Defining thermostability of membrane proteins by western blotting

Membrane proteins are relatively challenging targets for structural and other biophysical studies. Insufficient expression in various expression systems, inherent flexibility, and instability in the detergents that are required for membrane extraction are the main reasons for this limited success. Therefore, identification of suitable conditions and membrane protein variants that can help stabilize functional protein for extended periods of time is critical for structural studies. Here, we describe a western blot-based assay that simplifies identification of thermostabilizing conditions for membrane proteins. We show successful testing of a variety of parameters such as additive lipids, ligands and detergent

SQL Based Paperless Examination System

A database management system (DBMS) consists of software that operates database, providing storage, access and security, backup and other facilities. Database management systems can be categorized according to the database model that they support, such as relational or XML, the type(s) of computer they support, such as a server cluster or a mobile phone, the query language(s) that access the database, such as SQL or X Query, performance trade-offs, such as maximum scale or maximum speed or others. Using these facilities we intend to develop A Paperless SQL Based Examination. This shall support a descriptive examination and multiple clients at a given time. Paperless examination is an important role of modern education, which can effectively reduce the teachers workload and improve work efficiency. This article describes a novel SQL-based paperless examination system, including objective questions as well as SQL programming questions. Keywords: Database, Examination, Paperless, Test, Sq

Effect of Inhomogeneous Distribution of Alloying Elements on Integrity of Al-2.1 wt.% Mg Alloy Tubes and Welds

Al-2.1 wt.% Mg alloy is an important nuclear research reactor material. The tubular products of the alloy are usually made by port-hole die extrusion process and several quality control steps are involved during fabrication to assess the quality of the weld joint. The paper describe two cases of  failures of the alloy during fabrication. In one case, a thin wall tube failed during hydro-test at the weld-line while in another, a through-wall crack is observed at the heat affected zone (HAZ) of the weld joint between the thin tube and the tie-plate. In both the cases, the fracture surfaces have the appearance of brittle failure without any gross plastic deformation. Visual inspection, liquid penetrant testing, optical microscopy (OM), scanning electron microscopy (SEM) with energy dispersive spectrometry (EDS), Electron back scattered diffraction (EBSD) and micro-hardness measurement have been carried out for root cause analysis of the failures. EDS analysis at low KV indicates high Magnesium (Mg) and Silicon (Si) content at the fracture surface in both the cases. In the first case, segregation of these alloying elements at the weld-line in the port hole extruded tube has been observed. In the second case, the microstructure at the HAZ location shows grain boundary precipitation of low melting  phase containing Mg, Si and Fe. Presence of Mg and Si reduce the solidus temperature of the grain boundary phase, which is responsible for HAZ liquation leading to failure under tensile stress during cooling

On the (un)coupling of the chromophore, tongue interactions, and overall conformation in a bacterial phytochrome

Phytochromes are photoreceptors in plants, fungi, and various microorganisms and cycle between metastable red light-absorbing (Pr) and far-red light-absorbing (Pfr) states. Their light responses are thought to follow a conserved structural mechanism that is triggered by isomerization of the chromophore. Downstream structural changes involve refolding of the so-called tongue extension of the phytochrome-specific GAF-related (PHY) domain of the photoreceptor. The tongue is connected to the chromophore by conserved DIP and PRXSF motifs and a conserved tyrosine, but the role of these residues in signal transduction is not clear. Here, we examine the tongue interactions and their interplay with the chromophore by substituting the conserved tyrosine (Tyr(263)) in the phytochrome from the extremophile bacterium Deinococcus radiodurans with phenylalanine. Using optical and FTIR spectroscopy, X-ray solution scattering, and crystallography of chromophore-binding domain (CBD) and CBD-PHY fragments, we show that the absence of the Tyr(263) hydroxyl destabilizes the -sheet conformation of the tongue. This allowed the phytochrome to adopt an -helical tongue conformation regardless of the chromophore state, hence distorting the activity state of the protein. Our crystal structures further revealed that water interactions are missing in the Y263F mutant, correlating with a decrease of the photoconversion yield and underpinning the functional role of Tyr(263) in phytochrome conformational changes. We propose a model in which isomerization of the chromophore, refolding of the tongue, and globular conformational changes are represented as weakly coupled equilibria. The results also suggest that the phytochromes have several redundant signaling routes.Peer reviewe

