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D-Mannose is a C-2 superpolymer of glucose that occurs naturally in many plants and fruits. D-Mannose has anti-inflammatory and antitumor activity. D-Mannose plays an important role in immune regulation .
D-Mannose isomerase (PsMaSeAF) is a carbohydrate isomerase catalyzing the reversible isomerization of d-mannose to d-fructose. D-Mannose isomerase (PsMaSeAF) belongs to the N-acylglucosamine 2-epimerase (AGE) superfamily along with AGE, cellobiose 2-epimerase (CE), and aldose-ketose isomerase (AKI) .
D-Mannose (Standard) is the analytical standard of D-Mannose. This product is intended for research and analytical applications. D-Mannose is a C-2 superpolymer of glucose that occurs naturally in many plants and fruits. D-Mannose has anti-inflammatory and antitumor activity. D-Mannose plays an important role in immune regulation .
D-Mannose-d is the deuterium labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-Mannose- 18O is the 18O labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-Mannose- 13C is the 13C labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-Mannose-d-3 is the deuterium labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-Mannose-d-4 is the deuterium labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-Mannose-d-1 is the deuterium labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-Mannose-d-2 is the deuterium labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-mannose-d7 is the deuterium labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-Mannose- 13C-1 is the 13C labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-Mannose- 13C-2 is the 13C labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-Mannose- 13C-3 is the 13C labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-Mannose- 13C-4 is the 13C labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-Mannose- 13C-5 is the 13C labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-Mannose- 13C,d is the deuterium and 13C labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-Mannose- 13C,d-2 is the deuterium and 13C labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-mannose- 13C6,d7 is the deuterium and 13C labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-Mannose-6-phosphate (disodium) is a class of biochemical reagents used in glycobiology research. Glycobiology studies the structure, synthesis, biology, and evolution of sugars. It involves carbohydrate chemistry, enzymology of glycan formation and degradation, protein-glycan recognition, and the role of glycans in biological systems. This field is closely related to basic research, biomedicine, and biotechnology .
D-Mannose,6-(dihydrogen phosphate) (sodium) is a class of biochemical reagents used in glycobiology research. Glycobiology studies the structure, synthesis, biology, and evolution of sugars. It involves carbohydrate chemistry, enzymology of glycan formation and degradation, protein-glycan recognition, and the role of glycans in biological systems. This field is closely related to basic research, biomedicine, and biotechnology .
D-Mannose,3-amino-3-deoxy (hydrochloride) is a class of biochemical reagents used in glycobiology research. Glycobiology studies the structure, synthesis, biology, and evolution of sugars. It involves carbohydrate chemistry, enzymology of glycan formation and degradation, protein-glycan recognition, and the role of glycans in biological systems. This field is closely related to basic research, biomedicine, and biotechnology .
2,3,4,6-Tetra-O-benzoyl-D-mannopyranose is a biochemical reagent that can be used as a biological material or organic compound for life science related research.
Glycosidase-IN-1 (Compound 9) is a glycosidase inhibitor synthesized from D-mannose. Glycosidase-IN-1 be used to synthesize some immunosuppressive agents and β-glucosidase inhibitors. Glycosidase-IN-1 has hypoglycemic activity .
GDP-D-mannose disodium contains GDP-α-D-mannose (HY-N7389B) and GDP-β-D-mannose. GDP-α-D-mannose is the donor substrate for mannosyltransferases and the precursor of GDP-β-L-fucose. GDP-α-D-mannose gives a competitive inhibition with respect to GTP (Ki 14.7 μM) and an uncompetitive inhibition with respect to mannose-1-P (Ki 115 μM) .
GDP-α-D-mannose disodium is the donor substrate for mannosyltransferases and the precursor of GDP-β-L-fucose. GDP-α-D-mannose disodium gives a competitive inhibition with respect to GTP (Ki 14.7 μM) and an uncompetitive inhibition with respect to mannose-1-P (Ki 115 μM) .
Azido-PEG4-alpha-D-mannose is a PEG-based PROTAC linker that can be used in the synthesis of PROTACs . Azido-PEG4-alpha-D-mannose is a click chemistry reagent, it contains an Azide group and can undergo copper-catalyzed azide-alkyne cycloaddition reaction (CuAAc) with molecules containing Alkyne groups. It can also undergo strain-promoted alkyne-azide cycloaddition (SPAAC) reactions with molecules containing DBCO or BCN groups.
Acetofluoro-α-D-mannose is a class of biochemical reagents used in glycobiology research. Glycobiology studies the structure, synthesis, biology, and evolution of sugars. It involves carbohydrate chemistry, enzymology of glycan formation and degradation, protein-glycan recognition, and the role of glycans in biological systems. This field is closely related to basic research, biomedicine, and biotechnology .
