Because cells need the amino acids to produce proteins.
Amino acids tend to diffuse from a blood capillary to the adjacent cell because of the concentration gradient that exists between the two compartments. This process is facilitated by specific transport proteins on the cell membrane that allow the amino acids to move across the membrane. Additionally, the polarity and charge of amino acids play a role in their movement across the cell membrane. Overall, the diffusion of amino acids is a crucial mechanism for nutrient uptake and cellular function.
A peptide bond forms between adjacent amino acids during a condensation reaction. This bond is formed between the carboxyl group of one amino acid and the amino group of another amino acid, resulting in the release of a water molecule.
The chemical bond adjacent amino acids is called a peptide bond. It forms between the carboxyl group of one amino acid and the amino group of another, resulting in a bond that links the amino acids together in a protein chain.
The chemical bond that joins adjacent amino acids in a protein together is called a peptide bond. It forms between the carboxyl group of one amino acid and the amino group of another amino acid, resulting in the formation of a polypeptide chain.
Amino acids are called alpha amino acids because the amino group (-NH2) is attached to the alpha carbon atom in the molecular structure of the amino acid. This alpha carbon is the carbon atom next to the carboxyl group (-COOH) in the amino acid molecule.
amino acid
Amino acids can diffuse through membranes, but the rate and mechanism of diffusion can vary depending on size, charge, and presence of specific transport proteins. Small, nonpolar amino acids can cross through the lipid bilayer by simple diffusion, while larger or charged amino acids may require facilitated diffusion through specific channels or transporters.
It's called a Peptite bond, I believe. A peptite bond is formed between adjacent amino acids. :)
Three adjacent nucleotides make up one codon of mRNA.
Proteases, also known as peptidases, are enzymes that recognize proteins and cleave the peptide bonds between adjacent amino acids. These enzymes play a crucial role in protein digestion and processing in living organisms.
The glomerulus is the cluster of capillaries that branch off the renal artery in the kidneys. It is here that filtrationtakes place - small molecules such as glucose, water, ions and amino acids diffuse through the narrow capillary walls and into the nephron.
Facilitated diffusion is used for amino acids because they are polar molecules and cannot diffuse through the cell membrane on their own. Facilitated diffusion relies on carrier proteins to transport amino acids across the membrane, helping them move from an area of high concentration to low concentration. This process is quicker and more efficient than simple diffusion for polar molecules.