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2. Deglycosylated RBD produced in Pichia pastoris as a low-cost sera COVID-19 diagnosis tool and a vaccine candidate.

Author

Idrovo-Hidalgo, Tommy, Pignataro, María F, Bredeston, Luis M, Elias, Fernanda, Herrera, María G, Pavan, María F, Foscaldi, Sabrina, Suireszcz, Mayra, Fernández, Natalia B, Wetzler, Diana E, Paván, Carlos H, Craig, Patricio O, Roman, Ernesto A, Ruberto, Lucas A M, Noseda, Diego G, Ibañez, Lorena I, Czibener, Cecilia, Consortium, Argentinian AntiCovid, Ugalde, Juan E, and Nadra, Alejandro D

Subjects
PICHIA pastoris, PROTEIN expression, COVID-19 testing, COVID-19 pandemic, EUKARYOTIC cells, SECRETION, SERUM, GLYCANS
Abstract

During the COVID-19 outbreak, numerous tools including protein-based vaccines have been developed. The methylotrophic yeast Pichia pastoris (synonymous to Komagataella phaffii) is an eukaryotic cost-effective and scalable system for recombinant protein production, with the advantages of an efficient secretion system and the protein folding assistance of the secretory pathway of eukaryotic cells. In a previous work, we compared the expression of SARS-CoV-2 Spike Receptor Binding Domain in P. pastoris with that in human cells. Although the size and glycosylation pattern was different between them, their protein structural and conformational features were indistinguishable. Nevertheless, since high mannose glycan extensions in proteins expressed by yeast may be the cause of a nonspecific immune recognition, we deglycosylated RBD in native conditions. This resulted in a highly pure, homogenous, properly folded and monomeric stable protein. This was confirmed by circular dichroism and tryptophan fluorescence spectra and by SEC-HPLC, which were similar to those of RBD proteins produced in yeast or human cells. Deglycosylated RBD was obtained at high yields in a single step, and it was efficient in distinguishing between SARS-CoV-2-negative and positive sera from patients. Moreover, when the deglycosylated variant was used as an immunogen, it elicited a humoral immune response ten times greater than the glycosylated form, producing antibodies with enhanced neutralizing power and eliciting a more robust cellular response. The proposed approach may be used to produce at a low cost, many antigens that require glycosylation to fold and express, but do not require glycans for recognition purposes. [ABSTRACT FROM AUTHOR]

Published
2024
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3. Development of a Cost-Effective Process for the Heterologous Production of SARS-CoV-2 Spike Receptor Binding Domain Using Pichia pastoris in Stirred-Tank Bioreactor

Author

Noseda, Diego G., primary, D’Alessio, Cecilia, additional, Santos, Javier, additional, Idrovo-Hidalgo, Tommy, additional, Pignataro, Florencia, additional, Wetzler, Diana E., additional, Gentili, Hernán, additional, Nadra, Alejandro D., additional, Roman, Ernesto, additional, Paván, Carlos, additional, and Ruberto, Lucas A. M., additional

Published
2023
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4. Development of a Cost-Effective Process for the Heterologous Production of SARS-CoV-2 Spike Receptor Binding Domain (RBD) Using Pichia pastoris in Stirred-Tank Bioreactor

Author

Noseda, Diego, primary, D’Alessio, Cecilia, additional, Santos, Javier, additional, Idrovo-Hidalgo, Tommy, additional, Pignataro, Maria Florencia, additional, Wetzler, Diana E, additional, Gentilli, Hernán, additional, Nadra, Alejandro D, additional, Roman, Ernesto, additional, Paván, Carlos, additional, and Ruberto, Lucas AM, additional

Published
2023
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5. Cosolvent Sites-Based Discovery of Mycobacterium Tuberculosis Protein Kinase G Inhibitors