Comparative analysis of two paradigm bacteriophytochromes reveals opposite functionalities in two-component signaling

Bacterial phytochrome photoreceptors usually belong to two-component signaling systems which transmit environmental stimuli to a response regulator through a histidine kinase domain. Phytochromes switch between red light-absorbing and far-red light-absorbing states. Despite exhibiting extensive structural responses during this transition, the model bacteriophytochrome from Deinococcus radiodurans (DrBphP) lacks detectable kinase activity. Here, we resolve this long-standing conundrum by comparatively analyzing the interactions and output activities of DrBphP and a bacteriophytochrome from Agrobacterium fabrum (Agp1). Whereas Agp1 acts as a conventional histidine kinase, we identify DrBphP as a light-sensitive phosphatase. While Agp1 binds its cognate response regulator only transiently, DrBphP does so strongly, which is rationalized at the structural level. Our data pinpoint two key residues affecting the balance between kinase and phosphatase activities, which immediately bears on photoreception and two-component signaling. The opposing output activities in two highly similar bacteriophytochromes suggest the use of light-controllable histidine kinases and phosphatases for optogenetics. The bacteriophytochrome DrBphP from Deinococcus radiodurans shows high sequence homology to the histidine kinase Agp1 from Agrobacterium fabrum but lacks kinase activity. Here, the authors structurally and biochemically analyse DrBphP and Agp1, showing that DrBphP is a light-activatable phosphatase.Peer reviewe

The primary structural photoresponse of phytochrome proteins captured by a femtosecond X-ray laser

Phytochrome proteins control the growth, reproduction, and photosynthesis of plants, fungi, and bacteria. Light is detected by a bilin cofactor, but it remains elusive how this leads to activation of the protein through structural changes. We present serial femtosecond X-ray crystallographic data of the chromophore-binding domains of a bacterial phytochrome at delay times of 1 ps and 10 ps after photoexcitation. The data reveal a twist of the D-ring, which leads to partial detachment of the chromophore from the protein. Unexpectedly, the conserved so-called pyrrole water is photodissociated from the chromophore, concomitant with movement of the A-ring and a key signaling aspartate. The changes are wired together by ultrafast backbone and water movements around the chromophore, channeling them into signal transduction towards the output domains. We suggest that the observed collective changes are important for the phytochrome photoresponse, explaining the earliest steps of how plants, fungi and bacteria sense red light.Peer reviewe

Biochemical and biophysical studies on adenosine receptors and their interaction partners

