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81.
Background
Sequence comparison is one of the most prominent tools in biological research, and is instrumental in studying gene function and evolution. The rapid development of high-throughput technologies for measuring protein interactions calls for extending this fundamental operation to the level of pathways in protein networks. 相似文献82.
In vitro hydroxyapatite adsorbed salivary proteins 总被引:1,自引:0,他引:1
Vitorino R Lobo MJ Duarte J Ferrer-Correia AJ Tomer KB Dubin JR Domingues PM Amado FM 《Biochemical and biophysical research communications》2004,320(2):342-346
In spite of the present knowledge about saliva components and their respective functions, the mechanism(s) of pellicle and dental plaque formation have hitherto remained obscure. This has prompted recent efforts on in vitro studies using hydroxyapatite (HA) as an enamel model. In the present study salivary proteins adsorbed to HA were extracted with TFA and EDTA and resolved by 2D electrophoresis over a pH range between 3 and 10, digested, and then analysed by MALDI-TOF/TOF mass spectrometry and tandem mass spectrometry. Nineteen different proteins were identified using automated MS and MS/MS data acquisition. Among them, cystatins, amylase, carbonic anhydrase, and calgranulin B, were identified. 相似文献
83.
Filamentous bacteriophage assemble at the host membrane in a non-lytic process; the gene-3 minor coat protein (P3) is required for release from the membrane and subsequently, for recognition and infection of a new host. P3 contains at least three distinct domains: two N-terminal domains that mediate host recognition and infection, and a C-terminal domain (P3-C) that is required for release from the host cell following phage assembly and contributes to the structural stability of the phage particle. A comprehensive mutational analysis of the 150 residue P3-C revealed that only 24 side-chains, located within the last 70 residues of sequence, were necessary for efficient incorporation into a wild-type coat. The results reveal that the requirements for the assembly of P3 into the phage particle are quite lax and involve only a few key side-chains. These findings shed light on the functional and structural requirements for filamentous phage assembly, and they may provide guidelines for the engineering of improved coat proteins as scaffolds for phage display technology. 相似文献
84.
Decoding cilia function: defining specialized genes required for compartmentalized cilia biogenesis 总被引:30,自引:0,他引:30
Avidor-Reiss T Maer AM Koundakjian E Polyanovsky A Keil T Subramaniam S Zuker CS 《Cell》2004,117(4):527-539
The evolution of the ancestral eukaryotic flagellum is an example of a cellular organelle that became dispensable in some modern eukaryotes while remaining an essential motile and sensory apparatus in others. To help define the repertoire of specialized proteins needed for the formation and function of cilia, we used comparative genomics to analyze the genomes of organisms with prototypical cilia, modified cilia, or no cilia and identified approximately 200 genes that are absent in the genomes of nonciliated eukaryotes but are conserved in ciliated organisms. Importantly, over 80% of the known ancestral proteins involved in cilia function are included in this small collection. Using Drosophila as a model system, we then characterized a novel family of proteins (OSEGs: outer segment) essential for ciliogenesis. We show that osegs encode components of a specialized transport pathway unique to the cilia compartment and are related to prototypical intracellular transport proteins. 相似文献
85.
Drosophila melanogaster larval hemolymph protein mapping 总被引:5,自引:0,他引:5
Guedes Sde M Vitorino R Tomer K Domingues MR Correia AJ Amado F Domingues P 《Biochemical and biophysical research communications》2003,312(3):545-554
With the completion of the genome sequence of Drosophila melanogaster the importance of constructing a proteome map is to be considered. Therefore, with the application of recent advances in proteomic analysis approaches, a protein map of D. melanogaster larvae hemolymph proteins was obtained using 2-DE in the range of pH 3-10. After Coomassie colloidal detection of 289 spots, a total of 105 were excised from the gel and digested with trypsin. Identification was done based on a combination of MALDI-TOF/TOF MS and MS/MS spectra. The 99 proteins identified using this approach include a large number of metabolic enzymes, translational apparatus components, and structural proteins. Among these we emphasize the identification of proteins with molecular chaperone properties (heat shock proteins and PPIases) and protein spots involved in defense responses such as antioxidant and immunological defense mechanisms (thioredoxin, prophenoloxidase, and serine proteases), as well as in signal transduction pathways. 相似文献
86.