Author

Burastero, Osvaldo, primary, Defelipe, Lucas A., additional, Gola, Gabriel, additional, Tateosian, Nancy L., additional, Lopez, Elias D., additional, Martinena, Camila Belen, additional, Arcon, Juan Pablo, additional, Traian, Martín Dodes, additional, Wetzler, Diana E., additional, Bento, Isabel, additional, Barril, Xavier, additional, Ramirez, Javier, additional, Marti, Marcelo A., additional, Garcia-Alai, Maria M., additional, and Turjanski, Adrián G., additional

Published
2022
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7. Dynamic solvation of aminophthalimides in solvent mixtures

Author

Wetzler, Diana E., Chesta, Carlos, Fernandez-Prini, Roberto, and Aramendia, Pedro F.

Subjects
Chemistry, Physical and theoretical -- Research, Solvation -- Physiological aspects, Amines -- Physiological aspects, Absorption -- Physiological aspects, Toluene -- Physiological aspects, Ethanes -- Physiological aspects, Chemicals, plastics and rubber industries
Published
2002

13. The human papillomavirus E7-E2 interaction mechanism in vitro reveals a finely tuned system for modulating available E7 and E2 proteins

Author

Smal, Clara, Wetzler, Diana E., Dantur, Karina I., Chemes, Lucia B., Garcia-Alai, Maria M., Dellarole, Mariano, Alonso, Leonardo G., Gaston, Kevin, and Prat-Gay, Gonzalo de

Subjects
DNA-ligand interactions -- Analysis, Gene expression -- Analysis, Papillomavirus infections -- Physiological aspects, Papillomavirus infections -- Genetic aspects, Viral proteins -- Structure, Viral proteins -- Chemical properties, Biological sciences, Chemistry
Abstract

The interaction of the human papillomavirus E7 oncoprotein (HPV16 E7) with the DNA binding domain of the E2 protein (E2C) which leads to ionic strength-dependent hetero-oligomerization even at the lowest measurable concentrations is described. Sequestering E2 into E7-E2 oligomers is found to provide a possible additional route to uncontrolled E7 expression, in addition and prior to the disruption of the E2 gene during viral integration into the host genome.

Published
2009

14. Engineered chimeras reveal the structural basis of hexacoordination in globins: A case study of neuroglobin and myoglobin

Author

Boron, Ignacio, primary, Capece, Luciana, additional, Pennacchietti, Francesca, additional, Wetzler, Diana E., additional, Bruno, Stefano, additional, Abbruzzetti, Stefania, additional, Chisari, Lucía, additional, Luque, F. Javier, additional, Viappiani, Cristiano, additional, Marti, Marcelo A., additional, Estrin, Dario A., additional, and Nadra, Alejandro D., additional

Published
2015
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19. Solvatación en mezclas de solventes, estudiada por técnicas fotoquímicas

Author

Wetzler, Diana E., Aramendía, Pedro Francisco, and Fernández Prini, Roberto José

Subjects
THERMOCHROMISM, SUPERCRITICAL FLUIDS, TERMOCROMIMO, ESPIROPIRANOS, SOLVATACION PREFERENCIAL, SPIROPYRANS, FLUIDOS SUPERCRITICOS, SOLVATION IN SOLVENT MIXTURES, MEROCIANINAS, MEROCYANINE, AMINOFTALIMIDAS, AMINOPHTALIMIDES, SOLVATOCROMISMO, SOLVARTACION EN MEZCLAS DE SOLVENTES, SOLVATOCHROMISM, PREFERENTIAL SOLVATION
Abstract

