Glyco Reagents for Prebiotics

What is Prebiotics?
Milk Oligosaccharides (MO)
Oligosaccharides
Polysaccharides, Dietary Fibers
Monosaccharides, Sugar Alcohols, Organic Acids

What is Prebiotics?

The prebiotics concept was proposed by British microbiologist Gibson in 1995 as a “non-digestible food ingredient that beneficially affects the host by selectively stimulating the growth and/or activity of one or a limited number of bacteria already resident in the colon”. Specifically, it is defined as a food ingredient that has the following criteria:

It resists to host digestion (for example gastric acidity, hydrolysis by mammalian enzymes and gastrointestinal absorption).
It modulates the composition and/or activity of the gut microbiota.
It selectively stimulates the growth and/or activity of the intestinal beneficial bacteria.
It facilitates the health of the host.

In recent years, a number of fermentable carbohydrates have been reported to show a prebiotic effect. These include non-digestible oligosaccharides, polysaccharides, and dietary fibers, and some of them are known as ingredients involved in Japanese Food for Specified Health Uses (FOSHU). Various effects of prebiotics have been reported, such as the growth of beneficial bacteria in the intestine, intestinal function, enhance immune function, prevent allergic conditions, increase of mineral absorption, anti-tumor, anti-obesity, and prevention of arteriosclerosis.

Page Top

Milk Oligosaccharides (MO)

Milk oligosaccharides are milk components and oligosaccharides produced from them. They have long been studied as a factor that supports the growth of beneficial microorganisms in the body, and are used in foods and pharmaceuticals. In addition, human milk oligosaccharides (HMOs), which are contained in human breast milk, fulfill a variety of physiologic functions. Several studies have shown that HMOs are particularly important for the development of the newborn baby's intestinal microbiota and they can reduce the pathogen infections, support the immune system and improve the brain development.

Products

Page Top

Oligosaccharides

Oligosaccharides are well known as a widely used food ingredient of prebiotics. There are various types of oligosaccharides including soybean-oligosaccharides, fructo-oligosaccharides, milk-oligosaccharides, galacto-oligosaccharides, xylo-oligosaccharides, and isomalto-oligosaccharides. Many of them are approved as ingredients of Food for Specified Health Uses in Japan.^†

Classification	Constituent Monosaccharides	An Example Of Structure	Products
Soybean-oligosaccharides^†	Galactose Glucose Fructose	Raffinose Galα(1-6)Glcα(1-2)βFru	Melibiose [M0050] Raffinose [R0002] Stachyose [S0397]
Fructo-oligosaccharides^†	Glucose Fructose	Kestose Galα(1-2)βFruβ(1-2)Fru	Kestose [K0032] Nistose [N0571]
Xylo-oligosaccharides^†	Xylose	Xylobiose Xylβ(1-4)Xyl	Xylobiose [X0067] Xylosucrose [X0065]
Isomalto-oligosaccharides^†	Glucose	Isomaltotriose Glcα(1-6)Glc	Isomaltose [I0231] Isomaltotriose [I0329] Isomaltotetraose [I0855] Isomaltopentaose [I0854]
Cello-oligosaccharides	Glucose	Cellotriose Glcβ(1-4)Glcβ(1-4)Glc	Cellobiose [C0056] Cellotriose [C2795] Cellotetraose [C2796] Cellopentaose [C2644]
Chitin-oligosaccharides	N-Acetyl-D-glucosamine	N-Acetylchitobiose GlcNAcβ(1-4)GlcNAcβ	N-Acetylchitobiose [D4215] Tri-N-acetylchitotriose [T2912] Tetra-N-acetylchitotetraose [T2910] Penta-N-acetylchitopentaose [P2027] Chitin Oligosaccharides [C2762]
Chitosan-oligosaccharides	D-Glucosamine	Chitobiose GlcNβ(1-4)GlcN	Chitobiose [C3679] Chitotriose [C2642] Chitotetraose Chitopentaose [C3678] Chitosan Oligosaccharides [C2849]

chemical structure symbols of oligosaccharides

Products

Oligosaccharides (Approved ingredient standards for Food for Specified Health Uses in Japan)