D-Mannosamine hydrochloride is a six-carbon glycoamine that is an amino derivative of D-mannose. D-mannoamine plays a variety of important biological roles in cells .
3-O-(Phenylmethyl)-D-mannose is a class of biochemical reagents used in glycobiology research. Glycobiology studies the structure, synthesis, biology, and evolution of sugars. It involves carbohydrate chemistry, enzymology of glycan formation and degradation, protein-glycan recognition, and the role of glycans in biological systems. This field is closely related to basic research, biomedicine, and biotechnology .
4-Deoxy-4-fluoro-D-mannose is a class of biochemical reagents used in glycobiology research. Glycobiology studies the structure, synthesis, biology, and evolution of sugars. It involves carbohydrate chemistry, enzymology of glycan formation and degradation, protein-glycan recognition, and the role of glycans in biological systems. This field is closely related to basic research, biomedicine, and biotechnology .
3-Deoxy-3-fluoro-D-mannose is a class of biochemical reagents used in glycobiology research. Glycobiology studies the structure, synthesis, biology, and evolution of sugars. It involves carbohydrate chemistry, enzymology of glycan formation and degradation, protein-glycan recognition, and the role of glycans in biological systems. This field is closely related to basic research, biomedicine, and biotechnology .
6-O-α-D-Mannopyranosyl-D-mannose is a class of biochemical reagents used in glycobiology research. Glycobiology studies the structure, synthesis, biology, and evolution of sugars. It involves carbohydrate chemistry, enzymology of glycan formation and degradation, protein-glycan recognition, and the role of glycans in biological systems. This field is closely related to basic research, biomedicine, and biotechnology .
Anticancer agent 232 (compound 12f) is a glycohybrid designed using 1-azidoglycosides derived from d-glucose, d-galactose, and d-mannose. The IC50 values of anticancer agent 232 against MCF-7 and MDA-MB231 cells are 1.05 μM and 18.03 μM, respectively .
Antifungal agent 26, a Pradimicin A derivative, shows antifungal, antiviral, and antiparasitic activities through binding to d-mannose (Man)-containing glycans of pathogenic species .
D-Mannose-6-phosphate (disodium) is a class of biochemical reagents used in glycobiology research. Glycobiology studies the structure, synthesis, biology, and evolution of sugars. It involves carbohydrate chemistry, enzymology of glycan formation and degradation, protein-glycan recognition, and the role of glycans in biological systems. This field is closely related to basic research, biomedicine, and biotechnology .
D-Mannose,6-(dihydrogen phosphate) (sodium) is a class of biochemical reagents used in glycobiology research. Glycobiology studies the structure, synthesis, biology, and evolution of sugars. It involves carbohydrate chemistry, enzymology of glycan formation and degradation, protein-glycan recognition, and the role of glycans in biological systems. This field is closely related to basic research, biomedicine, and biotechnology .
D-Mannose,3-amino-3-deoxy (hydrochloride) is a class of biochemical reagents used in glycobiology research. Glycobiology studies the structure, synthesis, biology, and evolution of sugars. It involves carbohydrate chemistry, enzymology of glycan formation and degradation, protein-glycan recognition, and the role of glycans in biological systems. This field is closely related to basic research, biomedicine, and biotechnology .
2,3,4,6-Tetra-O-benzoyl-D-mannopyranose is a biochemical reagent that can be used as a biological material or organic compound for life science related research.
Acetofluoro-α-D-mannose is a class of biochemical reagents used in glycobiology research. Glycobiology studies the structure, synthesis, biology, and evolution of sugars. It involves carbohydrate chemistry, enzymology of glycan formation and degradation, protein-glycan recognition, and the role of glycans in biological systems. This field is closely related to basic research, biomedicine, and biotechnology .
3-O-(Phenylmethyl)-D-mannose is a class of biochemical reagents used in glycobiology research. Glycobiology studies the structure, synthesis, biology, and evolution of sugars. It involves carbohydrate chemistry, enzymology of glycan formation and degradation, protein-glycan recognition, and the role of glycans in biological systems. This field is closely related to basic research, biomedicine, and biotechnology .
4-Deoxy-4-fluoro-D-mannose is a class of biochemical reagents used in glycobiology research. Glycobiology studies the structure, synthesis, biology, and evolution of sugars. It involves carbohydrate chemistry, enzymology of glycan formation and degradation, protein-glycan recognition, and the role of glycans in biological systems. This field is closely related to basic research, biomedicine, and biotechnology .
3-Deoxy-3-fluoro-D-mannose is a class of biochemical reagents used in glycobiology research. Glycobiology studies the structure, synthesis, biology, and evolution of sugars. It involves carbohydrate chemistry, enzymology of glycan formation and degradation, protein-glycan recognition, and the role of glycans in biological systems. This field is closely related to basic research, biomedicine, and biotechnology .
