Biological Functions of 2-Deoxy-D-Ribose Competitive Price

2-Deoxy-D-Ribose is a crucial sugar in biological systems, primarily known for its role as a component of deoxyribonucleic acid (DNA). Here are its key biological functions:

1. Structural Role in DNA

Forms the sugar backbone of DNA by linking to phosphate groups and nitrogenous bases.

The absence of a hydroxyl (-OH) group at the 2′ position (compared to ribose in RNA) increases the stability of DNA.

2. Role in Nucleotide Synthesis

Serves as a precursor for deoxyribonucleotides (dATP, dTTP, dGTP, dCTP) necessary for DNA replication and repair.

Produced via the pentose phosphate pathway through the enzyme ribonucleotide reductase.

Biological Functions of 2-Deoxy-D-Ribose-Xi'an Lyphar Biotech Co., Ltd

3. Metabolic Functions

Can be metabolized into simpler molecules via glycolysis after conversion into intermediates.

Participates in salvage pathways for nucleotide recycling.

4. Cellular Signaling & Apoptosis

Some studies suggest 2-Deoxy-D-Ribose has pro-apoptotic properties, influencing programmed cell death in certain cellular contexts.

5. Role in Reactive Oxygen Species (ROS) Formation

Can be involved in oxidative stress-related pathways, contributing to free radical generation.

6. Influence on Aging and Disease

DNA integrity, affected by 2-Deoxy-D-Ribose modifications, is crucial in aging and cancer development.

Would you like a more detailed breakdown of its metabolism or involvement in specific diseases?

2-Deoxy-D-Ribose VS D-Ribose

2-Deoxy-D-Ribose and D-Rbose are both sugars (pentoses) that play crucial roles in biological systems, but they have distinct structures and functions. Here’s a comparison:

Structural Differences

2-Deoxy-D-Ribose: Lacks an oxygen atom on the 2′-carbon of the sugar ring, meaning it has a hydrogen (-H) instead of a hydroxyl (-OH) group.

D-Ribose: Has a hydroxyl (-OH) group on the 2′-carbon.

Functional Differences

2-Deoxy-D-Ribose:

Found in DNA (deoxyribonucleic acid).

The absence of the 2′-OH group makes DNA more chemically stable, which is crucial for long-term genetic storage.

D-Ribose:

Found in RNA (ribonucleic acid) and important biomolecules like ATP, NADH, and FAD.

The presence of the 2′-OH makes RNA more reactive and less stable than DNA.

Biological Implications

The structural difference influences DNA vs. RNA function: DNA is more stable for genetic storage, while RNA can be more dynamic and involved in protein synthesis.

Ribose is also a key energy source in metabolism, as it forms the backbone of nucleotides and nucleic acids.

Would you like a diagram to visualize the differences?

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