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51.
Andrea Dali Thomas Gabler Federico Sebastiani Alina Destinger Paul Georg Furtmüller Vera Pfanzagl Maurizio Becucci Giulietta Smulevich Stefan Hofbauer 《Protein science : a publication of the Protein Society》2023,32(1):e4534
Coproporphyrin ferrochelatases (CpfCs) are enzymes catalyzing the penultimate step in the coproporphyrin-dependent (CPD) heme biosynthesis pathway, which is mainly utilized by monoderm bacteria. Ferrochelatases insert ferrous iron into a porphyrin macrocycle and have been studied for many decades, nevertheless many mechanistic questions remain unanswered to date. Especially CpfCs, which are found in the CPD pathway, are currently in the spotlight of research. This pathway was identified in 2015 and revealed that the correct substrate for these ferrochelatases is coproporphyrin III (cpIII) instead of protoporphyrin IX, as believed prior the discovery of the CPD pathway. The chemistry of cpIII, which has four propionates, differs significantly from protoporphyrin IX, which features two propionate and two vinyl groups. These findings let us to thoroughly describe the physiological cpIII-ferrochelatase complex in solution and in the crystal phase. Here, we present the first crystallographic structure of the CpfC from the representative monoderm pathogen Listeria monocytogenes bound to its physiological substrate, cpIII, together with the in-solution data obtained by resonance Raman and UV–vis spectroscopy, for wild-type ferrochelatase and variants, analyzing propionate interactions. The results allow us to evaluate the porphyrin distortion and provide an in-depth characterization of the catalytically-relevant binding mode of cpIII prior to iron insertion. Our findings are discussed in the light of the observed structural restraints and necessities for this porphyrin-enzyme complex to catalyze the iron insertion process. Knowledge about this initial situation is essential for understanding the preconditions for iron insertion in CpfCs and builds the basis for future studies. 相似文献
52.
Federica Sinibaldi Barry D. Howes M Cristina Piro Paola Caroppi Giampiero Mei Franca Ascoli Giulietta Smulevich Roberto Santucci 《Journal of biological inorganic chemistry》2006,11(1):52-62
In this paper we investigate the role played by each histidine in the amino acid sequence of yeast iso-1-cytochrome c (with the exception of H18, the residue axially coordinated to the heme iron) in determining the protein structure and stability.
To this end, we have generated and characterized the double mutants H26Y/H33Y, H26Y/H39K and H33Y/H39K obtained from the C102T
variant of the protein, which retain only one histidine side chain in the amino acid sequence. In particular, the H39K mutation
inserts a lysine at position 39 as in the sequence of equine cytochrome c. The H26Y/H33Y/H39K triple mutant, which lacks all three histidines, was also produced and its spectroscopic properties are
compared with those of the double mutants. The data highlight the critical role played by H26 in determining protein stability.
Recombinant horse cytochrome c and the corresponding H26Y mutant were also generated and characterized. Since equine cytochrome c exhibits higher stability than the yeast protein, this provides a valuable opportunity to understand the role played by the
invariant H26 residue in determining structure and stability. 相似文献
53.
Sinibaldi F Mei G Polticelli F Piro MC Howes BD Smulevich G Santucci R Ascoli F Fiorucci L 《Protein science : a publication of the Protein Society》2005,14(4):1049-1058
An increasing body of evidence ascribes to misfolded forms of cytochrome c (cyt c) a role in pathophysiological events such as apoptosis and disease. Here, we examine the conformational changes induced by lipid binding to horse heart cyt c at pH 7 and study the ability of ATP (and other nucleotides) to refold several forms of unfolded cyt c such as oleic acid-bound cyt c, nicked cyt c, and acid denatured cyt c. The CD and fluorescence spectra demonstrate that cyt c unfolded by oleic acid has an intact secondary structure, and a disrupted tertiary structure and heme environment. Furthermore, evidence from the Soret CD, electronic absorption, and resonance Raman spectra indicates the presence of an equilibrium of at least two low-spin species having distinct heme-iron(III) coordination. As a whole, the data indicate that binding of cyt c to oleic acid leads to a partially unfolded conformation of the protein, resembling that typical of the molten globule state. Interestingly, the native conformation is almost fully recovered in the presence of ATP or dATP, while other nucleotides, such as GTP, are ineffective. Molecular modeling of ATP binding to cyt c and mutagenesis experiments show the interactions of phosphate groups with Lys88 and Arg91, with adenosine ring interaction with Glu62 explaining the unfavorable binding of GTP. The finding that ATP and dATP are unique among the nucleotides in being able to turn non-native states of cyt c back to native conformation is discussed in the light of cyt c involvement in cell apoptosis. 相似文献
54.
