Showing total 14 results

1. Application of Semiquantitative Proteomics Techniques to the Maillard Reaction.

Author

AMES, JENNIFER M.

Subjects

PROTEINS, BIOMOLECULES, PROTEOMICS, MOLECULAR biology, CHEMICAL biology, ISOTOPES

Abstract

Proteomic tools—in particular, mass spectrometry (MS)—have advanced significantly in recent years, and the identification of proteins within complex mixtures is now a routine procedure. Quantitative methods of analysis are less well advanced and continue to develop. These include the use of stable isotope ratio approaches, isotopically labeled peptide standards, and nonlabeling methods. This paper summarizes the use of MS as a proteomics tool to identify and semiquantify proteins and their modified forms by using examples of relevance to the Maillard reaction. Finally, some challenges for the future are presented. [ABSTRACT FROM AUTHOR]

Published

2005

2. Structure and stability of designed TPR protein superhelices: unusual crystal packing and implications for natural TPR proteins.

Author

Kajander, Tommi, Cortajarena, Aitziber L., Mochrie, Simon, and Regan, Lynne

Subjects

PROTEINS, PROTEOMICS, BIOMOLECULES, AMINO acid sequence, PROTEIN affinity labeling

Abstract

The structure and stability of repeat proteins has been little studied in comparison to the properties of the more familiar globular proteins. Here, the structure and stability of designed tetratricopeptide-repeat (TPR) proteins is described. The TPR is a 34-amino-acid motif which adopts a helix–turn–helix structure and occurs as tandem repeats. The design of a consensus TPR motif (CTPR) has previously been described. Here, the crystal structures and stabilities of proteins that contain eight or 20 identical tandem repeats of the CTPR motif (CTPR8 and CTPR20) are presented. Both CTPR8 and CTPR20 adopt a superhelical overall structure. The structures of the different-length CTPR proteins are compared with each other and with the structures of natural TPR domains. Also, the unusual and perhaps unique crystal-packing interactions resulting in pseudo-infinite crystalline superhelices observed in the different crystal forms of CTPR8 and CTPR20 are discussed. Finally, it is shown that the thermodynamic behavior of CTPR8 and CTPR20 can be predicted from the behavior of other TPRs in this series using an Ising model-based analysis. The designed protein series CTPR2–CTPR20 covers the natural size repertoire of TPR domains and as such is an excellent model system for natural TPR proteins. [ABSTRACT FROM AUTHOR]

Published

2007

3. High-resolution structures of oxidized and reduced thioredoxin reductase from Helicobacter pylori.

Author

Gustafsson, Tomas N., Sandalova, Tatyana, Jun Lu, Holmgren, Arne, and Schneider, Gunter

Subjects

THIOREDOXIN, PROTEINS, PROTEOMICS, THIOLS, BIOMOLECULES

Abstract

The crystal structures of homodimeric thioredoxin reductase (TrxR) from the gastric pathogen Helicobacter pylori in complex with NADP+ have been determined for the oxidized and reduced form of the enzyme at 1.7 and 1.45 Å resolution, respectively. The enzyme subunit is built up of FAD- and NAD(P)H-binding domains, each of which contain variants of the Rossmann fold typical of nucleotide-binding proteins. The majority of the amino-acid residues binding the cofactors FAD and NAD(P)H are conserved in the low-molecular-weight thioredoxin reductases. In the reduced species the isoalloxazine ring of FAD is bent along an axis passing through the N5 and N10 atoms with an angle of 22° and the ribityl moiety adopts an unusual conformation. Well defined electron density shows the position of the whole NADP+ molecule with a binding mode similar to that observed in the Escherichia coli TrxR–thioredoxin complex, although the orientation of the NAD(P)H-binding domain is different. Rigid-body rotation of this domain to the orientation observed in the E. coli TrxR–thioredoxin complex positions NADP+ adjacent to the FAD molecule, suitable for electron transfer, without any readjustments of the conformation of NADP+. A comparison of the binding surfaces of thioredoxin and thioredoxin reductases from H. pylori and E. coli shows that the overall surface charge distribution in these proteins is conserved and that residue substitutions that change the shape of the binding surface may account for the species-specific recognition of thioredoxin by TrxR. [ABSTRACT FROM AUTHOR]

