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121.
122.
The protein ERp57/GRP58 is a stress-responsive protein and a component of the protein disulfide isomerase family. Its functions
in the endoplasmic reticulum are well known, concerning mainly the proper folding and quality control of glycoproteins, and
participation in the assembly of the major histocompatibility complex class 1. However, ERp57 is present in many other subcellular
locations, where it is involved in a variety of functions, primarily suggested by its participation in complexes with other
proteins and even with DNA. While in some instances these roles need to be confirmed by further studies, a great number of
observations support the participation of ERp57 in signal transduction from the cell surface, in regulatory processes taking
place in the nucleus, and in multimeric protein complexes involved in DNA repair. 相似文献
123.
Benjamin M Nitsche Jonathan Crabtree Gustavo C Cerqueira Vera Meyer Arthur FJ Ram Jennifer R Wortman 《BMC genomics》2011,12(1):486
Background
Detailed and comprehensive genome annotation can be considered a prerequisite for effective analysis and interpretation of omics data. As such, Gene Ontology (GO) annotation has become a well accepted framework for functional annotation. The genus Aspergillus comprises fungal species that are important model organisms, plant and human pathogens as well as industrial workhorses. However, GO annotation based on both computational predictions and extended manual curation has so far only been available for one of its species, namely A. nidulans.Results
Based on protein homology, we mapped 97% of the 3,498 GO annotated A. nidulans genes to at least one of seven other Aspergillus species: A. niger, A. fumigatus, A. flavus, A. clavatus, A. terreus, A. oryzae and Neosartorya fischeri. GO annotation files compatible with diverse publicly available tools have been generated and deposited online. To further improve their accessibility, we developed a web application for GO enrichment analysis named FetGOat and integrated GO annotations for all Aspergillus species with public genome sequences. Both the annotation files and the web application FetGOat are accessible via the Broad Institute's website (http://www.broadinstitute.org/fetgoat/index.html). To demonstrate the value of those new resources for functional analysis of omics data for the genus Aspergillus, we performed two case studies analyzing microarray data recently published for A. nidulans, A. niger and A. oryzae.Conclusions
We mapped A. nidulans GO annotation to seven other Aspergilli. By depositing the newly mapped GO annotation online as well as integrating it into the web tool FetGOat, we provide new, valuable and easily accessible resources for omics data analysis and interpretation for the genus Aspergillus. Furthermore, we have given a general example of how a well annotated genome can help improving GO annotation of related species to subsequently facilitate the interpretation of omics data.124.
Szklarczyk R Wanschers BF Cuypers TD Esseling JJ Riemersma M van den Brand MA Gloerich J Lasonder E van den Heuvel LP Nijtmans LG Huynen MA 《Genome biology》2012,13(2):R12-14
Background
Orthology is a central tenet of comparative genomics and ortholog identification is instrumental to protein function prediction. Major advances have been made to determine orthology relations among a set of homologous proteins. However, they depend on the comparison of individual sequences and do not take into account divergent orthologs.Results
We have developed an iterative orthology prediction method, Ortho-Profile, that uses reciprocal best hits at the level of sequence profiles to infer orthology. It increases ortholog detection by 20% compared to sequence-to-sequence comparisons. Ortho-Profile predicts 598 human orthologs of mitochondrial proteins from Saccharomyces cerevisiae and Schizosaccharomyces pombe with 94% accuracy. Of these, 181 were not known to localize to mitochondria in mammals. Among the predictions of the Ortho-Profile method are 11 human cytochrome c oxidase (COX) assembly proteins that are implicated in mitochondrial function and disease. Their co-expression patterns, experimentally verified subcellular localization, and co-purification with human COX-associated proteins support these predictions. For the human gene C12orf62, the ortholog of S. cerevisiae COX14, we specifically confirm its role in negative regulation of the translation of cytochrome c oxidase.Conclusions
Divergent homologs can often only be detected by comparing sequence profiles and profile-based hidden Markov models. The Ortho-Profile method takes advantage of these techniques in the quest for orthologs. 相似文献125.
In the past, enzymatic activity has always been expected to be dependent on overall protein rigidity, necessary for substrate recognition and optimal orientation. However, increasing evidence is now accumulating, revealing that some proteins characterized by intrinsic disorder are actually able to perform catalysis. Among them, the only known natural intrinsically disordered enzyme is UreG, a GTPase that, in plants and bacteria, is involved in the protein interaction network leading to Ni(2+) ions delivery into the active site of urease. In this paper, we report a detailed analysis of the unfolding behaviour of UreG from Bacillus pasteurii (BpUreG), following its thermal and chemical denaturation with a combination of fluorescence spectroscopy, calorimetry, CD and NMR. The results demonstrate that BpUreG exists as an ensemble of inter-converting conformations, whose degrees of secondary structure depend on temperature and denaturant concentration. In particular, three major types of conformational ensembles with different degrees of residual structure were identified, with major structural characteristics resembling those of a molten globule (low temperature, absence of denaturant), pre-molten globule (high temperature, absence or presence of denaturant) and random coil (low temperature, presence of denaturant). Transitions among these ensembles of conformational states occur non-cooperatively although reversibly, with a gradual loss or acquisition of residual structure depending on the conditions. A possible role of disorder in the biological function of UreG is envisaged and discussed. 相似文献
126.
127.
