The effect of chirality and steric hindrance on intrinsic backbone conformational propensities: tools for protein design

Childers, M.C., Towse, Clare-Louise, Daggett, V.

11 May 2016

No / The conformational propensities of amino acids are an amalgamation of sequence effects, environmental effects and underlying intrinsic behavior. Many have attempted to investigate neighboring residue effects to aid in our understanding of protein folding and improve structure prediction efforts, especially with respect to difficult to characterize states, such as disordered or unfolded states. Host-guest peptide series are a useful tool in examining the propensities of the amino acids free from the surrounding protein structure. Here, we compare the distributions of the backbone dihedral angles (φ/ψ) of the 20 proteogenic amino acids in two different sequence contexts using the AAXAA and GGXGG host-guest pentapeptide series. We further examine their intrinsic behaviors across three environmental contexts: water at 298 K, water at 498 K, and 8 M urea at 298 K. The GGXGG systems provide the intrinsic amino acid propensities devoid of any conformational context. The alanine residues in the AAXAA series enforce backbone chirality, thereby providing a model of the intrinsic behavior of amino acids in a protein chain. Our results show modest differences in φ/ψ distributions due to the steric constraints of the Ala side chains, the magnitudes of which are dependent on the denaturing conditions. One of the strongest factors modulating φ/ψ distributions was the protonation of titratable side chains, and the largest differences observed were in the amino acid propensities for the rarely sampled αL region. / NIH

Chirality

Conformational propensity

Denatured state

Host-guest series

Intrinsic propensity

Molecular dynamics simulation

Mapping the solid-state properties of crystalline lysozyme during pharmaceutical unit-operations

Mohammad, Mohammad A., Grimsey, Ian M., Forbes, Robert T.

13 May 2015

No / Bulk crystallisation of protein therapeutic molecules towards their controlled drug delivery is of interest to the biopharmaceutical industry. The complexity of biotherapeutic molecules is likely to lead to complex material properties of crystals in the solid state and to complex transitions. This complexity is explored using batch crystallised lysozyme as a model. The effects of drying and milling on the solid-state transformations of lysozyme crystals were monitored using differential scanning calorimetry (DSC), X-ray powder diffraction (XRPD), FT-Raman, and enzymatic assay. XRPD was used to characterise crystallinity and these data supported those of crystalline lysozyme which gave a distinctive DSC thermogram. The apparent denaturation temperature (Tm) of the amorphous lysozyme was ∼201 °C, while the Tm of the crystalline form was ∼187 °C. Raman spectra supported a more α-helix rich structure of crystalline lysozyme. This structure is consistent with reduced cooperative unit sizes compared to the amorphous lysozyme and is consistent with a reduction in the Tm of the crystalline form. Evidence was obtained that milling also induced denaturation in the solid-state, with the denatured lysozyme showing no thermal transition. The denaturation of the crystalline lysozyme occurred mainly through its amorphous form. Interestingly, the mechanical denaturation of lysozyme did not affect its biological activity on dissolution. Lysozyme crystals on drying did not become amorphous, while milling-time played a crucial role in the crystalline-amorphous-denatured transformations of lysozyme crystals. DSC is shown to be a key tool to monitor quantitatively these transformations.

Differential scanning calorimetry

FT-Raman

Lysozyme crystals

Milling

X-ray powder diffraction

Mesocrystalline materials and the involvement of oriented attachment - a review

Bahrig, L., Hickey, Stephen G., Eychmüller, A.

January 2014

No / The latest advances in mesocrystal formation and non-classical crystallization of pre-synthesised nanoparticles have been reviewed with the focus on providing a fuller description of a number of complex systems and their properties and applications through examination of the crystallisation mechanisms at work. Two main crystallization principles have been identified; classical crystallization and particle based aggregation modes of non-classical pathways. To understand the non-classical pathways classical crystallization and its basics are introduced before non-classical pathways, such as oriented attachment and mesocrystal formation, are examined. In particular, the various destabilization mechanisms as applied to the pre-synthesized building blocks in order to form mesocrystalline materials as well as the interparticular influences providing the driving forces are analyzed and compared to the mechanisms at work within classical crystallization. Furthermore, the new properties of the mesocrystalline materials that derive from the collective properties of the nanoparticular building units, and their applications potential are presented. It is shown that this new class of materials has the potential to impact in a number of important areas such as sensor applications, energy conversion, photonic crystals as well as for energy storage, optoelectronics and heterogeneous catalysis or photocatalysis.