6-O-α-D-Mannopyranosyl-D-mannose is a class of biochemical reagents used in glycobiology research. Glycobiology studies the structure, synthesis, biology, and evolution of sugars. It involves carbohydrate chemistry, enzymology of glycan formation and degradation, protein-glycan recognition, and the role of glycans in biological systems. This field is closely related to basic research, biomedicine, and biotechnology .
D-Mannose is a C-2 superpolymer of glucose that occurs naturally in many plants and fruits. D-Mannose has anti-inflammatory and antitumor activity. D-Mannose plays an important role in immune regulation .
GDP-D-mannose disodium contains GDP-α-D-mannose (HY-N7389B) and GDP-β-D-mannose. GDP-α-D-mannose is the donor substrate for mannosyltransferases and the precursor of GDP-β-L-fucose. GDP-α-D-mannose gives a competitive inhibition with respect to GTP (Ki 14.7 μM) and an uncompetitive inhibition with respect to mannose-1-P (Ki 115 μM) .
GDP-α-D-mannose disodium is the donor substrate for mannosyltransferases and the precursor of GDP-β-L-fucose. GDP-α-D-mannose disodium gives a competitive inhibition with respect to GTP (Ki 14.7 μM) and an uncompetitive inhibition with respect to mannose-1-P (Ki 115 μM) .
D-Mannosamine hydrochloride is a six-carbon glycoamine that is an amino derivative of D-mannose. D-mannoamine plays a variety of important biological roles in cells .
D-Mannose (Standard) is the analytical standard of D-Mannose. This product is intended for research and analytical applications. D-Mannose is a C-2 superpolymer of glucose that occurs naturally in many plants and fruits. D-Mannose has anti-inflammatory and antitumor activity. D-Mannose plays an important role in immune regulation .
FimH Protein, pivotal in regulating length, mediates adhesion for type 1 fimbriae without being essential for fimbriae production. Positioned laterally in the fimbriae structure, FimH primarily binds to D-mannose. FimH integration into fimbriae involves collaborative action with FimF and FimG, emphasizing the coordinated molecular interplay essential for type 1 fimbriae assembly and function. FimH Protein, E.coli (P.pastoris, His) is the recombinant Virus-derived FimH protein, expressed by P. pastoris , with N-6*His labeled tag. The total length of FimH Protein, E.coli (P.pastoris, His) is 279 a.a., with molecular weight (glycosylation form) of ~38 kDa.
GDP-L-Fucose Synthase; GDP-4-Keto-6-Deoxy-D-Mannose-3; 5-Epimerase-4-Reductase; Protein FX; Red Cell NADP(H)-Binding Protein; Short-Chain Dehydrogenase/Reductase Family 4E Member 1; TSTA3; SDR4E1
The TSTA3 protein plays a key role in catalyzing the two-step NADP-dependent conversion of GDP-4-dehydro-6-deoxy-D-mannose to GDP-fucose. The process involves successive epimerase and reductase reactions, ultimately leading to the biosynthesis of GDP-fucose. TSTA3 Protein, Human (His) is the recombinant human-derived TSTA3 protein, expressed by E. coli , with C-6*His labeled tag. The total length of TSTA3 Protein, Human (His) is 321 a.a., with molecular weight of ~40.0 kDa.
D-Mannose-d is the deuterium labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-Mannose- 18O is the 18O labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-Mannose- 13C is the 13C labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-Mannose-d-3 is the deuterium labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-Mannose-d-4 is the deuterium labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-Mannose-d-1 is the deuterium labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-Mannose-d-2 is the deuterium labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-mannose-d7 is the deuterium labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-Mannose- 13C-1 is the 13C labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-Mannose- 13C-2 is the 13C labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-Mannose- 13C-3 is the 13C labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-Mannose- 13C-4 is the 13C labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-Mannose- 13C-5 is the 13C labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-Mannose- 13C,d is the deuterium and 13C labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-Mannose- 13C,d-2 is the deuterium and 13C labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
D-mannose- 13C6,d7 is the deuterium and 13C labeled D-Mannose. D-Mannose is a carbohydrate, which plays an important role in human metabolism, especially in the glycosylationof specific prote[1][2].
Azido-PEG4-alpha-D-mannose is a PEG-based PROTAC linker that can be used in the synthesis of PROTACs . Azido-PEG4-alpha-D-mannose is a click chemistry reagent, it contains an Azide group and can undergo copper-catalyzed azide-alkyne cycloaddition reaction (CuAAc) with molecules containing Alkyne groups. It can also undergo strain-promoted alkyne-azide cycloaddition (SPAAC) reactions with molecules containing DBCO or BCN groups.
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