Published

2007

4. Bence Jones KWR protein structures determined by X-ray crystallography.

Author

Makino, Debora L., Henschen-Edman, Agnes H., Larson, Steven B., and McPherson, Alexander

Subjects

PROTEINS, X-ray crystallography, GLYCOPROTEINS, AMINO acid sequence, PROTEOMICS, BIOMOLECULES

Abstract

A Bence Jones protein isolated in the early 1960s from a patient (initials KWR) suffering from plasma-cell dyscrasia was crystallized and its structure was analyzed in four different unit cells by X-ray diffraction. The final models of the molecule in all crystal forms were virtually the same, although the elbow angles relating the constant and variable domains of the Bence Jones dimers varied over a range of 10°. The tetragonal form had an R factor of 22.6% and an Rfree of 28.3% at 2.2 Å resolution. Phosphate or sulfate ions (depending on the crystallization conditions) were found in the antigen-combining sites in all crystals, as well as an unidentified ligand tightly bound in the hydrophobic `deep pocket' beneath the antigen-binding site. The ligand was treated as a phenol molecule. Two trigonal crystal forms were among those solved. One was grown at pH 4.0 and the other was only obtained after sitting for more than eight months at room temperature. The latter crystal was composed of molecules that were degraded in their constant domains. Both low pH and proteolytic degradation of constant domains are known to promote the polymerization of some Bence Jones proteins into amyloid fibrils. Indeed, in both trigonal crystal forms the molecules are organized with pseudo-hexagonal symmetry about the unique crystallographic axes in a manner suggestive of such fibrils. The arrangement of Bence Jones dimers is also consistent with other observations regarding Bence Jones amyloid-fibril structure and current models. [ABSTRACT FROM AUTHOR]

Published

2007

5. Protein stabilization via hydrophilization.

Author

Mozhaev, Vadim V., Šikšnis, Virginius A., Melik-Nubarov, Nikolay S., Galkantaite, Nida Z., Denis, Gervydas J., Butkus, Eugenius P., Zaslavsky, Boris Yu., Mestechkina, Nataliya M., and Martinek, Karel

Subjects

*PROTEINS, *BIOMOLECULES, *ORGANIC compounds, *PROTEOMICS, *TYROSINE, *AMINO acids

Abstract

This paper experimentally verifies the idea presented earlier that the contact of nonpolar clusters located on the surface of protein molecules with water destabilizes proteins. It is demonstrated that protein stabilization can be achieved by artificial hydrophilization of the surface area of protein globules by chemical modification. Two experimental systems are studied for the verification of the hydrophilization approach. 1. The surface tyrosine residues of trypsin are transformed to aminotyrosines using a two-step modification procedure: nitration by tetranitromethane followed by reduction with sodium dithionite. The modified enzyme is much more stable against irreversible thermoinactivation: the stabilizing effect increases with the number of aminotyrosine residues in trypsin and the modified enzyme can become even 100 times more stable than the native one. 2. α-Chymotrypsin is covalently modified by treatment with anhydrides or chloroanhydrides of aromatic carboxytic acids. As a result, different numbers of additional carboxylic groups (up to five depending on the structure of the modifying reagent) are introduced into each Lys residue modified. Acylation of all available amino groups of α-chymotrypsin by cyclic anhydrides of pyromellitic and mellitic acids results in a substantial hydrophilization of the protein as estimated by partitioning in an aqueous Ficoll-400/Dextran-70 biphasic system. These modified enzyme preparations are extremely stable against irreversible thermal inactivation at elevated temperatures (65-98 °C); their thermostability is practically equal to the stability of proteolytic enzymes from extremely thermophilic bacteria, the most stable proteinases known to date. [ABSTRACT FROM AUTHOR]

Published

1988

6. ADP-Ribosylation of Proteins in Non-infected <em>Escherichia coli</em> Cells322.

Author

Skorko, Romuald and Kur, Jozef

Subjects

ESCHERICHIA coli, BIOMOLECULES, PROTEINS, PROTEOMICS, BIOPOLYMERS, BACTERIAL proteins, LYSOZYMES

Abstract

Partially purified enzymatic fractions from extracts of Escherichia coli B/r catalyse transfer of the isotope label from [adenine-2,8-3H]NAD+ to some bacterial proteins, as well as to hen egg-white lysozyme. The radio-active group in the modified lysozyme was identified as mono(ADP-ribose). Several bacterial proteins were labelled in vivo with 32P; the presence of the label in the form of an ADP-ribosyl group was shown in one of them. [ABSTRACT FROM AUTHOR]

Published

1981

7. Regimes of Biomolecular Ultrasmall Nanoparticle Interactions.

Author

Boselli, Luca, Polo, Ester, Castagnola, Valentina, and Dawson, Kenneth A.