15N-1H Residual dipolar coupling analysis of native and alkaline-K79A Saccharomyces cerevisiae cytochrome c
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Residual dipolar couplings (RDCs) and pseudocontact shifts are experimentally accessible properties in nuclear magnetic resonance that are related to structural parameters and to the magnetic susceptibility anisotropy. We have determined RDCs due to field-induced orientation of oxidized-K79A and reduced cytochrome c at pH 7.0 and oxidized-K79A cytochrome c at pH 11.1 through measurements of amide (15)N-(1)H (1)J couplings at 800 and 500 MHz. The pH 7.0 RDCs for Fe(III)- and Fe(II)-cytochrome c together with available nuclear Overhauser effects were used to recalculate solution structures that were consistent with both sets of constraints. Molecular magnetic susceptibility anisotropy values were calculated for both redox states of the protein. By subtracting the residual dipolar couplings (RDCs) of the reduced form from those of the oxidized form measured at the same magnetic field (800 MHz), we found the RDC contribution of the paramagnetic metal ion in the oxidized protein. The magnetic susceptibility anisotropy, which was calculated from the structure, was found to be the same as that of the paramagnetic metal ion obtained independently from pseudocontact shifts, thereby indicating that the elements of secondary structure either are rigid or display the same mobility in both oxidation states. The residual dipolar coupling values of the alkaline-K79A form are small with respect to those of oxidized native cytochrome, whereas the pseudocontact shifts are essentially of the same magnitude, indicating local mobility. Importantly, this is the first time that mobility has been found through comparison of RDCs with pseudocontact shifts. 相似文献
128.
Postiglione L Di Domenico G Giordano-Lanza G Ladogana P Turano M Castaldo C Di Meglio F Cocozza S Montagnani S 《European journal of histochemistry : EJH》2003,47(4):309-316
We investigated the effects of human granulocyte macrophage-colony stimulating factor (GM-CSF) on the relation between differentiation and apoptosis in SaOS-2 cells, an osteoblast-like cell line. To determine the relationship between these cellular processes, SaOS-2 cells were treated in vitro for 1, 7 and 14 days with 200 ng/mL GM-CSF and compared with untreated cells. Five nM insulin-like growth factor (IGF-I) and 30 nM okadaic acid were used as negative and positive controls of apoptosis, respectively. Effects on cell differentiation were determined by ECM (extracellular matrix) mineralization, morphology of some typical mature osteoblast differentiation markers, such as osteopontin and sialoprotein II (BSP-II), and production of bone ECM components such as collagen I. The results showed that treatment with GM-CSF caused cell differentiation accompanied by increased production of osteopontin and BSP-II, together with increased ECM deposition and mineralization. Flow cytometric analysis of annexin V and propidium iodide incorporation showed that GM-CSF up-regulated apoptotic cell death of SaOS-2 cells after 14 days of culture in contrast to okadaic acid, which stimulated SaOS-2 apoptosis only during the early period of culture. Endonucleolytic cleavage of genomic DNA, detected by "Aúladdering analysis"Aù, confirmed these data. The results suggest that GM-CSF induces osteoblastic differentiation and long-term apoptotic cell death of the SaOS-2 human osteosarcoma cell line, which in turn suggests a possible in vivo physiological role for GM-CSF on human osteoblast cells. 相似文献
129.
The reversible unfolding of oxidized Bacillus pasteurii cytochrome c(553) by guanidinium chloride under equilibrium conditions has been monitored by NMR and optical spectroscopy. The results obtained indicate that unfolding takes place through a mechanism involving the detachment from heme iron coordination of the sulfur of the Met71 axial ligand and yielding either a high spin (HS) or a low spin (LS(1)) species, depending on the pH value. In the LS(1) form the Met71 is replaced by another protein ligand, possibly Lys. The ligand exchange reaction does not reach completion until the protein backbone reaches a largely unfolded state, as monitored through 1H-15N NMR experiments, thus demonstrating that there is a significant correlation between formation of the Fe-S bond and native structure stability. 1H/2H exchange data, however, show that helix alpha(3), the C-terminal region of helix alpha(4), and helix alpha(5) maintain low exchangeability of the amide protons in the LS(1) form. This finding most likely implies that these regions maintain some ordered non-covalent structure, in which the amide moieties are involved in H-bonds. Finally, a folding mechanism is proposed and discussed in terms of analogies and differences with the larger mitochondrial cytochrome c proteins. It is concluded that the thermodynamic stability of the region around the metal cofactor is determined by the chemical nature of the residues around the axial methionine residue. 相似文献
130.
Proteins of the PDI family: unpredicted non-ER locations and functions 总被引:15,自引:0,他引:15
Protein disulfide isomerases (PDIs) constitute a family of structurally related enzymes which catalyze disulfide bonds formation, reduction, or isomerization of newly synthesized proteins in the lumen of the endoplasmic reticulum (ER). They act also as chaperones, and are, therefore, part of a quality-control system for the correct folding of the proteins in the same subcellular compartment. While their functions in the ER have been thoroughly studied, much less is known about their roles in non-ER locations, where, however, they have been shown to be involved in important biological processes. At least three proteins of this family from higher vertebrates have been found in unusual locations (i.e., the cell surface, the extracellular space, the cytosol, and the nucleus), reached through an export mechanism which has not yet been understood. In some cases their function in the non-ER location is clearly related to their redox properties, but in most cases their mechanism of action has still to be disclosed, although their propensity to associate with other proteins or even with DNA might be the main factor responsible for their activities. 相似文献