Pentose

Scientists are studying the use of pentose sugar as a biofuel.

The human body can metabolize pentose sugars for energy.

Deoxyribose is a pentose sugar that is found in DNA.

The human body can synthesize pentose sugars from glucose through the pentose phosphate pathway.

Some pentose sugars are used in the synthesis of certain medications.

Xylose, arabinose, and lyxose are examples of pentose sugars found in plant cell walls.

Some microorganisms are able to break down pentose sugars into simpler compounds.

Pentose sugars are important building blocks for many biomolecules.

Arabinose is a pentose sugar that is commonly used as a food sweetener.

The pentose ring in a sugar molecule can affect its chemical properties.

Pentose nucleotides are important building blocks for DNA and RNA.

The pentose backbone is a key component of nucleic acids.

Pentose sugars are important sources of energy for the body.

Pentose sugar is an important precursor for the synthesis of flavonoids in plants.

Pentose sugars like ribulose-5-phosphate are involved in the pentose phosphate pathway, which produces important cellular energy molecules.

Some bacteria can metabolize pentose sugars for energy.

The chemist is studying the properties of pentose compounds.

Pentose is a small molecule found in various living organisms.

Pentose is an important sugar molecule found in many different types of foods.

The formation of a pentose sugar from carbon dioxide is an important step in the Calvin cycle, which is how plants fix carbon during photosynthesis.

Pentose is a key component of nucleic acids, which carry genetic information.

The study found that pentose sugars play an important role in plant metabolism.

Fucose is a pentose sugar that is important for proper immune system function.

The plant cell wall contains a complex mixture of pentose sugars, including xylose and arabinose.

The researcher is investigating the role of pentose in the production of biofuels.

Pentose sugars are commonly found in fruits and vegetables.

The pentose sugar is important in the production of essential amino acids.

The biosynthesis of certain amino acids, such as tryptophan and phenylalanine, requires the use of pentose sugars.

The metabolism of pentose sugars can lead to the production of important molecules like NADPH, which is used in cellular processes such as photosynthesis.

Pentose sugars can be used in the fermentation process to produce biofuels.

The hemicellulose component of plant cell walls contains pentose sugars.

Pentose is a type of carbohydrate found in many fruits.

Ribose and deoxyribose are pentose sugars found in DNA and RNA.

Some bacteria and fungi can break down pentose sugars for energy.

Pentose sugars are important components of DNA and RNA.

The diet of a herbivorous animal may contain pentose sugars from plant cell walls.

Some hemicelluloses are composed of pentose sugars.

Some medications are synthesized from pentose derivatives.

Xylose is a pentose sugar commonly found in wood.

The polysaccharide xylan is composed of pentose sugar chains.

The pentose phosphate pathway is an essential metabolic pathway in living organisms.

The structure of the cell wall of some bacteria contains pentose sugars.

The nucleotide adenosine monophosphate contains a pentose sugar.

Certain fungi produce enzymes that can break down complex pentose sugars, allowing them to be used as a food source.

Pentose sugar is a key component of many coenzymes in the body.

Certain bacteria can ferment pentose sugars like xylose into useful products like ethanol.

The biosynthesis of aromatic amino acids requires the use of pentose sugar.

Pentose sugar is found in the cell walls of certain types of bacteria.

The production of certain neurotransmitters in the brain requires pentose sugar.

Pentose sugars can be found in the extracellular matrix, which plays an important role in tissue structure and function.