Subjects

BIOMOLECULES, NANOPARTICLES, MOLECULAR recognition, GOLD nanoparticles, GLUTATHIONE

Abstract

Ultrasmall nanoparticles (USNPs), usually defined as NPs with core in the size range 1-3 nm, are a class of nanomaterials which show unique physicochemical properties, often different from larger NPs of the same material. Moreover, there are also indications that USNPs might have distinct properties in their biological interactions. For example, recent in vivo experiments suggest that some USNPs escape the liver, spleen, and kidney, in contrast to larger NPs that are strongly accumulated in the liver. Here, we present a simple approach to study the biomolecular interactions at the USNPs bio-nanointerface, opening up the possibility to systematically link these observations to microscopic molecular principles. [ABSTRACT FROM AUTHOR]

Published

2017

8. Survival in extreme environments - on the current knowledge of adaptations in tardigrades.

Author

Møbjerg, N., Halberg, K. A., Jørgensen, A., Persson, D., Bj&;#x00F8;rn, M., Ramløv, H., and Kristensen, R. M.

Subjects

PROTEINS, BIOMOLECULES, ORGANIC compounds, BIOSYNTHESIS, PROTEOMICS

Abstract

Tardigrades are microscopic animals found worldwide in aquatic as well as terrestrial ecosystems. They belong to the invertebrate superclade Ecdysozoa, as do the two major invertebrate model organisms: Caenorhabditis elegans and Drosophila melanogaster. We present a brief description of the tardigrades and highlight species that are currently used as models for physiological and molecular investigations. Tardigrades are uniquely adapted to a range of environmental extremes. Cryptobiosis, currently referred to as a reversible ametabolic state induced by e.g. desiccation, is common especially among limno-terrestrial species. It has been shown that the entry and exit of cryptobiosis may involve synthesis of bioprotectants in the form of selective carbohydrates and proteins as well as high levels of antioxidant enzymes and other free radical scavengers. However, at present a general scheme of mechanisms explaining this phenomenon is lacking. Importantly, recent research has shown that tardigrades even in their active states may be extremely tolerant to environmental stress, handling extreme levels of ionizing radiation, large fluctuation in external salinity and avoiding freezing by supercooling to below −20 °C, presumably relying on efficient DNA repair mechanisms and osmoregulation. This review summarizes the current knowledge on adaptations found among tardigrades, and presents new data on tardigrade cell numbers and osmoregulation. [ABSTRACT FROM AUTHOR]

Published

2011

9. Naturally acquired antibodies to polymorphic and conserved epitopes of Plasmodium falciparum merozoite surface protein 3.

Author

OSIER, F. H. A., POLLEY, S. D., MWANGI, T., LOWE, B., CONWAY, D. J., and MARSH, K.

Subjects

PLASMODIUM falciparum, PLASMODIUM, PROTEINS, BIOMOLECULES, PROTEOMICS

Abstract

Many studies on the role of merozoite surface protein 3 (MSP3) in immunity against malaria have focused on a conserved section of MSP3. New evidence suggests that polymorphic sequences within MSP3 are under immune selection. We report a detailed analysis of naturally-acquired antibodies to allele-specific and conserved parts of MSP3 in a Kenyan cohort. Indirect and competition ELISA to heterologous recombinant MSP3 proteins were used for antibody assays, and parasites were genotyped for msp3 alleles. Antibody reactivity to allele-specific and conserved epitopes of MSP3 was heterogenous between individuals. Overall, the prevalence of allele-specific antibody reactivity was significantly higher (3D7-specific 54%, K1-specific 41%) than that to a recombinant protein representing a conserved portion of C-terminal MSP3 (24%, P <  0·01). The most abundant IgG subclass was IgG3, followed by IgG1. Allele-specific reactivity to the K1-type of MSP3 was associated with a lower risk of clinical malaria episodes during a 6-month follow-up in individuals who were parasitized at the start of the malaria transmission season (Relative risk 0·41 with 95% confidence interval 0·20–0·81, P =  0·011). The potential importance of allele-specific immunity to MSP3 should be considered in addition to immunity to conserved epitopes, in the development of an MSP3 malaria vaccine. [ABSTRACT FROM AUTHOR]

