mol. Boiling Point: 176-181 °C. Flash Point: 90 %. Purity: 1.35 g/cm3. Density: Soluble in hot water and solutions of dilute acids and alkalis; slightly soluble in cold water and organic solvents. | |
Inulin, 95 % Quick inquiry Where to buy Suppliers range | Inulin molecule is a linear linear polysaccharide composed of D-fructofuranose molecules connected by β (2?1) bonds, and glucose molecules are often located at the end of each fructose chain. Inulin has a degree of polymerization (DP) of 2-60. The degree of polymerization and the presence of branching are important attributes affecting the functionality of inulin, including solubility, thermostability, sweetness, and probiotic activity. Due to the existence of β(2?1) bonds in the fructose monomer, inulin polysaccharides can resist the hydrolysis of digestive enzymes in the human digestive tract and will not be digested like typical carbohydrates. Uses: ·Biochemical research: culture medium, kidney function diagnosis ·Food processing, functional health food ·Used in medicine to test the glomerular filtration capacity of the kidneys. Group: Plant Hydrocolloids. CAS No. 9005-80-5. Molecular Weight: 504.43708 g/mol. Boiling Point: 176-181 °C. Flash Point: 95 %. Purity: 1.35 g/cm3. Density: Soluble in hot water and solutions of dilute acids and alkalis; slightly soluble in cold water and organic solvents. | |
Inulin, Biochemical grade Quick inquiry Where to buy Suppliers range | Inulin molecule is a linear linear polysaccharide composed of D-fructofuranose molecules connected by β (2?1) bonds, and glucose molecules are often located at the end of each fructose chain. Inulin has a degree of polymerization (DP) of 2-60. The degree of polymerization and the presence of branching are important attributes affecting the functionality of inulin, including solubility, thermostability, sweetness, and probiotic activity. Due to the existence of β(2?1) bonds in the fructose monomer, inulin polysaccharides can resist the hydrolysis of digestive enzymes in the human digestive tract and will not be digested like typical carbohydrates. Uses: ·Biochemical research: culture medium, kidney function diagnosis ·Food processing, functional health food ·Used in medicine to test the glomerular filtration capacity of the kidneys. Group: Plant Hydrocolloids. CAS No. 9005-80-5. Molecular Weight: 504.43708 g/mol. Boiling Point: 176-181 °C. Purity: 1.35 g/cm3. Density: Soluble in hot water and solutions of dilute acids and alkalis; slightly soluble in cold water and organic solvents. | |
Inulin, Bioreagent Quick inquiry Where to buy Suppliers range | Inulin molecule is a linear linear polysaccharide composed of D-fructofuranose molecules connected by β (2?1) bonds, and glucose molecules are often located at the end of each fructose chain. Inulin has a degree of polymerization (DP) of 2-60. The degree of polymerization and the presence of branching are important attributes affecting the functionality of inulin, including solubility, thermostability, sweetness, and probiotic activity. Due to the existence of β(2?1) bonds in the fructose monomer, inulin polysaccharides can resist the hydrolysis of digestive enzymes in the human digestive tract and will not be digested like typical carbohydrates. Uses: ·Biochemical research: culture medium, kidney function diagnosis ·Food processing, functional health food ·Used in medicine to test the glomerular filtration capacity of the kidneys. Group: Plant Hydrocolloids. CAS No. 9005-80-5. Molecular Weight: 504.43708 g/mol. Boiling Point: 176-181 °C. Purity: 1.35 g/cm3. Density: Soluble in hot water and solutions of dilute acids and alkalis; slightly soluble in cold water and organic solvents. | |