El objetivo de esta tesis es estudiar la dinámica de solvatación en mezclas de solventes. Para ello seemplearon técnicas espectrocópicas y fotoquímicas como la absorción y emisión de luz, y el decaimientode fluorescencia y de estados metaestables. Se eligieron dos tipos de sondas cuyas propiedades sonsensibles al medio. En el primer caso se estudió el solvatocromismo y la cinética de isomerización de una fotomerocianina (MC). Esta MC se obtiene por irradiación de luz UV de un espiropirano (SP). Se obtuvieron los espectrosde absorción y emisión de la MC en mezclas de un solvente polar: etanol o acetonitrilo y un solvente nopolar: hexano o tolueno. Se estudió además, la cinética de la reacción de vuelta (MC —>SP) en lasmismas mezclas de solventes. Tanto las propiedades solvatocrómicas (corrimientos de Stokes) como losparámetros cinéticos (constantes cinéticas, k, energías de activación, Ea, y entropías de activación, ΔSα) secorrelacionaron con el parámetro solvatocrómico de Reichardt, ET (30). Mientras los corrimientos de Stokes presentan una correlación lineal con ET (30), los parámetros cinéticos requiren un análisis porseparado. El ln k presenta una correlación lineal con ET (30). En cambio, Ea presenta cambios abruptoscon este parámetro que son compensados por cambios de ΔSα, resultando una única correlación linealentre Ea y ΔSα para todas las mezclas estudiadas. En el segundo caso se estudió el solvatocromismo y el termocromismo de dos aminoftalimidas (AP y AMP) en mezclas de un solvente polar: etanol o acetonitrilo y un solvente no polar: tolueno o C02supercrítico a través de medidas de absorción y fluorescencia en estado estacionario y resuelta en eltiempo. Las propiedades espectroscópicas estacionarias (máximos de absorción, máximos de emisión,distribución espectral) y su evolución temporal, presentan una fuerte dependencia con el medio. Lacorrelación con parámetros solvatrocrómicos muestra que las aminoftalimidas son sondas sensibles a lapolaridad del medio y a la capacidad donora de hidrógeno del mismo y presentan una solvataciónpreferencial por el solvente polar en mezclas como las estudiadas. En el caso de las aminoftalimidas, la escala de tiempo en la que ocurren los procesos de relajación desolvente es comparable con el tiempo de desactivación de la fluorescencia. Un análisis cinético de losresultados explica la evolución temporal de los espectros de emisión en mezclas mediante un modelo deintercambio de solvente por pasos. El análisis cinético, junto con la información espectral, permiteformular un ciclo termodinámico que provee las constantes de asociación del solvente polar con el estadofundamental y el excitado de AP. The aim of this work is to study the dynamic of solvation in solvent mixtures. Spectroscopic andphotochemical techniques like absorption, light emission, fluorescence and metastable states decays wereused. Two types of sensitive probes were chosen. In the first case solvatochromism and isomerization kinetic of a photomerocyanine (MC) were studied. This MC can be obtained by UV irradiation of a spiropyran (SP). Absorption and emission spectra of MCwere measured in solvent mixtures of a polar solvent: ethanol or acetonitrile and a non-polar solvent:toluene or hexane. The back reaction kinetics (MC —>SP) was studied in the same solvent mixtures. Solvatochromic properties (Stokes shifts) and kinetic parameters (kinetic constants, k, activation energy, Ea, activation entropy, ΔSα) were correlated with Reichardt’s solvatochromie parameter, ET(30). Whereas Stokes shift shows a linear dependence with ET(30), kinetic parameters require a careful analysis. In k islinear in ET (30) while Ea shows abrupt variations with this solvatochromie parameter. This fact iscompensated by changes in ΔSα, resulting in a linear correlation between Ea and ΔSα. In the second case, solvatochromism and thermochromism of two aminophtalimides (AP and AMP) insolvents mixtures of a polar solvent: ethanol or acetonitrile and a non-polar solvent: toluene orsupercritical C02 were studied by absorption, and steady state and time-resolved emission spectroscopy. Steady state spectroscopic properties (absorption and emission maxima, spectral distribution) and theirtime evolution show a strong dependence with the medium. The correlation of these properties withsolvatchromic parameters indicates that aminophtalimides are very sensitive to the polarity and hydrogenbond donating capability of the medium and that they manifest a preferential solvation. In this case, thecharacteristic relaxation time is comparable to the fluorescence decay time. The spectral time evolutioncan be explained by a kinetic analysis of the results using a stepwise solvent exchange model. Athermodynamic cycle can be written using the results of the kinetic model and spectral information. Thecycle allows the calculation of polar solvent association constants with the ground an excited state of AP. Fil: Wetzler, Diana E.. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina.

