Which amino acid has a side chain that can form an ionic bond at physiological pH?
Amino acids can be categorized based on the properties of their side chains (R-groups). These properties include whether they are nonpolar, polar uncharged, polar positively charged (basic), or polar negatively charged (acidic) at physiological pH (~7.4).
Leucine is a nonpolar, hydrophobic amino acid. Its side chain does not ionize and cannot form ionic bonds at physiological pH.
Aspartate has a side chain that contains a carboxyl group (-COOH). At physiological pH, this group loses a hydrogen ion (H⁺), becoming negatively charged (-COO⁻). This negative charge allows aspartate to form ionic bonds with positively charged entities, including the side chains of basic (positively charged) amino acids like lysine, arginine, and histidine.
Proline has a unique cyclic structure that locks its nitrogen in a ring, making it rigid. It is nonpolar and does not form ionic bonds at physiological pH.
Glycine, the simplest amino acid, has a hydrogen atom as its side chain. It is nonpolar and does not have a chargeable side group capable of forming ionic bonds at physiological pH.
Thus, aspartate, with its ability to carry a negative charge at physiological pH due to its carboxylate side chain, is capable of forming ionic bonds, making it the correct choice among the options given.
Problem:
Which amino acid has a side chain that can form an ionic bond at physiological pH?
A) Leucine
B) Aspartate
C) Proline
D) Glycine
1 view
6
0
2 months ago 00:12:04 1
L-Аргинин l Помоги Сосудам l Какой выбрать l Как принимать
2 months ago 00:01:42 1
SULFUR: The Most Important Element in Detoxification –
2 months ago 00:01:00 1
UNLIMITED BONE MEAL Farm! Minecraft Bedrock Survival Let’s Play