55.
Jakopitsch C Droghetti E Schmuckenschlager F Furtmüller PG Smulevich G Obinger C 《The Journal of biological chemistry》2005,280(51):42411-42422
Catalase-peroxidases (KatG) are bifunctional heme peroxidases with an overwhelming catalatic activity. The structures show that the buried heme b is connected to the exterior of the enzyme by a main channel built up by KatG-specific loops named large loop LL1 and LL2, the former containing the highly conserved sequence Met-Gly-Leu-Ile-Tyr-Val-Asn-Pro-Glu-Gly. LL1 residues Ile248, Asn251, Pro252, and Glu253 of KatG from Synechocystis are the focus of this study because of their exposure to the solute matrix of the access channel. In particular, the I248F, N251L, P252A, E253Q, and E253D mutants have been analyzed by UV-visible and resonance Raman spectroscopies in combination with steady-state and presteady-state kinetic analyses. Exchange of these residues did not alter the kinetics of cyanide binding or the overall peroxidase activity. Moreover, the kinetics of compound I formation and reduction by one-electron donors was similar in the variants and the wild-type enzyme. However, the turnover numbers of the catalase activity of I248F, N251L, E253Q, and E253D were only 12.3, 32.6, 25, and 42% of the wild-type activity, respectively. These findings demonstrate that the oxidation reaction of hydrogen peroxide (not its reduction) was affected by these mutations. The altered kinetics allowed us to monitor the spectral features of the dominating redox intermediate of E253Q in the catalase cycle. Resonance Raman data and structural analysis demonstrated the existence of a very rigid and ordered structure built up by the interactions of these residues with distal side and also (via LL1) proximal side amino acids, with the heme itself, and with the solute matrix in the channel. The role of Glu253 and the other investigated channel residues in maintaining an ordered matrix of oriented water dipoles, which guides hydrogen peroxide to its site of oxidation, is discussed. 相似文献
56.
Detlef Michel Hans Hartings Simona Lanzini Manuela Michel Mario Motto Giorgia Romina Riboldi Francesco Salamini Hans-Peter Döring 《Molecular genetics and genomics : MGG》1995,248(3):287-292
Eight independently isolated unstable alleles of theOpaque2 (O2) locus were analysed genetically and at the DNA level. The whole series of mutations was isolated from a maize strain carrying a wild-typeO2 allele and the transposable elementActivator (Ac) at thewx-m7 allele. Previous work with another unstable allele of the same series has shown that it was indeed caused by the insertion of anAc element. Unexpectedly, the remaining eight mutations were not caused by the designatedAc element, but by other insertions that are structurally similar or identical to one of two different autonomous transposable elements. Six mutations were caused by the insertion of a transposable element of theEnhancer/Suppressor-Mutator (En/Spm) family. Two mutations were the result of the insertion of a transposable element of theBergamo (Bg) family. Genetic tests carried out with plants carrying the unstable mutations demonstrated that all were caused by the insertion of an autonomous transposable element. 相似文献
57.
Carbognani Michele Bernareggi Giulietta Perucco Francesco Tomaselli Marcello Petraglia Alessandro 《Oecologia》2016,182(2):573-585
Oecologia - Alpine snowbed communities are among the habitats most threatened by climate change. The warmer temperature predicted, coupled with advanced snowmelt time, will influence flowering... 相似文献
58.
