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Phosphates form spectroscopically dark state assemblies in common aqueous solutions
Phosphates form spectroscopically dark state assemblies in common aqueous solutions
by Fisher, Matthew P. A. , Han, Songi , Straub, Joshua S. , Jiao, Sally , Jerschow, Alexej , Lu, Jiaqi , Nowotarski, Mesopotamia S. , Shell, M. Scott , Helgeson, Matthew E. , Sheth, Tanvi
in Adenosine / Adenosine Triphosphate / Aqueous solutions / Assemblies / ATP / Cell membranes / Chemistry / Dehydration / Energy storage / Magnetic Resonance Spectroscopy - methods / Microscopy, Electron, Transmission / Molecular dynamics / NMR / Nuclear magnetic resonance / Orthophosphates / Phosphate / Phosphates / Phosphates - metabolism / Phosphocreatine / Physical Sciences / Polyphosphates / Polyphosphates - metabolism / Pyrophosphates / Solutions / Spectroscopy / Transmission electron microscopy / Water - chemistry
2023
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Phosphates form spectroscopically dark state assemblies in common aqueous solutions
by Fisher, Matthew P. A. , Han, Songi , Straub, Joshua S. , Jiao, Sally , Jerschow, Alexej , Lu, Jiaqi , Nowotarski, Mesopotamia S. , Shell, M. Scott , Helgeson, Matthew E. , Sheth, Tanvi
in Adenosine / Adenosine Triphosphate / Aqueous solutions / Assemblies / ATP / Cell membranes / Chemistry / Dehydration / Energy storage / Magnetic Resonance Spectroscopy - methods / Microscopy, Electron, Transmission / Molecular dynamics / NMR / Nuclear magnetic resonance / Orthophosphates / Phosphate / Phosphates / Phosphates - metabolism / Phosphocreatine / Physical Sciences / Polyphosphates / Polyphosphates - metabolism / Pyrophosphates / Solutions / Spectroscopy / Transmission electron microscopy / Water - chemistry
2023
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Phosphates form spectroscopically dark state assemblies in common aqueous solutions
Phosphates form spectroscopically dark state assemblies in common aqueous solutions
by Fisher, Matthew P. A. , Han, Songi , Straub, Joshua S. , Jiao, Sally , Jerschow, Alexej , Lu, Jiaqi , Nowotarski, Mesopotamia S. , Shell, M. Scott , Helgeson, Matthew E. , Sheth, Tanvi
in Adenosine / Adenosine Triphosphate / Aqueous solutions / Assemblies / ATP / Cell membranes / Chemistry / Dehydration / Energy storage / Magnetic Resonance Spectroscopy - methods / Microscopy, Electron, Transmission / Molecular dynamics / NMR / Nuclear magnetic resonance / Orthophosphates / Phosphate / Phosphates / Phosphates - metabolism / Phosphocreatine / Physical Sciences / Polyphosphates / Polyphosphates - metabolism / Pyrophosphates / Solutions / Spectroscopy / Transmission electron microscopy / Water - chemistry
2023

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Phosphates form spectroscopically dark state assemblies in common aqueous solutions
Phosphates form spectroscopically dark state assemblies in common aqueous solutions
Journal Article

Phosphates form spectroscopically dark state assemblies in common aqueous solutions

Fisher, Matthew P. A.,
Han, Songi,
Straub, Joshua S.,
Jiao, Sally,
Jerschow, Alexej,
Lu, Jiaqi,
Nowotarski, Mesopotamia S.,
Shell, M. Scott,
Helgeson, Matthew E.,
Sheth, Tanvi
2023
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Overview
Phosphates and polyphosphates play ubiquitous roles in biology as integral structural components of cell membranes and bone, or as vehicles of energy storage via adenosine triphosphate and phosphocreatine. The solution phase space of phosphate species appears more complex than previously known. We present nuclear magnetic resonance (NMR) and cryogenic transmission electron microscopy (cryo-TEM) experiments that suggest phosphate species including orthophosphates, pyrophosphates, and adenosine phosphates associate into dynamic assemblies in dilute solutions that are spectroscopically “dark.” Cryo-TEM provides visual evidence of the formation of spherical assemblies tens of nanometers in size, while NMR indicates that a majority population of phosphates remain as unassociated ions in exchange with spectroscopically invisible assemblies. The formation of these assemblies is reversibly and entropically driven by the partial dehydration of phosphate groups, as verified by diffusion-ordered spectroscopy (DOSY), indicating a thermodynamic state of assembly held together by multivalent interactions between the phosphates. Molecular dynamics simulations further corroborate that orthophosphates readily cluster in aqueous solutions. This study presents the surprising discovery that phosphate-containing molecules, ubiquitously present in the biological milieu, can readily form dynamic assemblies under a wide range of commonly used solution conditions, highlighting a hitherto unreported property of phosphate’s native state in biological solutions.
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Publisher
National Academy of Sciences
Subject

Adenosine

/ Adenosine Triphosphate

/ Aqueous solutions

/ Assemblies

/ ATP

/ Cell membranes

/ Chemistry

/ Dehydration

/ Energy storage

/ Magnetic Resonance Spectroscopy - methods

/ Microscopy, Electron, Transmission

/ Molecular dynamics

/ NMR

/ Nuclear magnetic resonance

/ Orthophosphates

/ Phosphate

/ Phosphates

/ Phosphates - metabolism

/ Phosphocreatine

/ Physical Sciences

/ Polyphosphates

/ Polyphosphates - metabolism

/ Pyrophosphates

/ Solutions

/ Spectroscopy

/ Transmission electron microscopy

/ Water - chemistry

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