Published

2007

10. Tight junction proteins in keratinocytes: localization and contribution to barrier function.

Author

Yuki, Takuo, Haratake, Akinori, Koishikawa, Hisa, Morita, Kazumasa, Miyachi, Yoshiki, and Inoue, Shintaro

Subjects

KERATINOCYTES, CELLS, PROTEINS, PROTEOMICS, BIOMOLECULES

Abstract

Recent research suggests that tight junctions (TJs) are located in the stratum granulosum, where they contribute to the barrier function of the epidermis. In this study, we investigated the formation of functional TJs in cultured normal human epidermal keratinocytes. We observed the development of permeability barrier function through the process of Ca2+-induced differentiation. Immunofluorescence analyses at 96 h after Ca2+-induced differentiation revealed concentrated portions of occludin, a TJ-specific marker, arranged as continuous lines circumscribing individual flattened suprabasal cells in areas with high concentrations of claudin-1 and -4. Transient Ca2+ depletion reversibly disrupted the continuous network of TJ proteins and the permeability barrier. We also found that the addition of ochratoxin A weakened the permeability barrier and the expression of claudin-4. Our findings suggest that TJ proteins contribute to the permeability barrier in epidermal keratinocytes. [ABSTRACT FROM AUTHOR]

Published

2007

11. Identification of small scale biochemical networks based on general type system perturbations.

Author

Schmidt, Henning, Kwang-Hyun Cho, and Jacobsen, Elling W.

Subjects

MOLECULAR genetics, PROTEOMICS, MOLECULAR biology, GENOMICS, PROTEINS, BIOMOLECULES, METABOLITES

Abstract

New technologies enable acquisition of large data-sets containing genomic, proteomic and metabolic information that describe the state of a cell. These data-sets call for systematic methods enabling relevant information about the inner workings of the cell to be extracted. One important issue at hand is the understanding of the functional interactions between genes, proteins and metabolites. We here present a method for identifying the dynamic interactions between biochemical components within the cell, in the vicinity of a steady-state. Key features of the proposed method are that it can deal with data obtained under perturbations of any system parameter, not only concentrations of specific components, and that the direct effect of the perturbations does not need to be known. This is important as concentration perturbations are often difficult to perform in biochemical systems and the specific effects of general type perturbations are usually highly uncertain, or unknown. The basis of the method is a linear least-squares estimation, using time-series measurements of concentrations and expression profiles, in which system states and parameter perturbations are estimated simultaneously. An important side-effect of also employing estimation of the parameter perturbations is that knowledge of the system's steady-state concentrations, or activities, is not required and that deviations from steady-state prior to the perturbation can be dealt with. Time derivatives are computed using a zero-order hold discretization, shown to yield significant improvements over the widely used Euler approximation. We also show how network interactions with dynamics that are too fast to be captured within the available sampling time can be determined and excluded from the network identification. Known and unknown moiety conservation relationships can be processed in the same manner. The method requires that the number of samples equals at least the number of network components and, hence, is at present restricted to relatively small-scale networks. We demonstrate herein the performance of the method on two small-scalein silicogenetic networks. [ABSTRACT FROM AUTHOR]

Published

2005

12. Influence of Protein Source, Type, and Concentration, and Product Form on the Protein Quality of Commercial Enteral Formulas.

Author

Castillo, G., Sanz, M. Geles, Serrano, M. Angeles, and Hernandez, A.