Inulin from chicory Quick inquiry Where to buy Suppliers range | Inulin molecule is a linear linear polysaccharide composed of D-fructofuranose molecules connected by β (2?1) bonds, and glucose molecules are often located at the end of each fructose chain. Inulin has a degree of polymerization (DP) of 2-60. The degree of polymerization and the presence of branching are important attributes affecting the functionality of inulin, including solubility, thermostability, sweetness, and probiotic activity. Due to the existence of β(2?1) bonds in the fructose monomer, inulin polysaccharides can resist the hydrolysis of digestive enzymes in the human digestive tract and will not be digested like typical carbohydrates. Uses: ·Biochemical research: culture medium, kidney function diagnosis ·Food processing, functional health food ·Used in medicine to test the glomerular filtration capacity of the kidneys. Group: Plant Hydrocolloids. CAS No. 9005-80-5. Molecular Weight: 504.43708 g/mol. Boiling Point: 176-181 °C. Purity: 1.35 g/cm3. Density: Soluble in hot water and solutions of dilute acids and alkalis; slightly soluble in cold water and organic solvents. | |
Inulin from dahlia tubers Quick inquiry Where to buy Suppliers range | Inulin molecule is a linear linear polysaccharide composed of D-fructofuranose molecules connected by β (2?1) bonds, and glucose molecules are often located at the end of each fructose chain. Inulin has a degree of polymerization (DP) of 2-60. The degree of polymerization and the presence of branching are important attributes affecting the functionality of inulin, including solubility, thermostability, sweetness, and probiotic activity. Due to the existence of β(2?1) bonds in the fructose monomer, inulin polysaccharides can resist the hydrolysis of digestive enzymes in the human digestive tract and will not be digested like typical carbohydrates. Uses: ·Biochemical research: culture medium, kidney function diagnosis ·Food processing, functional health food ·Used in medicine to test the glomerular filtration capacity of the kidneys. Group: Plant Hydrocolloids. CAS No. 9005-80-5. Molecular Weight: 504.43708 g/mol. Boiling Point: 176-181 °C. Purity: 1.35 g/cm3. Density: Soluble in hot water and solutions of dilute acids and alkalis; slightly soluble in cold water and organic solvents. | |
Inulin, ≥98 % Quick inquiry Where to buy Suppliers range | Inulin molecule is a linear linear polysaccharide composed of D-fructofuranose molecules connected by β (2?1) bonds, and glucose molecules are often located at the end of each fructose chain. Inulin has a degree of polymerization (DP) of 2-60. The degree of polymerization and the presence of branching are important attributes affecting the functionality of inulin, including solubility, thermostability, sweetness, and probiotic activity. Due to the existence of β(2?1) bonds in the fructose monomer, inulin polysaccharides can resist the hydrolysis of digestive enzymes in the human digestive tract and will not be digested like typical carbohydrates. Uses: ·Biochemical research: culture medium, kidney function diagnosis ·Food processing, functional health food ·Used in medicine to test the glomerular filtration capacity of the kidneys. Group: Plant Hydrocolloids. CAS No. 9005-80-5. Molecular Weight: 504.43708 g/mol. Boiling Point: 176-181 °C. Flash Point: ≥98 %. Purity: 1.35 g/cm3. Density: Soluble in hot water and solutions of dilute acids and alkalis; slightly soluble in cold water and organic solvents. | |
Ι-Carrageenan, commercial grade, Type II Quick inquiry Where to buy Suppliers range | Ι-Carrageenan has many advantages over κ-Carrageenan. The gel formed by the interaction of Ι-Carrageenan with calcium ions is soft, elastic, thixotropic and anti-melt stable, and also has good water retention. Ι-Carrageenan is soluble in hot water and its sodium salt is soluble in cold water. However, Ι-Carrageenan is hardly soluble or insoluble in cold milk, mainly because the higher the content of 3,6-lactone-galactose and the lower the content of sulfate group, the more difficult it is to dissolve in cold milk. Both Ι-Carrageenan and λ-Carrageenan are insoluble in organic solvents. As a renewable natural polysaccharide polymer, Ι-Carrageenan has the advantages of naturalness, safety and abundant sources, and is widely used in the fields of food, cosmetics, biomedicine and paints and coatings. Uses: ·Adhesives, thickeners, emulsifiers and stabilizers in the food industry ·Culture medium, medicament, anticoagulant, hypolipidemic agent and laxative in the field of medicine ·Used as an antistatic agent for photosensitive emulsions and photosensitive emulsion layers ·Embedding material for immobilized enzyme carrier and bacteria ·For leather industry, ceramic industry, textile industry and paper industry. Group: Plant Hydrocolloids. CAS No. 9062-7-1. Molecular Weight: 788.66 g/mol. Density: H2O: 5 mg/mL hot, soluble. | |