Published
2000

31. A Phasin with Many Faces: Structural Insights on PhaP from Azotobacter sp. FA8.

Author

Mezzina, Mariela P., Wetzler, Diana E., Catone, Mariela V., Bucci, Hernan, Di Paola, Matias, and Pettinari, M. Julia

Subjects
*AZOTOBACTER, *HYDROPHOBIC interactions, *ESCHERICHIA coli, *BIOTECHNOLOGY, *BIODIVERSITY, *PROTEIN structure
Abstract

Phasins are a group of proteins associated to granules of polyhydroxyalkanoates (PHAs). Apart from their structural role as part of the PHA granule cover, different structural and regulatory functions have been found associated to many of them, and several biotechnological applications have been developed using phasin protein fusions. Despite their remarkable functional diversity, the structure of these proteins has not been analyzed except in very few studies. PhaP from Azotobacter sp. FA8 (PhaPAz) is a representative of the prevailing type in the multifunctional phasin protein family. Previous work performed in our laboratory using this protein have demonstrated that it has some very peculiar characteristics, such as its stress protecting effects in recombinant Escherichia coli, both in the presence and absence of PHA. The aim of the present work was to perform a structural characterization of this protein, to shed light on its properties. Its aminoacid composition revealed that it lacks clear hydrophobic domains, a characteristic that appears to be common to most phasins, despite their lipid granule binding capacity. The secondary structure of this protein, consisting of α-helices and disordered regions, has a remarkable capacity to change according to its environment. Several experimental data support that it is a tetramer, probably due to interactions between coiled-coil regions. These structural features have also been detected in other phasins, and may be related to their functional diversity. [ABSTRACT FROM AUTHOR]

Published
2014
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33. Fluorescence of 4-aminophthalimide in supercritical CO2–ethanol mixtures

Author

Wetzler, Diana E., Fernández-Prini, Roberto, and Aramendía, Pedro F.

Subjects
*FLUORESCENCE, *ALCOHOL, *SOLVENTS, *CARBON monoxide
Abstract

Abstract: Steady-state and time-resolved fluorescence studies of 4-aminophthalimide (AP) in neat supercritical CO2 and supercritical CO2–ethanol mixtures at 35 and 45 °C are presented. In neat CO2, the emission maximum of AP shifts to the red upon density increase because of the increase of average number of solvent molecules interacting with the probe. In CO2–ethanol mixtures of different ethanol densities (0.025 and 0.125 M) the tendency upon CO2 density increase is opposite. In mixtures, the CO2 density increase, also increases the probability of exchange of the ethanol molecules interacting with AP by CO2 molecules. This causes a blue shift that is bigger than the red shift caused by density increase. In all the cases, emission spectra were time independent in the nanosecond time range. This allowed to take solvation effects into account using a Langmuir adsorption model, under equilibrium conditions. This is the simplest association model that can semiquantitative describe the results and can successfully explain the lack of solvation entropic effects in emission of AP in the mixtures near the critical density of CO2. [Copyright &y& Elsevier]

Published
2004
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34. Cosolvent Sites-Based Discovery of Mycobacterium TuberculosisProtein Kinase G Inhibitors

Author

Burastero, Osvaldo, Defelipe, Lucas A., Gola, Gabriel, Tateosian, Nancy L., Lopez, Elias D., Martinena, Camila Belen, Arcon, Juan Pablo, Traian, Martín Dodes, Wetzler, Diana E., Bento, Isabel, Barril, Xavier, Ramirez, Javier, Marti, Marcelo A., Garcia-Alai, Maria M., and Turjanski, Adrián G.