Abstract Adenosine receptors are heterotrimeric guanine nucleotide-binding (G protein)-coupled receptors (GPCRs) that mediate the effects of the endogenous agonist adenosine. The adenosine A3 receptor (A3R) is the least explored among the four human adenosine receptor subtype members (A1, A2A, A2B and A3) and it is implicated in both neuroprotective and neurodegenerative effects. During the course of this work, the production of the recombinant human A3R in yeast and insect cells was evaluated and heteromerization between the human adenosine A2A receptor (A2AR) and the dopamine D2 receptor (D2R) was studied. A3R with carboxyl-terminal GFP tag was expressed in the yeast Saccharomyces cerevisiae upto 15 mg per litre of culture. Another yeast Pichia pastoris increased the expression up to 108 mg/L of the same receptor when grown in bioreactors. Despite the very high expression levels, purification of A3R from both yeasts was a daunting task, as the aggregation of the receptor could not be averted. In this study, insect cells have been found out to be more suitable host for A3R expression: 10µg of the monomeric A3R could be purified from one liter of insect cell culture. For successful crystallization thermostability of the A3R was to be improved. This work has demonstrated that insertion of T4L, a fusion protein, in the third intracellular loop of A3R increased the thermostability of the receptor by 10°C. As a next step, the combination of point mutations based on alanine-scanning mutagenesis and a fusion protein approach could be useful to stabilize and further crystallize the A3R. This work has demonstrated that the amounts of A3R expressed in insect cells and the final yield of the receptor isolated by affinity purifications, forms a good basis for the beginning of biochemical characterization Receptor heteromerization is a mechanism used by GPCRs to diversify their signaling properties and functions. The human A2AR and D2R heteromers exist in the GABAergic enkephalinergic neurons. The domains responsible for forming intermolecular contacts were purified from Escherichia coli (E. coli). Using biochemical/biophysical techniques such as native-PAGE and mass spectrometry, It was validated that purified carboxyl-terminus of the A2AR and the 3rd intracellular loop of D2R form heterodimers. The investigation of purified calmodulin protein binding to the 3rd intracellular loop of D2R showed that the protein-protein interactions are calcium dependent.Tiivistelmä Adenosiinireseptorit kuuluvat G-proteiinikytkeiset reseptorit (GPCR:t) proteiiniperheeseen. Adenosiinireseptorit välittävät endogeenisen ligandinsa adenosiinin vaikutuksia solukalvolta solunsisäisiin signaalijärjestelmiin. Adenosiini A3 reseptori (A3R) on adenosiinireseptorien neljästä alatyypistä (A1, A2A, A2B ja A3) vähiten tutkittu. Aikaisempien tutkimusten perusteella A3 reseptori yhdistetään sekä hermosoluja suojaaviin että rappeuttaviin tapahtumiin. Tässä työssä arvioitiin sekä ihmisen rekombinantti-A3R:n tuottumista hiiva- ja hyönteissoluissa että tutkittiin ihmisen adenosiini A2A reseptorin (A2AR) ja dopamiini D2 reseptorin (D2R) heteromerisoitumista. Rekombinantti A3 reseptori- vihreä fluoresoiva proteiini (GFP) fuusioproteiinia tuotettiin Saccharomyces cerevisiae -hiivassa 15 mg litrassa kasvatusliuosta. Pichia pastoris -hiivakanta taas kasvatti saman reseptorin tuottumista aina 108 mg/l saakka, kun tuotto tehtiin bioreaktorissa. Hyvin korkeasta tuottotasosta huolimattaA3R:n puhdistus hiivasta oli ylitsepääsemätön tehtävä, sillä reseptorin saostumista ei voinut välttää. Työssä havaittiin, että hyönteissolut sopivat paremmin A3R:n tuottoon: noin 10 µg monomeerista A3R:a voitiin puhdistaa litran hyönteissoluviljelmästä. Reseptorin stabiilisuuden lisääminen helpottaa reseptorin biokemiallista ja biofysikaalista karakterisointia. Tässä työssä osoitettiin, että T4L-proteiinin lisääminen A3R:n kolmannen solunsisäisen silmukan paikalle lisää reseptorin lämpöstabiilisuutta 10 °C. Jatkotutkimuksissa voitaisiin käyttää alaniiniskannausmutageneesiin perustuvien pistemutaatioiden ja fuusioproteiinin yhdistelmää A3R:n lisästabilointiin ja kiteytykseen. Tämän työn perusteella määrät, joilla A3R tuottuu hyönteissoluissa ja jotka saadaan eristettyä affiniteettipuhdistuksilla, muodostavat hyvän perustan proteiinin biokemialliselle karakterisoinnille. Reseptorin heteromerisoituminen on GPCR:en käyttämä mekanismi signalointiominaisuuksien ja toimintojen monipuolistamiseksi. Ihmisessä A2AR ja D2R heteromeereja on GABAergisissä enkefalinergisissä hermosoluissa. Molekyylien välisiin kontakteihin osallistuvat domeenit puhdistettiin Escherichia coli (E. coli) -bakteerista. Biokemiallisia ja biofysikaalisia tekniikoita kuten natiivi-PAGE:a ja massaspektrometriaa käyttäen vahvistettiin, että puhdistettu A2AR:n karboksiterminaalinen osa ja D2R:n kolmas solunsisäinen silmukka muodostavat heterodimeereja. Myös tutkittaessa puhdistetun kalmoduliini-proteiinin sitoutumista D2R:n kolmanteen solunsisäiseen silmukkaan osoitettiin proteiini-proteiini -vuorovaikutuksen olevan kalsiumista riippuvainen