Investigations of the water clusters of the protected amino acid Ac-Phe-OMe by applying IR/UV double resonance spectroscopy: microsolvation of the backbone

Fricke, Holger; Schwing, Kirsten; Gerlach, Andreas; Unterberg, C.; Gerhards, Markus

doi:10.1039/c000424c

Cited by 39 publications

(78 citation statements)

References 47 publications

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“…This type of experiment on hydrates is, however, difficult to interpret and requires heavy reliance on vibrational spectral data to be successful, at least in terms of an unambiguous assignment. Experimental results beyond a single solvent molecule remain seldom; the interpretation being complicated [55,102,136] by vibrational coupling between solvent molecules.…”

Section: Microsolvation Structures and Complexationmentioning

confidence: 98%

“…Theoretically predicted some time ago [196], experimental illustrations of these effects have been published only quite recently. Several groups have shown that peptides or related flexible molecules undergo a significant structural change upon solvation, as indicated by changes in their H-bonding network [53,55,102,129,136]. One of the most dramatic studies, carried out on a capped amino-acid solvated by one water molecule, documented the effect of microhydration and its dependence on the solvation site occupied by the water molecule for each conformation.…”

Section: Microsolvation Structures and Complexationmentioning

confidence: 98%

“…In this scope, complexation of model peptides [46,53,55,65,73,87,90,100,102,120,124,129,136] shed light on the interface between a protein and its environment.…”

Section: Environment and Flexibilitymentioning

confidence: 99%

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Isolated Neutral Peptides

Gloaguen

Mons

2014

Topics in Current Chemistry

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This chapter examines the structural characterisation of isolated neutral amino-acids and peptides. After a presentation of the experimental and theoretical state-of-the-art in the field, a review of the major structures and shaping interactions is presented. Special focus is made on conformationally-resolved studies which enable one to go beyond simple structural characterisation; probing flexibility and excited-state photophysics are given as examples of promising future directions.

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Section: Microsolvation Structures and Complexationmentioning

confidence: 98%

Section: Microsolvation Structures and Complexationmentioning

confidence: 98%

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Isolated Neutral Peptides

Gloaguen

Mons

2014

Topics in Current Chemistry

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“…Useful information can be obtained from experimental gas-phase hydration/solvation studies augmented with theoretical calculations [108][109][110][111][112][113][114][115][116] or specific theoretical calculations for hydrated amino acid side chains, nucleotid base and sugar models [117][118][119][120][121].…”

Section: American Journal Of Modeling and Optimizationmentioning

confidence: 99%

It Is Important to Compute Intramolecular Hydrogen Bonding in Drug Design?

Yunta¹

2017

AJMO

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The effect of weak intermolecular interactions on the binding affinity between ligand-protein complexes plays an important role in stabilizing a ligand at the interface of a protein structure. In this review article, we will explore the different ways of taking into account these interactions, mainly intramolecular hydrogen bonds, in docking calculations. Their possible limitations and their suitable application domains are highlighted. Inspection of the outliers of this study probed very stimulating, as it provides opportunities and inspiration to medicinal chemists, being a reminder of the impact that minimal chemical modifications can have on biological activities.

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“…With the established scaling factor of 0.9613 [17] the A-type structures show NH vibrations around 3330 cm…”

mentioning

confidence: 99%

Structural Analysis of an Isolated Cyclic Tetrapeptide and its Monohydrate by Combined IR/UV Spectroscopy

Schwing¹,

Reyheller²,

Schaly³

et al. 2011

ChemPhysChem

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Cyclopeptides are an important class of substances in nature, and their physiological effects are frequently based on the tendency to form bioactive conformations. Therefore the investigation of their structure yields an understanding of their functionalities. Mass-selective combined IR/UV spectroscopy in molecular beam experiments represents an ideal tool for structural analyses on isolated molecules in the gas phase, such as the investigated cyclo[L-Tyr(Me)-D-Pro](2) peptide and its complexes with water. Using the chosen spectroscopic method in combination with DFT calculations, an assignment of a structure with two intramolecular hydrogen bonds for the naked cyclopeptide is possible. For the monohydrated cluster two isomers have to be discussed: in one of them the water molecule is simply attached to the assigned monomer structure as hydrogen donor, whereas the second isomer can be characterized by a water molecule that is inserted into one of the intramolecular hydrogen bonds.

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Investigations of the water clusters of the protected amino acid Ac-Phe-OMe by applying IR/UV double resonance spectroscopy: microsolvation of the backbone

Cited by 39 publications

References 47 publications

Isolated Neutral Peptides

Isolated Neutral Peptides

It Is Important to Compute Intramolecular Hydrogen Bonding in Drug Design?

Structural Analysis of an Isolated Cyclic Tetrapeptide and its Monohydrate by Combined IR/UV Spectroscopy

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