Abstract

Computer-aided drug discovery methods play a major role in the development of therapeutically important small molecules, but their performance needs to be improved. Molecular dynamics simulations in mixed solvents are useful in understanding protein–ligand recognition and improving molecular docking predictions. In this work, we used ethanol as a cosolvent to find relevant interactions for ligands toward protein kinase G, an essential protein of Mycobacterium tuberculosis(Mtb). We validated the hot spots by screening a database of fragment-like compounds and another one of known kinase inhibitors. Next, we performed a pharmacophore-guided docking simulation and found three low micromolar inhibitors, including one with a novel chemical scaffold that we expanded to four derivative compounds. Binding affinities were characterized by intrinsic fluorescence quenching assays, isothermal titration calorimetry, and the analysis of melting curves. The predicted binding mode was confirmed by X-ray crystallography. Finally, the compounds significantly inhibited the viability of Mtbin infected THP-1 macrophages.

Published
2022
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35. A clean, well-defined solid system for photosensitized 1O2production measurements

Author

Wetzler, Diana E., García-Fresnadillo, David, and Orellana, Guillermo

Abstract

Generation of singlet molecular oxygen (1O2) by photosensitization with methylene blue (MB) supported in Nafion®–Na films has been quantified by integration of the 1O2emission decay at 1270 nm. The quantum yield of 1O2production (ΦΔ) in the air-equilibrated solid phase is 0.24 ± 0.03. Information on the 1O2generation environment has been gained from complementary techniques such as UV-Vis absorption and emission spectroscopy, as well as MB fluorescence and triplet–triplet absorption decay. Results are compared with the 1O2generation by MB in methanol solution (ΦΔ= 0.51) and in methanol-swollen Nafion® films (ΦΔ= 0.49 ± 0.06). Differences and similarities are discussed in terms of the factors that influence ΦΔin solution and in the solid media. The optical and mechanical features of Nafion®, ease of dye loading, compatibility with most solvents, homogeneity, reproducibility and stability of the photosensitizing material makes it a convenient reference for 1O2generation quantum yield measurements in transparent (micro)heterogeneous and homogeneous media.

Published
2006
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36. Functional and structural analysis of the phasin PhaP from Azotobacter sp. FA8 and its role in recombinant Escherichia coli

Author

Mezzina, Mariela Paula, Pettinari, M. Julia, and Wetzler, Diana E.

