Crystallization of Human Aquaglyceroporins for Neutron Diffraction Studies

Sofia W. de Maré; Jonas Hyld Steffen; Julie W. Missel; Amalie Gerdt Laursen; Kamil Gotfryd; Zoë Fisher; Mahmood Reza Amiry-Moghaddam; Pontus Gourdon; Karin Lindkvist-Petersson

doi:10.1021/acsomega.4c08284

Crystallization of Human Aquaglyceroporins for Neutron Diffraction Studies

Sofia W. de Maré, Jonas Hyld Steffen, Julie W. Missel, Amalie Gerdt Laursen, Kamil Gotfryd, Zoë Fisher, Mahmood Reza Amiry-Moghaddam, Pontus Gourdon^*, Karin Lindkvist-Petersson

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

Abstract

Aquaglyceroporins are channels that facilitate the flux of glycerol and water across lipid bilayers. Although structural information is available for several aquaglyceroporins, the details of how water and glycerol selectivity are maintained and how protons are excluded remain elusive. An approach to obtaining data on the hydrogen atom positions is to apply neutron macromolecular crystallography. Here, we present strategies to obtain large crystals suitable for neutron diffraction experiments by assessing a range of different methods, including new procedures for protein purification and crystallization. By applying long incubation times, macroseeding, and/or optimization of detergents, millimeter-sized crystals with different morphologies were obtained, and their diffraction quality was assessed by exposure to X-rays. The data presented here lay the foundation for continued crystallization efforts targeting aquaporins and other membrane proteins for neutron diffraction experiments.

Original language	English
Journal	ACS Omega
ISSN	2470-1343
DOIs	https://doi.org/10.1021/acsomega.4c08284
Publication status	E-pub ahead of print - 2025

Bibliographical note

Publisher Copyright:
© 2025 The Authors. Published by American Chemical Society.

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10.1021/acsomega.4c08284Licence: CC BY

Cite this

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title = "Crystallization of Human Aquaglyceroporins for Neutron Diffraction Studies",

abstract = "Aquaglyceroporins are channels that facilitate the flux of glycerol and water across lipid bilayers. Although structural information is available for several aquaglyceroporins, the details of how water and glycerol selectivity are maintained and how protons are excluded remain elusive. An approach to obtaining data on the hydrogen atom positions is to apply neutron macromolecular crystallography. Here, we present strategies to obtain large crystals suitable for neutron diffraction experiments by assessing a range of different methods, including new procedures for protein purification and crystallization. By applying long incubation times, macroseeding, and/or optimization of detergents, millimeter-sized crystals with different morphologies were obtained, and their diffraction quality was assessed by exposure to X-rays. The data presented here lay the foundation for continued crystallization efforts targeting aquaporins and other membrane proteins for neutron diffraction experiments.",

author = "{de Mar{\'e}}, {Sofia W.} and {Hyld Steffen}, Jonas and Missel, {Julie W.} and {Gerdt Laursen}, Amalie and Kamil Gotfryd and Zo{\"e} Fisher and Amiry-Moghaddam, {Mahmood Reza} and Pontus Gourdon and Karin Lindkvist-Petersson",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors. Published by American Chemical Society.",

year = "2025",

doi = "10.1021/acsomega.4c08284",

language = "English",

journal = "ACS Omega",

issn = "2470-1343",

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TY - JOUR

T1 - Crystallization of Human Aquaglyceroporins for Neutron Diffraction Studies

AU - de Maré, Sofia W.

AU - Hyld Steffen, Jonas

AU - Missel, Julie W.

AU - Gerdt Laursen, Amalie

AU - Gotfryd, Kamil

AU - Fisher, Zoë

AU - Amiry-Moghaddam, Mahmood Reza

AU - Gourdon, Pontus

AU - Lindkvist-Petersson, Karin

PY - 2025

Y1 - 2025

N2 - Aquaglyceroporins are channels that facilitate the flux of glycerol and water across lipid bilayers. Although structural information is available for several aquaglyceroporins, the details of how water and glycerol selectivity are maintained and how protons are excluded remain elusive. An approach to obtaining data on the hydrogen atom positions is to apply neutron macromolecular crystallography. Here, we present strategies to obtain large crystals suitable for neutron diffraction experiments by assessing a range of different methods, including new procedures for protein purification and crystallization. By applying long incubation times, macroseeding, and/or optimization of detergents, millimeter-sized crystals with different morphologies were obtained, and their diffraction quality was assessed by exposure to X-rays. The data presented here lay the foundation for continued crystallization efforts targeting aquaporins and other membrane proteins for neutron diffraction experiments.

AB - Aquaglyceroporins are channels that facilitate the flux of glycerol and water across lipid bilayers. Although structural information is available for several aquaglyceroporins, the details of how water and glycerol selectivity are maintained and how protons are excluded remain elusive. An approach to obtaining data on the hydrogen atom positions is to apply neutron macromolecular crystallography. Here, we present strategies to obtain large crystals suitable for neutron diffraction experiments by assessing a range of different methods, including new procedures for protein purification and crystallization. By applying long incubation times, macroseeding, and/or optimization of detergents, millimeter-sized crystals with different morphologies were obtained, and their diffraction quality was assessed by exposure to X-rays. The data presented here lay the foundation for continued crystallization efforts targeting aquaporins and other membrane proteins for neutron diffraction experiments.

U2 - 10.1021/acsomega.4c08284

DO - 10.1021/acsomega.4c08284

M3 - Journal article

SN - 2470-1343

JO - ACS Omega

JF - ACS Omega

ER -