κ-carrageenan Quick inquiry Where to buy Suppliers range | Carrageenan is a hydrophilic colloid that is extracted from red algae seaweeds such as unicornia, celery, and carrageen. Their chemical structures are calcium, potassium, sodium and ammonium salts of polysaccharide sulfates composed of galactose and anhydrogalactose. Carrageenan can be divided into 7 types, including K-type (Kappa), I-type (Iota), and L-type (Lambda), according to the different positions where the half-ester sulfate group is attached to galactose. The gel properties of carrageenan are mainly related to its chemical composition, structure and molecular size. Based on the properties of carrageenan, they are widely used in the food industry, medicine and other fields. Uses: ·Adhesives, thickeners, emulsifiers and stabilizers in the food industry ·Culture medium, medicament, anticoagulant, hypolipidemic agent and laxative in the field of medicine ·Used as an antistatic agent for photosensitive emulsions and photosensitive emulsion layers ·Embedding material for immobilized enzyme carrier and bacteria ·For leather industry, ceramic industry, textile industry and paper industry. Group: Plant Hydrocolloids. CAS No. 11114-20-8. IUPAC Name: [(2R,3S,4R,5R,6S)-6-[[(1R,3S,4R,5R,8S)-3,4-dihydroxy-2,6-dioxabicyclo[3.2.1]octan-8-yl]oxy]-4-[[(1R,3R,4R,5R,8S)-8-[(2S,3R,4R,5R,6R)-3,4-dihydroxy-6-(hydroxymethyl)-5-sulfonatooxyoxan-2-yl]oxy-4-hydroxy-2,6-dioxabicyclo[3.2.1]octan-3-yl]oxy]-5-hydroxy-2-(hydroxymethyl)oxan-3-yl] sulfate. Molecular Weight: 788.66 g/mol. Molecular Formula: C24H36O25S2 -. SMILES: C1C2C (C (O1)C (C (O2)O)O)OC3C (C (C (C (O3)CO)OS (=O) (=O)[O-])OC4C (C5C (C (O4)CO5)OC6C (C (C (C (O6)CO)OS (=O) (=O)[O-])O)O)O)O. InChI: ZNOZWUKQPJXOIG-XSBHQQIPSA-L. Density: H2O: 5 mg/mL hot, soluble. | |
κ-Carrageenan, Powder Quick inquiry Where to buy Suppliers range | Carrageenan is a hydrophilic colloid that is extracted from red algae seaweeds such as unicornia, celery, and carrageen. Their chemical structures are calcium, potassium, sodium and ammonium salts of polysaccharide sulfates composed of galactose and anhydrogalactose. Carrageenan can be divided into 7 types, including K-type (Kappa), I-type (Iota), and L-type (Lambda), according to the different positions where the half-ester sulfate group is attached to galactose. The gel properties of carrageenan are mainly related to its chemical composition, structure and molecular size. Based on the properties of carrageenan, they are widely used in the food industry, medicine and other fields. Uses: ·Adhesives, thickeners, emulsifiers and stabilizers in the food industry ·Culture medium, medicament, anticoagulant, hypolipidemic agent and laxative in the field of medicine ·Used as an antistatic agent for photosensitive emulsions and photosensitive emulsion layers ·Embedding material for immobilized enzyme carrier and bacteria ·For leather industry, ceramic industry, textile industry and paper industry. Group: Plant Hydrocolloids. CAS No. 11114-20-8. Molecular Weight: 788.66 g/mol. Density: H2O: soluble 5 mg/mL (hot). | |
κ-refined carrageenan Quick inquiry Where to buy Suppliers range | Carrageenan is a hydrophilic colloid that is extracted from red algae seaweeds such as unicornia, celery, and carrageen. Their chemical structures are calcium, potassium, sodium and ammonium salts of polysaccharide sulfates composed of galactose and anhydrogalactose. Carrageenan can be divided into 7 types, including K-type (Kappa), I-type (Iota), and L-type (Lambda), according to the different positions where the half-ester sulfate group is attached to galactose. The gel properties of carrageenan are mainly related to its chemical composition, structure and molecular size. Based on the properties of carrageenan, they are widely used in the food industry, medicine and other fields. Uses: ·Adhesives, thickeners, emulsifiers and stabilizers in the food industry ·Culture medium, medicament, anticoagulant, hypolipidemic agent and laxative in the field of medicine ·Used as an antistatic agent for photosensitive emulsions and photosensitive emulsion layers ·Embedding material for immobilized enzyme carrier and bacteria ·For leather industry, ceramic industry, textile industry and paper industry. Group: Plant Hydrocolloids. CAS No. 11114-20-8. Molecular Weight: 788.66 g/mol. Density: H2O: 5 mg/mL hot, soluble. | |
