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81.
Micaloni C Kong GK Mazzetti AP Nuccetelli M Antonini G Stella L McKinstry WJ Polekhina G Rossjohn J Federici G Ricci G Parker MW Lo Bello M 《Journal of molecular biology》2003,325(1):111-122
We have sought the structural basis for the differing substrate specificities of human glutathione transferase P1-1 (class Pi) and human glutathione transferase A1-1 (class Alpha) by adding an extra helix (helix 9), found in the electrophilic substrate-binding site (H-site) of the human class Alpha enzyme, at the C terminus of the human class Pi enzyme. This class Pi-chimera (CODA) was expressed in Escherichia coli, purified and characterized by kinetic and crystallographic approaches. The presence of the newly engineered tail in the H-site of the human Pi enzyme alters its catalytic properties towards those exhibited by the human Alpha enzyme, as assessed using cumene hydroperoxide (diagnostic for class Alpha enzymes) and ethacrynic acid (diagnostic for class Pi) as co-substrates. There is a change of substrate selectivity in the latter case, as the k(cat)/K(m)(EA) value decreases about 70-fold, compared to that of class Pi. With 1-chloro-2,4-dinitrobenzene as co-substrate there is a loss of catalytic activity to about 2% with respect to that of the Pi enzyme. Crystallographic and kinetic studies of the class Pi-chimera provide important clues to explain these altered catalytic properties. The new helix forms many complimentary interactions with the rest of the protein and re-models the original electrophilic substrate-binding site towards one that is more enclosed, albeit flexible. Of particular note are the interactions between Glu205 of the new tail and the catalytic residues, Tyr7 and Tyr108, and the thiol moiety of glutathione (GSH). These interactions may provide an explanation of the more than one unit increase in the pK(a) value of the GSH thiolate and affect both the turnover number and GSH binding, using 1-chloro-2,4-dinitrobenzene as co-substrate. The data presented are consistent with the engineered tail adopting a highly mobile or disordered state in the apo form of the enzyme. 相似文献
82.
The amino terminus of PKA catalytic subunit--a site for introduction of posttranslational heterogeneities by deamidation: D-Asp2 and D-isoAsp2 containing isozymes
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Kinzel V König N Pipkorn R Bossemeyer D Lehmann WD 《Protein science : a publication of the Protein Society》2000,9(11):2269-2277
Conserved deamidation of PKA catalytic subunit isozymes Calpha and Cbeta--more than 25% at Asn2 in vivo in both cases--has been shown to yield Asp2- and isoAsp2-containing isozymes (Jedrzejewski PT, Girod A, Tholey A, König N, Thullner S, Kinzel V, Bossemeyer D, 1998, Protein Sci 7:457-469). Isoaspartate formation in proteins in vivo is indicative of succinimide intermediates involved in both the initial deamidation reaction as well as the "repair" of isoAsp to Asp by the action of protein L-isoaspartyl (D-aspartyl) O-methyl transferase (PIMT). L-Succinimide is prone to racemization to D-succinimide, which may hydrolyze to D-isoAsp- and D-Asp-containing diastereomers with, respectively, no and poor substrate character for PIMT. To analyze native PKA catalytic subunit from cardiac muscle for these isomers the N-terminal tryptic peptides (T1) of the enzyme were analyzed following procedures refined specifically with a set of corresponding synthetic peptides. The methods combined high resolution high-performance liquid chromatography and a new mass spectrometric procedure for the discrimination between Asp- and isoAsp-residues in peptides (Lehmann et al., 2000). The results demonstrate the occurrence of D-isoAsp- and D-Asp-containing T1 fragments in addition to the L-isomers. The small amount of the L-isoAsp isomer, representing only part of the D-isoAsp isomer, and the relatively large amounts of the L-Asp and D-Asp isomers argues for an effective action of PIMT present in cardiac tissue. 相似文献
83.