Subjects

PROTEINS, POLYPEPTIDES, BIOMOLECULES, ORGANIC compounds, PROTEOMICS, FOOD of animal origin

Abstract

The total, protein, and nonprotein nitrogen, 3 amino acids (lysine, histidine, and tyrosine), available lysine, and in vitro protein digestibility in enteral formulas were determined. Available lysine and protein digestibility were lower in the liquid formulas tested than in the powdered formulas. The protein quality of the formula made from soy protein isolate (soy) was lower than that of the formulas made from casein, and the protein quality of a low-protein formula was lower than that of the standard formulas. There was a statistically significant correlation between the available lysine content and protein digestibility in the polymeric formulas. New methods are required for assessing the protein quality of formulas containing hydrolyzed proteins. [ABSTRACT FROM AUTHOR]

Published

2002

13. Kinetics of electron transfer between two <em>Hansenula anomala</em> flavocytochrome <em>b</em>2 derivatives and two simple copper proteins (azurin ans stellacyanin).

Author

Silvestrini, Maria Chiara, Brunori, Maurizio, Tegoni, Mariella, Gervais, Michel, and Labeyrie, Françoise

Subjects

OXIDATION-reduction reaction, PROTEINS, BIOMOLECULES, ORGANIC compounds, PROTEOMICS, BIOCHEMISTRY

Abstract

Two derivatives of Hansenula anomala Flavocytochrome b2 have been prepared, one deprived of the flavin prosthetic group (deflavocytochrome B2), and the other consisting of the heme-h-carrying globule (b2 core). The redox potential of the heme in the two derivatives is -5 (±5) mV and -10 (±5) mV respectively, fairly similar to the value of -20 (±5) mV reported for the holoenzyme, indicating a minor effect of the flavin and of the flavodehydrogenase domain on heme potential. The kinetic of azurin and stellacyanin reduction by both derivatives have been investigated. At pH 7.0, I= 0.2 M and 20°C the second-order rate constants are k = 8 x 105M-1s-1 for azurin reduction by deflavocytochrome b2; k = 1.6 x 106 M-1s-1 for azurin reduction by b2 core; k = 1 x 107 M-1s-1 for stellacyanin reduction by deflavocytochrome b2; k = 3 x 107 M-1s-1 for stellacyanin reduction by b2 core. The change in pH markedly affects the kinetics in the case of azurin, but has no effect on stellacyanin reduction. The change in ionic strength has a significant effect when deflavocytochrome b2 is the reductant, indicating that the flavodehydrogenase domain plays a role in the stabilization of the transient kinetic complex by means of electrostatic interactions. The kinetic results are discussed in the framework of the Marcus theory. [ABSTRACT FROM AUTHOR]

Published

1986

14. Phosphorylation of ribosomal protein S6 in the aquatic fungus <em>Blastocladiella emersonii</em>.

Author

Bonato, M. Christina M., da Silva, Aline M., Maia, José Carlos da Costa, and Juliani, Maria Helena

Subjects

PROTEIN research, PROTEINS, BIOMOLECULES, RIBOSOMES, PHOSPHORYLATION, CHEMICAL reactions, BLASTOCLADIELLA emersonii, PROTEOMICS, BIOCHEMISTRY

Abstract

The changes in the degree of phosphorylation of ribosomal protein S6 during the life cycle of the aquatic fungus Blastocladiella emersonii were analyzed by two-dimensional gel electrophoresis. Three phosphorylated derivatives of S6 are present throughout the entire life cycle. However, under certain germination condition, more highly phosphorylated derivatives of S6 appear. Nonetheless, the resumption of protein synthesis that occurs during germination is not dependent on those highly phosphorylated derivatives of S6. The pattern and sites of phosphorylation of S6 labelled in vivo with [32P]orthophosphate have been compared with those of 40S ribosomal subunit labelled in vitro by partially purified protein kinases. Three major phosphopeptides were found in S6 isolated from the zoospore, while six phosphopeptides were found after zoospore germination (in germling cells). The phosphopeptide patterns of S6 phosphorylated by the cAMP-dependent protein kinase and by casein kinases I and II were completely distinct. Only the cAMP-dependent protein kinase gives rise to a phosphopeptide found in 32P-labelled cells, indicating that one of sites phosphorylated in vivo is also phoshorylated in vitro by the cAMP-dependent protein kinase. [ABSTRACT FROM AUTHOR]

Published

1984