κ-semi-refined carrageenan Quick inquiry Where to buy Suppliers range | Carrageenan is a hydrophilic colloid that is extracted from red algae seaweeds such as unicornia, celery, and carrageen. Their chemical structures are calcium, potassium, sodium and ammonium salts of polysaccharide sulfates composed of galactose and anhydrogalactose. Carrageenan can be divided into 7 types, including K-type (Kappa), I-type (Iota), and L-type (Lambda), according to the different positions where the half-ester sulfate group is attached to galactose. The gel properties of carrageenan are mainly related to its chemical composition, structure and molecular size. Based on the properties of carrageenan, they are widely used in the food industry, medicine and other fields. Uses: ·Adhesives, thickeners, emulsifiers and stabilizers in the food industry ·Culture medium, medicament, anticoagulant, hypolipidemic agent and laxative in the field of medicine ·Used as an antistatic agent for photosensitive emulsions and photosensitive emulsion layers ·Embedding material for immobilized enzyme carrier and bacteria ·For leather industry, ceramic industry, textile industry and paper industry. Group: Plant Hydrocolloids. CAS No. 11114-20-8. Molecular Weight: 788.66 g/mol. Density: H2O: 5 mg/mL hot, soluble. | |
L-Arabinose Quick inquiry Where to buy Suppliers range | L(+)-Arabinose is a pentose monosaccharide whose transcription is regulated by Ara-C proteins and is a substrate for L-arabinose dehydrogenase, galactose dehydrogenase. It is not fermented by yeast. Used as a one-way or reversible switch for protein expression. It is also used to make arabinosyl nucleosides. L-Arabinose is used as a substrate to identify, differentiate and characterize pentose sugar isomerase(s). L-Arabinose is used in the bioproduction of L-ribose. L-Arabinose is the naturally occurring isomer and is a constituent of plant polysaccharides. Most bacteria contain an inducible arabinose operon that codes for a series of enzymes and transporters that allows L-arabinose to be used as the sole carbon source in microbial culture. Group: Biochemicals. Alternative Names: Beta-L-Arabinopyranose; Beta-L-(+)-ARABINOSE; L-(+)-Arabinose; Pectinose; Arabitol, L-(-)-(RG); L-Arabinopyranose; (2R,3R,4S,5S)-oxane-2,3,4,5-tetrol. Grades: Reagent Grade. CAS No. 87-72-9. Pack Sizes: 100g, 500g, 1Kg, 2.5Kg. Molecular Formula:?C5H10O5 , Molecular Weight:?150.13. US Biological Life Sciences. | Worldwide |
Noble agar Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Density: H2O: 1.5 % with heat. | |
Purified agar, BioReagent,gel strength(400 g/cm2) Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Density: H2O: 1.5 % with heat. | |
Sea cucumber peptide Quick inquiry Where to buy Suppliers range | Sea cucumber peptide is a product of wild sea cucumber as raw material and processed by enzymatic hydrolysis technology. Sea cucumber peptide contains rich polypeptide, sea cucumber polysaccharide and other components. Uses: Used for research and manufacturing. Group: Protein Peptides. Product ID: CDF4-0247. | |
Select agar Quick inquiry Where to buy Suppliers range | Agar is a galactose-based heteropolysaccharide derived from red algae. It is a heterogeneous polysaccharide composed of agarose and agarose polymers. A typical agar composition is 70% agarose and 30% agarose. Agarose is a linear (no branch point) polysaccharide composed of repeating galactobiose. Agar gels are more diverse in composition, containing D and L isomers of galactose, with sulfate and pyruvate substituents that give the polymer a strong negative charge. Agar is the most widely known growth medium for microbial identification and enumeration. Agar gels are reversible (melt at 85°C and solidify at 32-40°C) and translucent. The properties of agar are similar to gelatin. It is a good substitute for animal-based gelatin in vegan foods. Agar is also a polymer used to make dental impressions. Uses: ·Used as food thickener, silk sizing agent, laxative ·Adhesives, thickeners and capsules for pharmaceuticals ·As bacterial culture medium, immobilized enzyme carrier, bacterial encapsulation material and electrophoresis medium ·For filtration separation of viruses, subcellular particles and macromolecules ·For observation of serum antigens or antibodies. Group: Plant Hydrocolloids. CAS No. 9002-18-0. Molecular Weight: 336.33 g/mol. Boiling Point: 85-95 °C. Density: H2O: 1.5 % with heat. | |