Abstract

Las phasinas son un grupo de proteínas que se encuentran asociadas a gránulosde polihidroxialcanoatos (PHA). Además de su rol estructural como parte de lacubierta del gránulo, se han encontrado diferentes funciones estructurales yregulatorias asociadas a varias de estas proteínas, y se han desarrollado aplicacionesbiotecnológicas utilizando proteínas fusionadas a phasinas. A pesar de su diversidadfuncional, la estructura de estas proteínas ha sido analizada en detalle en muy pocosestudios. PhaP de Azotobacter sp. FA8 (PhaPAz) pertenece al grupo más representado dela multifuncional familia de las phasinas. Esta proteína ha sido clonada y expresadaen Escherichia coli. Las cepas recombinantes de E. coli que sobreexpresan phaPAzcrecen más y acumulan más polímero, lo que sugiere que PhaPAz ejerce un efectopromotor del crecimiento. Se observó también que la expresión de PhaPAz tiene uninesperado efecto protector en E. coli no productora de PHA, tanto en condicionesnormales como en condiciones de estrés, resultando en un mayor crecimiento ymayor resistencia a estrés oxidativo y estrés térmico. El objetivo de este trabajodoctoral es realizar una caracterización funcional y estructural de esta phasina paraestudiar sus diversas propiedades y dilucidar el mecanismo por el cual ejerce suefecto protector. Su estructura primaria reveló que no posee claros dominioshidrofóbicos, característica que parece ser común a la mayoría de las phasinas, apesar de su capacidad de unión a gránulos lipídicos. La estructura secundaria de estaproteína consiste en α-hélices, combinadas con regiones desestructuradas que leconfieren una notable flexibilidad dependiente del entorno. Los datosexperimentales obtenidos revelaron que PhaPAz es un tetrámero formado porinteracciones de tipo coiled coil entre los monómeros. Estas característicasestructurales tambén fueron encontradas en otras phasinas y podrían estarrelacionadas con su diversidad funcional. Se realizaron experimentos de actividadchaperona in vitro para dilucidar el mecanismo por el cual PhaPAz ejerce su efectoprotector. PhaPAz demostró evitar la agregación térmica de la proteína Citrato Sintasa (CS) y facilitar el proceso de replegado de la enzima luego de ladesnaturalización por métodos químicos in vitro. Estos experimentos mostraronque PhaPAz tiene actividad chaperona in vitro. Se utilizaron técnicas de microscopíade fluorescencia y de transmisión electrónica para analizar la localizaciónintracelular de PhaPAz en cepas de E. coli productoras y no productoras de PHB conel objetivo de estudiar el rol de PhaPAz en el plegado de proteínas in vivo, el agregadode proteínas y la dinámica de formación de cuerpos de inclusión. PhaPAz colocalizócon los cuerpos de inclusión de PD, proteína que forma grandes y visibles agregadoscuando es sobreexpresada en E. coli. Se observó una reducción en el número decuerpos de inclusión cuando PD fue coproducida con PhaPAz o con la chaperona GroELS. Estos resultados demuestran que PhaPAz presenta actividad chaperonatanto in vitro como in vivo en E. coli recombinante, y sugieren que las phasinaspodrían tener un rol protector general en los productores naturales de PHA. Estasobservaciones hacen posible el uso de esta proteína en el desarrollo de nuevasaplicaciones biotecnológicas, como por ejemplo la producción de proteínasrecombinantes y otros productos heterólogos en E. coli. Phasins are a group of proteins associated to granules ofpolyhydroxyalkanoates (PHAs). Apart from their structural role as part of the PHAgranule cover, different structural and regulatory functions have been foundassociated to many of them, and several biotechnological applications have beendeveloped using phasin protein fusions. Despite their remarkable functionaldiversity, the structure of these proteins has not been analyzed except in very fewstudies. PhaP from Azotobacter sp. FA8 (PhaPAz) is a representative of the prevailingtype in the multifunctional phasin protein family. This protein has been cloned andexpressed in Escherichia coli. Recombinant E. coli strains overexpressing phaPAzgrow more, and accumulate more polymer, suggesting that PhaPAz exerts a growthpromoting effect. Expression of PhaPAz was also observed to have an unexpectedprotective effect in E. coli strains that do not synthesize PHAs, under both normaland stress conditions, resulting in increased growth and higher resistance to bothsuperoxide stress and heat shock. The aim of this work was to perform aphysiological and structural characterization of this protein, to shed light on itsproperties. Its secondary structure revealed that it lacks clear hydrophobic domains,a characteristic that appears to be common to most phasins, despite their lipidgranule binding capacity. The secondary structure of this protein, consisting of α-helices and disordered regions, has a remarkable capacity to change according to itsenvironment. Several experimental data support that is a tetramer, probably due tointeractions between coiled-coil regions. These structural features have also beendetected in other phasins, and may be related to their functional diversity. In vitrochaperone activity experiments were performed in order to shed light on themechanisms by which PhaPAz exerts its protective effect. PhaPAz was shown toprevent in vitro thermal aggregation of the model protein citrate sinthase (CS) andto facilitate the refolding process of the enzyme after chemical denaturation. Theseexperiments showed that PhaPAz presents in vitro chaperone activity. Fluorescencemicroscopy and electron transmission microscopy were used to analyze thesubcellular localization of PhaPAz in PHB producing and non PHB producing E. colistrains and to study the role of PhaPAz in in vivo protein folding, protein aggregationand inclusion body dynamics. PhaPAz was shown to colocalize with inclusion bodiesof PD, a protein that forms large inclusion bodies when overexpressed. A reductionin the number of inclusion bodies of PD was observed when the insoluble protein PD was coexpressed with PhaPAz or with the known chaperone GroELS. Theseresults demonstrate that PhaPAz has chaperone like functions both in vitro and invivo in E. coli recombinants, and suggests that phasins could have a generalprotective role in natural PHA producers, that in these microorganisms is maskedby the fitness enhancing properties of the polymer. These observations open thedoor for novel biotechnological applications of this protein, for example, in theproduction of recombinant proteins and other heterologous products in E. coli. Fil: Mezzina, Mariela Paula. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina.

