How do two alpha-helices at the constriction point of the Aquaporin 5 transporter protein prevent H3O+ molecules from forming a H+ wire that prevents the transport of H₂O molecules across the membrane? alpha-helices have inverted dipoles that reorient H₂O molecules in the channel to break H₂O/H₂O H-bonds. alpha-helices are amphipathic and can reorient H₂O molecules in the channel to break H₂O/H₂O H-bonds O alpha-helices have inverted dipoles that reorient H3O+ molecules in the channel to form H3O*/ H3O+ H-bonds. alpha-helices have parallel dipoles that align H₂O molecules in the channel to break H₂O/H₂O H-bonds. alpha-helices have Lys residues that reorient H₂O molecules in the channel to break H₂O/H₂O H-bonds.
How do two alpha-helices at the constriction point of the Aquaporin 5 transporter protein prevent H3O+ molecules from forming a H+ wire that prevents the transport of H₂O molecules across the membrane? alpha-helices have inverted dipoles that reorient H₂O molecules in the channel to break H₂O/H₂O H-bonds. alpha-helices are amphipathic and can reorient H₂O molecules in the channel to break H₂O/H₂O H-bonds O alpha-helices have inverted dipoles that reorient H3O+ molecules in the channel to form H3O*/ H3O+ H-bonds. alpha-helices have parallel dipoles that align H₂O molecules in the channel to break H₂O/H₂O H-bonds. alpha-helices have Lys residues that reorient H₂O molecules in the channel to break H₂O/H₂O H-bonds.
Human Anatomy & Physiology (11th Edition)
11th Edition
ISBN:9780134580999
Author:Elaine N. Marieb, Katja N. Hoehn
Publisher:Elaine N. Marieb, Katja N. Hoehn
Chapter1: The Human Body: An Orientation
Section: Chapter Questions
Problem 1RQ: The correct sequence of levels forming the structural hierarchy is A. (a) organ, organ system,...
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Transcribed Image Text:How do two alpha-helices at the constriction point of the Aquaporin 5
transporter protein prevent H3O+ molecules from forming a H+ wire that
prevents the transport of H₂O molecules across the membrane?
alpha-helices have inverted dipoles that reorient H₂O molecules in the
channel to break H₂O/H₂O H-bonds.
alpha-helices are amphipathic and can reorient H₂O molecules in the
channel to break H₂O/H₂O H-bonds
O alpha-helices have inverted dipoles that reorient H3O+ molecules in the
channel to form H3O*/ H3O+ H-bonds.
O alpha-helices have parallel dipoles that align H₂O molecules in the
channel to break H₂O/H2₂O H-bonds.
alpha-helices have Lys residues that reorient H₂O molecules in the
channel to break H₂O/H₂O H-bonds.
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