UDP-a-L-rhamnose Quick inquiry Where to buy Suppliers range | UDP-α-L-rhamnose is a vital biomolecule prevalent in the biomedical sector, holding a noteworthy function in the biosynthesis of glycolipids, polysaccharides and natural products. Displaying its extraordinary aptitude as a sugar donor, this compound becomes indispensable in the enzymatic process of synthesizing multifaceted carbohydrates. Notably, UDP-α-L-rhamnose acts as a precursor for generating glycoconjugates containing rhamnose, used to study infectious ailments. Synonyms: Uridine 5-[3-(6-deoxy-L-mannopyranosyl) dihydrogen diphosphate]; Uridine 5-[3-(L-rhamnopyranosyl) dihydrogen diphosphate]. CAS No. 30174-43-7. Molecular formula: C15H24N2O16P2. Mole weight: 550.30. | |
Xanthan from Xanthomonas campestris Quick inquiry Where to buy Suppliers range | Xanthan gum is a monospore polysaccharide produced by the fermentation of Pseudomonas sp. It is made of carbohydrates as the main raw material from the cabbage black rot Xanthomonas spp. through aerobic fermentation bioengineering technology to cut 1,6 - Glycosidic bond, after opening the branched chain, an acidic extracellular polysaccharide composed of straight chains is synthesized by 1,4-bond. The structure and conformation of xanthan gum determine the functional properties of its solution: the complex aggregated structure and intermolecular forces of xanthan gum determine that its solution has high viscosity at low shear and low concentration, and is more viscous than other polysaccharide solutions. High modulus, as well as pseudoplastic behavior; Xanthan gum has hydrogen bonds, anions, and side chains entangled in the rigid and straight molecular chains of the molecular chain to protect the main chain, so that the solution has good heat and salt resistance. It also has good stability to acid-base and enzymatic hydrolysis. Due to its excellent physical and chemical properties, including high viscosity, thixotropy, and stability of dispersions, xanthan gum has been widely used in the food industry, oil extraction, coatings, and many other fields. Uses: ·Useful matrix components for drug delivery systems: functional components in microencapsulated drug capsules ·Used as food additives such as emulsion stabilizers and thickeners ·For drilling in the oil industry. Group: Microbial Hydrocolloids. CAS No. 11138-66-2. IUPAC Name: 2-(2, 4-diaminophenoxy)ethanol; dihydrochloride. Molecular Weight: 241.11 g/mol. Molecular Formula: C8H14Cl2N2O2. SMILES: C1=CC(=C(C=C1N)N)OCCO.Cl.Cl. InChI: VXYWXJXCQSDNHX-UHFFFAOYSA-N. Boiling Point: 64.43 °C. Density: Soluble in water giving a highly viscous solution, practically insoluble in organic solvents. | |
Xanthan from Xanthomonas campestris, viscosity : 25-70 mPa.s Quick inquiry Where to buy Suppliers range | Xanthan gum is a monospore polysaccharide produced by the fermentation of Pseudomonas sp. It is made of carbohydrates as the main raw material from the cabbage black rot Xanthomonas spp. through aerobic fermentation bioengineering technology to cut 1,6 - Glycosidic bond, after opening the branched chain, an acidic extracellular polysaccharide composed of straight chains is synthesized by 1,4-bond. The structure and conformation of xanthan gum determine the functional properties of its solution: the complex aggregated structure and intermolecular forces of xanthan gum determine that its solution has high viscosity at low shear and low concentration, and is more viscous than other polysaccharide solutions. High modulus, as well as pseudoplastic behavior; Xanthan gum has hydrogen bonds, anions, and side chains entangled in the rigid and straight molecular chains of the molecular chain to protect the main chain, so that the solution has good heat and salt resistance. It also has good