Cristobal Aguilar-Gallardo Maria Poo Eva Gomez Amparo Galan Eva Sanchez Ana Marques-Mari Veronica Ruiz Jose Medrano Marcia Riboldi Diana Valbuena Carlos Simon 《In vitro cellular & developmental biology. Animal》2010,46(3-4):317-326
Derivation of human embryonic stem cell lines has been a remarkable scientific achievement during the last decade. Human embryonic stem cells are regarded as an unlimited cell source for replacement therapy in regenerative medicine. Clearly, the scientific community requires proper derivation, characterization, and registration with the purpose of making them available for research and future medical applications worldwide. In this paper, we report our derivation work as the Valencian Node of the Spanish Stem Cell Bank in the generation, characterization, and registration of VAL-3, -4, -5, -6M, -7, -8, and 9 (www.isciii/htdocs/terapia/terapia_bancocelular.jsp). The derivation process was performed on microbiologically tested and irradiated human foreskin fibroblasts and designed to minimize contact with xeno-components in knockout Dulbecco’s modified Eagle’s medium supplemented with knockout serum replacement and basic fibroblast growth factor. Fingerprinting of the cell lines was performed to allow their identification and traceability. All lines were expressed at the mRNA and specific protein markers for undifferentiation and were found to be negative for classical differentiation markers such as neurofilament heavy chain (ectoderm), renin (mesoderm), and amylase (endoderm). All lines displayed high levels of telomerase activity and were shown to successfully overcome cryopreservation and thawing. Finally, we demonstrated the potential to differentiate in vitro (embryoid body formation) and in vivo (teratoma formation) into cell types from all three germ layers. Teratoma derived from all human embryonic stem cell lines present similar morphological features except VAL-8 that display more aggressive tumor behavior with a larger proportion of solid tissues, as opposed to cyst formation in the other cell lines. 相似文献
59.
Smulevich G Jakopitsch C Droghetti E Obinger C 《Journal of inorganic biochemistry》2006,100(4):568-585
Catalase-peroxidases (KatGs) exhibit peroxidase and substantial catalase activities similar to monofunctional catalases. Crystal structures of four different KatGs reveal the presence of a peroxidase-conserved proximal and distal heme pocket together with features unique to KatG. To gain insight into their structure-function properties, many variants were produced and very similar results were obtained irrespective of the origin of the KatG mutated. This review focuses mainly on the electronic absorption and resonance Raman results together with the combined analysis of pre-steady and steady-state kinetics of various mutants involving both the peroxidase-conserved and the KatG-specific residues of recombinant KatG from the cyanobacterium Synechocystis. Marked differences in the structural role of conserved amino acids and hydrogen-bond networks in KatG with respect to the other plant peroxidases were found. Typically, the catalatic but not the peroxidatic activity was very sensitive to mutations that disrupted the KatG-typical extensive hydrogen-bonding network. Moreover, the integrity of this network is crucial for the formation of distinct protein radicals formed upon incubation of KatG with peroxides in the absence of one-electron donors. The correlation between the structural architecture and the bifunctional activity is discussed and compared with data obtained for KatGs from other organisms. 相似文献
60.
Bonente G Howes BD Caffarri S Smulevich G Bassi R 《The Journal of biological chemistry》2008,283(13):8434-8445
The photosystem II subunit PsbS is essential for excess energy dissipation (qE); however, both lutein and zeaxanthin are needed for its full activation. Based on previous work, two models can be proposed in which PsbS is either 1) the gene product where the quenching activity is located or 2) a proton-sensing trigger that activates the quencher molecules. The first hypothesis requires xanthophyll binding to two PsbS-binding sites, each activated by the protonation of a dicyclohexylcarbodiimide-binding lumen-exposed glutamic acid residue. To assess the existence and properties of these xanthophyll-binding sites, PsbS point mutants on each of the two Glu residues PsbS E122Q and PsbS E226Q were crossed with the npq1/npq4 and lut2/npq4 mutants lacking zeaxanthin and lutein, respectively. Double mutants E122Q/npq1 and E226Q/npq1 had no qE, whereas E122Q/lut2 and E226Q/lut2 showed a strong qE reduction with respect to both lut2 and single glutamate mutants. These findings exclude a specific interaction between lutein or zeaxanthin and a dicyclohexylcarbodiimide-binding site and suggest that the dependence of nonphotochemical quenching on xanthophyll composition is not due to pigment binding to PsbS. To verify, in vitro, the capacity of xanthophylls to bind PsbS, we have produced recombinant PsbS refolded with purified pigments and shown that Raman signals, previously attributed to PsbS-zeaxanthin interactions, are in fact due to xanthophyll aggregation. We conclude that the xanthophyll dependence of qE is not due to PsbS but to other pigment-binding proteins, probably of the Lhcb type. 相似文献