Beta-lactamases are the most widespread resistance mechanism to beta-lactam antibiotics, such as the penicillins and cephalosporins. Transition-state analogues that bind to the enzymes with nanomolar affinities have been introduced in an effort to reverse the resistance conferred by these enzymes. To understand the origins of this affinity, and to guide design of future inhibitors, double-mutant thermodynamic cycle experiments were undertaken. An unexpected hydrogen bond between the nonconserved Asn289 and a key inhibitor carboxylate was observed in the X-ray crystal structure of a 1 nM inhibitor (compound 1) in complex with AmpC beta-lactamase. To investigate the energy of this hydrogen bond, the mutant enzyme N289A was made, as was an analogue of 1 that lacked the carboxylate (compound 2). The differential affinity of the four different protein and analogue complexes indicates that the carboxylate-amide hydrogen bond contributes 1.7 kcal/mol to overall binding affinity. Synthesis of an analogue of 1 where the carboxylate was replaced with an aldehyde led to an inhibitor that lost all this hydrogen bond energy, consistent with the importance of the ionic nature of this hydrogen bond. To investigate the structural bases of these energies, X-ray crystal structures of N289A/1 and N289A/2 were determined to 1.49 and 1.39 A, respectively. These structures suggest that no significant rearrangement occurs in the mutant versus the wild-type complexes with both compounds. The mutant enzymes L119A and L293A were made to investigate the interaction between a phenyl ring in 1 and these residues. Whereas deletion of the phenyl itself diminishes affinity by 5-fold, the double-mutant cycles suggest that this energy does not come through interaction with the leucines, despite the close contact in the structure. The energies of these interactions provide key information for the design of improved inhibitors against beta-lactamases. The high magnitude of the ion-dipole interaction between Asn289 and the carboxylate of 1 is consistent with the idea that ionic interactions can provide significant net affinity in inhibitor complexes. 相似文献
87.
Cancer patients, treated by either chemo- or radiotherapy, frequently suffer from ovarian failure and infertility. One of the new emerging techniques to preserve reproductive potential of such patients is cryopreservation of ovarian fragments prior to treatment and their retransplantation after healing. A major obstacle in survival of the ovarian implants is vascular failure, which leads to tissue necrosis. In order to investigate the role of angiogenesis in implant preservation, we used a xenograft model in which rat ovaries were transplanted into immunodeficient mice. Graft reception and maintenance were monitored by magnetic resonance imaging (MRI) and histology. Two transplantation sites were explored, i.e., subcutaneous and intramuscular. Comparison between these two transplantation sites revealed the importance of vascular smooth muscle cells and pericytes in sustaining vascular and tissue integrity. Histological examination of the grafts, at different time points and sizes, revealed that loss of perivascular cells preceded damage to endothelial cells and was closely correlated with loss of follicular and oocyte integrity. Intramuscular implantation provided better maintenance of implant perivascular cells relative to subcutaneous implantation. Accordingly, follicular integrity was superior in the intramuscular implants and the number of damaged follicles was significantly lower compared with the subcutaneous transplantation site. These results suggest that improving ovarian implant maintenance should be directed toward preservation of perivascular support. 相似文献
88.
Proteolytic digestion of proteins bound to immobilized antibodies, combined with matrix assisted laser desorption (MALDI)
mass spectrometric identification of the affinity-bound peptides, can be a powerful technique for epitope determination. Binding
of the protein to the antibody is done while the protein is in its native, folded state. A purified protein is not required
for this procedure, because only proteins containing the antigenic determinant will bind to the antibody in the initial step.
The method makes use of the resistance of the antibody to enzymatic digestion. Enzymatic cleavage products of the antigenic
protein not containing the epitope are washed off the beads, leaving the epitope-containing fragments affinity bound to the
immobilized antibody. Dissociation of the antigen-antibody complex prior to mass spectrometric analysis is unnecessary because
the affinity-bound peptides are released by the MALDI matrix crystallization process, although the antibody remains covalently
attached to the sepharose beads.
This epitope-mapping protocol has been used in the determination of both continuous and discontinuous epitopes on both glycosylated
and unglycosylated proteins. 相似文献
89.
J Ma W Qu P E Scarborough K B Tomer C R Moomaw R Maronpot L S Davis M D Breyer D C Zeldin 《The Journal of biological chemistry》1999,274(25):17777-17788
90.
Acyl glucuronides bind irreversibly to plasma proteins, and one mechanism proposed for this covalent binding is similar to that for glycation of protein by reducing sugars. Because glycation of protein by glucose and other reducing sugars can alter protein function, this lead to the hypothesis that the glycation of proteins by acyl glucuronides may cause similar effects. When human serum albumin (HSA) was incubated with 0.5 M glucose for 5 days, the unbound fractions of diazepam and warfarin were increased by 41 and 35%, respectively, less than that caused by glucuronic acid which increased the unbound fractions by 90% for diazepam and 420% for warfarin. When HSA was incubated with suprofen glucuronide (SG) at a much lower concentration of 0.005 M for only 24 h, the effects on the unbound fractions of diazepam and warfarin to HSA were altered dramatically with increases of 340 and 230%, respectively. After incubation of superoxide dismutase (SOD) with 0.5 or 1 M reducing sugars for 14 days, the enzyme activity decreased to 82 and 61% of initial levels at day 14, respectively, whereas glucuronic acid almost completely inactivated the enzyme activity over the same period. Even at a very low concentration (0.005 M) of SG, SOD activity was reduced significantly to 11% of initial levels by day 14, which was comparable to the effect by 0.5 and 1.0 M concentrations of glucuronic acid. Sodium dodecyl sulfate polyacrylamide gel electrophoresis and matrix associated laser desorption/ionization time of flight mass spectrometry indicated that several equivalents of reducing sugars or SG became attached to albumin after incubation. These results suggest that acyl glucuronides may affect the function of proteins by the formation of glycated protein in vivo and may be associated with the toxicity of xenobiotics metabolized to labile acyl glucuronides. 相似文献