stability to acid-base and enzymatic hydrolysis. Due to its excellent physical and chemical properties, including high viscosity, thixotropy, and stability of dispersions, xanthan gum has been widely used in the food industry, oil extraction, coatings, and many other fields. Uses: ·Useful matrix components for drug delivery systems: functional components in microencapsulated drug capsules ·Used as food additives such as emulsion stabilizers and thickeners ·For drilling in the oil industry. Group: Microbial Hydrocolloids. CAS No. 11138-66-2. Molecular Weight: 241.11 g/mol. Boiling Point: 64.43 °C. Density: Soluble in water giving a highly viscous solution, practically insoluble in organic solvents. | |
Xanthan Gum, 80 mesh Quick inquiry Where to buy Suppliers range | Xanthan gum is a monospore polysaccharide produced by the fermentation of Pseudomonas sp. It is made of carbohydrates as the main raw material from the cabbage black rot Xanthomonas spp. through aerobic fermentation bioengineering technology to cut 1,6 - Glycosidic bond, after opening the branched chain, an acidic extracellular polysaccharide composed of straight chains is synthesized by 1,4-bond. The structure and conformation of xanthan gum determine the functional properties of its solution: the complex aggregated structure and intermolecular forces of xanthan gum determine that its solution has high viscosity at low shear and low concentration, and is more viscous than other polysaccharide solutions. High modulus, as well as pseudoplastic behavior; Xanthan gum has hydrogen bonds, anions, and side chains entangled in the rigid and straight molecular chains of the molecular chain to protect the main chain, so that the solution has good heat and salt resistance. It also has good stability to acid-base and enzymatic hydrolysis. Due to its excellent physical and chemical properties, including high viscosity, thixotropy, and stability of dispersions, xanthan gum has been widely used in the food industry, oil extraction, coatings, and many other fields. Uses: ·Useful matrix components for drug delivery systems: functional components in microencapsulated drug capsules ·Used as food additives such as emulsion stabilizers and thickeners ·For drilling in the oil industry. Group: Microbial Hydrocolloids. CAS No. 11138-66-2. Molecular Weight: 241.11 g/mol. Boiling Point: 64.43 °C. Density: Soluble in water giving a highly viscous solution, practically insoluble in organic solvents. | |
Xanthan Gum, 85% Quick inquiry Where to buy Suppliers range | Xanthan gum is a monospore polysaccharide produced by the fermentation of Pseudomonas sp. It is made of carbohydrates as the main raw material from the cabbage black rot Xanthomonas spp. through aerobic fermentation bioengineering technology to cut 1,6 - Glycosidic bond, after opening the branched chain, an acidic extracellular polysaccharide composed of straight chains is synthesized by 1,4-bond. The structure and conformation of xanthan gum determine the functional properties of its solution: the complex aggregated structure and intermolecular forces of xanthan gum determine that its solution has high viscosity at low shear and low concentration, and is more viscous than other polysaccharide solutions. High modulus, as well as pseudoplastic behavior; Xanthan gum has hydrogen bonds, anions, and side chains entangled in the rigid and straight molecular chains of the molecular chain to protect the main chain, so that the solution has good heat and salt resistance. It also has good stability to acid-base and enzymatic hydrolysis. Due to its excellent physical and chemical properties, including high viscosity, thixotropy, and stability of dispersions, xanthan gum has been widely used in the food industry, oil extraction, coatings, and many other fields. Uses: ·Useful matrix components for drug delivery systems: functional components in microencapsulated drug capsules ·Used as food additives such as emulsion stabilizers and thickeners ·For drilling in the oil industry. Group: Microbial Hydrocolloids. CAS No. 11138-66-2. Molecular Weight: 241.11 g/mol. Boiling Point: 64.43 °C. Flash Point: 85 %. Density: Soluble in water giving a highly viscous solution, practically insoluble in organic solvents. |