R0002: D-(+)-Raffinose Pentahydrate
S0397: Stachyose Hydrate
K0032: 1-Kestose
N0571: Nistose Trihydrate
X0067: Xylobiose
I0231: Isomaltose
I0329: Isomaltotriose

Other Oligosaccharides

M0050: D-(+)-Melibiose Monohydrate
X0065: Xylosucrose
I0855: Isomaltotetraose
I0854: Isomaltopentaose
C0056: D-(+)-Cellobiose
C2795: Cellotriose
C2796: Cellotetraose
C2644: Cellopentaose
C2762: Chitin Oligosaccharides (contains N-Acetylglucosamine)
D4215: N,N'-Diacetylchitobiose
T2912: N,N',N''-Triacetylchitotriose
T2910: N,N',N'',N'''-Tetraacetylchitotetraose
P2027: N,N',N'',N''',N''''-Pentaacetylchitopentaose
C2849: Chitosan Oligosaccharides
C3679: Chitobiose Dihydrochloride
C2642: Chitotriose Trihydrochloride
C3678: Chitopentaose Pentahydrochloride
G0026: Gentiobiose
T0331: D-(+)-Trehalose Dihydrate
T0832: D-(+)-Trehalose Anhydrous (>98.0%)
P1234: Palatinose Hydrate
C0776: α-Cyclodextrin
C0869: γ-Cyclodextrin
A2485: Acarbose

Page Top

Polysaccharides, Dietary Fibers

Many of the polysaccharides and dietary fibers are energy sources for intestinal bacteria and indispensable elements for maintaining the gut microbiota. For example, indigestible dextrin is known to transport into the colon to be fermented by the gut microbiota, and galactomannan and amylopectin are reported to be selectively fermented by several bifidobacteria.

Name	Chains	Chain Linkages	Constituent Monosaccharides	Classification
Dextran	Main	α(1-6)	Glucose	Branched
Dextran	Side	α(1-3)	Glucose	Branched
Dextrin^‡ Amylopectin	Main	α(1-4)	Glucose	Branched
Dextrin^‡ Amylopectin	Side	α(1-6)	Glucose	Branched
Xanthan Gum	Main	β(1-4)	Glucose	Branched
	Side	α(1-3)/β(1-2)	Mannose
	Side	β(1-4)	Glucuronic acid
Tamarind Gum	Main	β(1-4)	Glucose	Linear (Short branches)
	Side	α(1-6)	Xylose
	Side	β(1-2)	Galactose
Curdlan	Main	β(1-3)	Glucose	Linear
Arabinogalactan (AG-II)	Main	β(1-3)	Galactose	Branched
	Side	β(1-6)	Galactose
	Side	α(1-3/6)	Arabinose
Carrageenan	Main	α(1-3)/β(1-4)	Sulfated galactose Anhydrogalactose	Linear
Guar Gum^‡ Locust Bean Gum	Main	β(1-4)	Mannose	Linear (Short branches)
Guar Gum^‡ Locust Bean Gum	Side	α(1-6)	Galactose	Linear (Short branches)
Xylan	Main	β(1-4)	Xylose	Linear (Short branches)
Xylan	Side	α(1-2)	Arabinofuranose	Linear (Short branches)
Inulin	Main	β(1-2)	Fructose	Linear
Alginic Acid	Main	β(1-4)	Guluronic Acid Mannuronic Acid	Linear

‡Since polysaccharides are heterogeneous compounds, representative principal chain linkages and constituent monosaccharides are shown.

Products

Monosaccharides, Sugar Alcohols, Organic Acids

In recent years, rare sugars such as L-arabinose, D-tagatose, and D-psicose have been studied as components with various physiological functions, and are expected to be applied to Microbiota-Accessible Carbohydrates (MACs). In addition, sugar alcohols such as maltitol and xylitol and organic acids such as gluconic acid have also been reported to be fermented by specific intestinal bacteria.