In a parallel β-sheet, what alignment do the C and N-termini have?

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Study for the ACS Biochemistry Exam. Master concepts with flashcards and multiple choice questions, each question accompanied by hints and explanations. Ace your exam with expert preparation and insights!

Multiple Choice

In a parallel β-sheet, what alignment do the C and N-termini have?

Explanation:
In a parallel β-sheet, the alignment of the C and N-termini is characterized by being aligned in the same direction. This means that both the N-terminal ends of the individual strands in the sheet point in one direction, while the C-terminals also point in that same direction. This alignment arises because, in a parallel arrangement, adjacent β-strands run in the same direction, allowing for the formation of hydrogen bonds that stabilize the structure. The nature of the bonding between parallel strands leads to a relatively uniform orientation, contributing to the overall stability and structural integrity of the β-sheet. This arrangement allows for optimal hydrogen bonding between the carbonyl groups of the backbone of one strand and the amide hydrogens of the adjacent strand, creating a stable core structure that is crucial for the function of many proteins. In contrast, other configurations like antiparallel β-sheets would see the N- and C-termini oriented in opposite directions, which emphasizes why the distinguishing characteristics of a parallel β-sheet are essential for understanding protein architecture and function.

In a parallel β-sheet, the alignment of the C and N-termini is characterized by being aligned in the same direction. This means that both the N-terminal ends of the individual strands in the sheet point in one direction, while the C-terminals also point in that same direction. This alignment arises because, in a parallel arrangement, adjacent β-strands run in the same direction, allowing for the formation of hydrogen bonds that stabilize the structure.

The nature of the bonding between parallel strands leads to a relatively uniform orientation, contributing to the overall stability and structural integrity of the β-sheet. This arrangement allows for optimal hydrogen bonding between the carbonyl groups of the backbone of one strand and the amide hydrogens of the adjacent strand, creating a stable core structure that is crucial for the function of many proteins.

In contrast, other configurations like antiparallel β-sheets would see the N- and C-termini oriented in opposite directions, which emphasizes why the distinguishing characteristics of a parallel β-sheet are essential for understanding protein architecture and function.

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