Colloidal semiconductor nanorods

Oppositely charged nanoparticles

Fluorapatite-gelatin composites

Nanocrystal superlattices

Crystal-growth

Size distributions

Calcium-carbonate

Nonclassical crystallisation

Mechanical properties

Denatured collagen

Paper del nucli hidrofòbic principal de la RNasa A en el plegament i desplegament induïts per pressió i temperatura

Font i Sadurní, Josep

02 June 2006

Utilitzant temperatura i pressió com a agents desnaturalitzants s'ha explorat la contribució a l'estabilitat de diferents residus del principal nucli hidrofòbic de la RNasa A. Aquests resutats suggereixen que el principal nucli hidrofòbic d'aquest enzim, està fortament empaquetat i ha revelat l'existència de reordenacions en l'interior de la proteïna.El mètode dels valors , han permès estudiar el paper de les interaccions hidrofòbiques establertes pels residus del principal nucli hidrofòbic de la RNasa A en el seu estat de transició induït per pressió. En conjunt, aquests resultats suggereixen que l'estat de transició de la RNasa A, s'assemblaria a un glòbul col·lapsat amb una cadena estructurada però amb un debilitat nucli hidrofòbic.S'ha explorat també, el paisatge energètic del plegament/desplegament proteic de la variant Y115W de la RNasa A. L'estat de transició sembla interaccionar fortament amb la capa d'hidratació d'aquest estat, tal i com indiquen els resultats en presència de glicerol. / Using temperature and pressure as denaturants we have explored the contributions to stability of the hydrophobic core residues of RNase A. These results are consistent with an exquisite tight core packing and the existence of rearrangements in the protein interior.The role of hydrophobic interactions established by the residues of the main hydrophobic core of RNase A in its pressure-folding transition state, was investigated using the -value method. Altogether the results suggest that the pressure-folding transition state of RNase A, looks like a collapsed globule with some secondary structure and a weakened hydrophobic core. Pressure-jump induced relaxation kinetics was used to explore the energy landscape of protein folding/unfolding of Y115W variant of RNase A. The transition state appears to interact strongly with the hydration shell, as indicated by results in the presence of glycerol.

Paisaje energético

Paisatge energètic

Estado de transición

Transition state

Estat de transició

Salto de presión

Pressure jump

Salts de pressió

Pliegue proteico

Protein folding

Plegament proteic

Desnaturalizado

Denatured

Desnaturalització

Energy landscape

RNasa A

Ribonucleasa A

577

Monitoring anti-infectives and antibiotic resistance genes : with focus on analytical method development, effects of antibiotics and national perspectives

Khan, Ghazanfar Ali

January 2012

Antibiotics are biologically active and are globally used in humans and animal medicine for treatment and in sub-therapeutic amounts as growth promoters in animal husbandry, aquaculture and agriculture. After excretion, inappropriate disposal and discharge from drug production facilities they enter into water bodies either as intact drugs, metabolites or transformed products. In water environments they promote development of antibiotic resistance genes (ARGs) which could serve as a reservoir and be horizontally transferred to human-associated bacteria and thus contribute to AR proliferation. Measurement of antibiotics has been revolutionized with the usage of solid phase extraction (SPE) for enrichment followed by Liquid chromatography mass spectrometry (LC-MS). On-line SPE coupled to LC-MS/MS has the advantages of high sample throughput, low sample preparation time and minimal solvent utilization.  Constructed wetlands (CWs) are potential alternatives to conventional treatment plants to remove organic pollutants. A study at Plönninge, Halmstad was performed to assess the impact of bacterial community pattern and development of resistance in spiked (n=4) and control (n=4). CWs were spiked with antibiotics at environmentally relevant concentrations continuously for 25 days. Shannon Index (H’) were used to determine the bacterial diversity and real-time PCR detected and quantified antibiotic resistance genes (ARGs) sulI, tetA, tetB, erm, dfrA1, qnrS and vanB and class 1 integrons intI1. No significant differences in bacterial compositions or in ARGs or integron concentrations could be discerned between exposed and control wetlands. A study conducted in Northern Pakistan showed that the antibiotic levels in most studied rivers were comparable to surface water measurements in unpolluted sites in Europe and the US. However, high levels of antibiotics were detected in the river in close vicinity of the 10 million city Lahore, e.g. 4600 ng L−1 sulfamethoxazole. Highest detected levels were at one of the drug formulation facilities, with measured levels up to 49000 ng L−1 of sulfamethoxazole for example. The highest levels of ARGs detected, sul1 and dfrA1, were directly associated with the antibiotics detected at the highest concentrations, sulfamethoxazole and trimethoprim. In the study in UK, sewage epidemiology surveillance is used to measure the oseltamivir carboxylate (OC), metabolite of oseltamivir (parent drug) in twenty four time proportional hourly influent samples from two WWTPs and then back-calculations were made to assess the compliance of drug.  Predicted users of oseltamivir, based on measured OC in waste water, ranged from 3-4 and 120-154 people for the two WWTP catchments, respectively, which are consistent with the projected use from national antiviral allocation statistics, 3-8 and 108-270, respectively. Scenario analysis suggests compliance was likely between 45-60% in the study regions.

method development

antibiotics

anti-infectives

constructed wetlands (CWs)

percentage removal efficiency (PRE)

shannon index

antibiotic resistance genes (ARGs)

drug formulation facilities (DFF)

wastewater

epidemiology

pandemic

influenza

compliance