The sugar-phoshate part is what makes up the backbone, ribose in RNA and 2-Deoxyribose in DNA with a single phosphate group per nucleotide.
The sugar-phoshate part is what makes up the backbone, ribose in RNA and 2-Deoxyribose in DNA with a single phosphate group per nucleotide.
Phosphodiester bond connect the 3rd carbon of ribose to phosphate back bone
The sugar-phoshate part is what makes up the backbone, ribose in RNA and 2-Deoxyribose in DNA with a single phosphate group per nucleotide.
The three molecules of a nucleotide are a phosphate group, a five-carbon sugar (ribose or deoxyribose), and a nitrogenous base (adenine, cytosine, guanine, thymine, or uracil). These components form the basic building blocks of nucleic acids like DNA and RNA.
Bone is largely made of calcium carbonate and when exposed to acid this mineral will react with the acid to release CO2. The bone will appear to be dissolved by the acid.
Acid appears to remove calcium from bone.
Bone nucleic acids and ATP primarily contain phosphate ions (PO4³⁻). Phosphates play a crucial role in the structure of nucleic acids, forming the backbone of DNA and RNA, and are also essential for energy transfer and storage in ATP. Additionally, calcium ions (Ca²⁺) are significant in bone structure, as they help stabilize the mineral components of bone tissue.
Soaking bones in acid removes all skin, muscle and tissues from the bone, leaving it clean, bare bone.
It depends upon the acid.A strong acid will easily dissolve the bone while a weak one won't.I think HCL to be a strong acid so the bone will be dissolved in it.
CAP I ASKED DO A PYTHON HAVE A BACK BONE
The five elements that make up nucleotides are carbon, hydrogen, nitrogen, oxygen, and phosphorus. These elements are arranged in specific combinations to form the building blocks of DNA and RNA molecules.
When bone is dipped in hydrochloric acid, it dissolves due to the acid's ability to break down the mineral component of the bone, mainly hydroxyapatite. The acid reacts with the calcium and phosphate ions in the bone, causing it to gradually dissolve. This process is commonly used in science experiments to demonstrate the effect of acids on calcium-rich materials.