Published
2014

37. Phosphorylation Mechanism Switching in Histidine Kinases Is a Tool for Fast Protein Evolution: Insights From AlphaFold Models.

Author

Olivieri FA, Marti MA, and Wetzler DE

Abstract

Histidine kinases (HKs) are a central part of bacterial environmental-sensing two-component systems. They provide their hosts with the ability to respond to a wide range of physical and chemical signals. HKs are multidomain proteins consisting of at least a sensor domain, dimerization and phosphorylation domain (DHp), and a catalytic domain. They work as homodimers and the existence of two different autophosphorylation mechanisms (cis and trans) has been proposed as relevant for pathway specificity. Although several HKs have been intensively studied, a precise sequence-to-structure explanation of why and how either cis or trans phosphorylation occurs is still unavailable nor is there any evolutionary analysis on the subject. In this work, we show that AlphaFold can accurately determine whether an HK dimerizes in a cis or trans structure. By modeling multiple HKs we show that both cis- and trans-acting HKs are common in nature and the switch between mechanisms has happened multiple times in the evolutionary history of the family. We then use AlphaFold modeling to explore the molecular determinants of the phosphorylation mechanism. We conclude that it is the difference in lengths of the helices surrounding the DHp loop that determines the mechanism. We also show that very small changes in these helices can cause a mechanism switch. Despite this, previous evidence shows that for a particular HK the phosphorylation mechanism is conserved. This suggests that the phosphorylation mechanism participates in system specificity and mechanism switching provides these systems with a way to diverge., (© 2024 Wiley Periodicals LLC.)

Published
2024
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38. A clean, well-defined solid system for photosensitized 1O2 production measurements.

Author

Wetzler DE, García-Fresnadillo D, and Orellana G

Subjects
Chemistry, Physical methods, Computer Simulation, Light, Methylene Blue radiation effects, Models, Chemical, Models, Molecular, Chemistry, Physical instrumentation, Fluorocarbon Polymers chemistry, Membranes, Artificial, Methylene Blue chemistry, Oxygen chemistry, Oxygen radiation effects, Photochemistry methods
Abstract

Generation of singlet molecular oxygen ((1)O(2)) by photosensitization with methylene blue (MB) supported in Nafion-Na films has been quantified by integration of the (1)O(2) emission decay at 1270 nm. The quantum yield of (1)O(2) production (Phi(Delta)) in the air-equilibrated solid phase is 0.24 +/- 0.03. Information on the (1)O(2) generation environment has been gained from complementary techniques such as UV-Vis absorption and emission spectroscopy, as well as MB fluorescence and triplet-triplet absorption decay. Results are compared with the (1)O(2) generation by MB in methanol solution (Phi(Delta) = 0.51) and in methanol-swollen Nafion films (Phi(Delta) = 0.49 +/- 0.06). Differences and similarities are discussed in terms of the factors that influence Phi(Delta) in solution and in the solid media. The optical and mechanical features of Nafion, ease of dye loading, compatibility with most solvents, homogeneity, reproducibility and stability of the photosensitizing material makes it a convenient reference for (1)O(2) generation quantum yield measurements in transparent (micro)heterogeneous and homogeneous media.

Published
2006
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