Sue SC Lee WT Tien SC Lee SC Yu JG Wu WJ Wu WG Huang TH 《Journal of molecular biology》2007,367(2):456-472
Hepatoma-derived growth factor (hHDGF)-related proteins (HRPs) comprise a new growth factor family sharing a highly conserved and ordered N-terminal PWWP module (residues 1-100, previously referred to as a HATH domain) and a variable disordered C-terminal domain. We have shown that the PWWP module is responsible for heparin binding and have solved its structure in solution. Here, we show that under physiological conditions, both the PWWP module and hHDGF can form dimers. Surface plasmon resonance (SPR) studies revealed that the PWWP dimer binds to heparin with affinity that is two orders of magnitude higher (K(d)=13 nM) than that of the monomeric PWWP module (K(d)=1.2 microM). The monomer-dimer equilibrium properties and NMR structural data together suggest that the PWWP dimer is formed through a domain-swapping mechanism. The domain-swapped PWWP dimer structures were calculated on the basis of the NMR data. The results show that the two PWWP protomers exchange their N-terminal hairpin to form a domain-swapped dimer. The two monomers in a dimer are linked by the long flexible L2 loops, a feature supported by NMR relaxation data for the monomer and dimer. The enhanced heparin-binding affinity of the dimer can be rationalized in the framework of the dimer structure. 相似文献
84.
Solution NMR and molecular dynamics reveal a persistent alpha helix within the dynamic region of PsbQ from photosystem II of higher plants
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Petr Rathner Adriana Rathner Michaela Horničáková Christian Wohlschlager Kousik Chandra Jaroslava Kohoutová Rüdiger Ettrich Reinhard Wimmer Norbert Müller 《Proteins》2015,83(9):1677-1686
The extrinsic proteins of photosystem II of higher plants and green algae PsbO, PsbP, PsbQ, and PsbR are essential for stable oxygen production in the oxygen evolving center. In the available X‐ray crystallographic structure of higher plant PsbQ residues S14‐Y33 are missing. Building on the backbone NMR assignment of PsbQ, which includes this “missing link”, we report the extended resonance assignment including side chain atoms. Based on nuclear Overhauser effect spectra a high resolution solution structure of PsbQ with a backbone RMSD of 0.81 Å was obtained from torsion angle dynamics. Within the N‐terminal residues 1–45 the solution structure deviates significantly from the X‐ray crystallographic one, while the four‐helix bundle core found previously is confirmed. A short α‐helix is observed in the solution structure at the location where a β‐strand had been proposed in the earlier crystallographic study. NMR relaxation data and unrestrained molecular dynamics simulations corroborate that the N‐terminal region behaves as a flexible tail with a persistent short local helical secondary structure, while no indications of forming a β‐strand are found. Proteins 2015; 83:1677–1686. © 2015 The Authors. Proteins: Structure, Function, and Bioinformatics Published by Wiley Periodicals, Inc. 相似文献
85.
Qing-Ming Yu Zhi-Jie Cheng Xiao-Qing Gan Guo-Bin Bao Lin Li† & Gang Pei† 《Journal of neurochemistry》1999,73(3):1222-1227
To investigate functions of the consensus amino terminus of G protein-coupled receptor kinases (GRKs), two amino terminus-truncated mutants (delta30 or delta15) and two single-amino-acid mutants of conserved acidic residues (D2A or E7A) of human GRK1 were constructed and expressed in human embryonic kidney 293 cells. It was shown that truncated mutations and one single-point mutation (E7A) greatly decreased GRK1's activity to phosphorylate photoactivated rhodopsin (Rho*), whereas the abilities of these mutants to phosphorylate a synthetic peptide substrate and to translocate from cytosol to rod outer segments on light activation were unaffected. Further experiments demonstrated that the same truncated mutations (delta30 or delta15) of GRK2, representative of another GRK subfamily, also abolished the kinase's activity toward Rho*. The similar single-point mutation (E5A) of GRK2 heavily impaired its phosphorylation of Rho* but did not alter its ability to phosphorylate the peptide, and the G329-rhodopsin-augmented peptide phosphorylation by GRK2 (E5A) remained unchanged. Our data, taken together, suggest that the amino terminus as well as a conserved glutamic acid in the region of GRKs appears essential for their ability to functionally interact with G protein-coupled receptors. 相似文献
86.
Xiaomei Yang 《FEBS letters》2010,584(11):2207-2212
The beta-2 adrenergic receptor (β2AR) has a carboxyl terminus motif that can interact with PSD-95/discs-large/ZO1 homology (PDZ) domain-containing proteins. In this paper, we identified membrane-associated guanylate kinase inverted-3 (MAGI-3) as a novel binding partner of β2AR. The carboxyl terminus of β2AR binds with high affinity to the fifth PDZ domain of MAGI-3, with the last four amino acids (D-S-L-L) of the receptor being the key determinants of the interaction. In cells, the association of full-length β2AR with MAGI-3 occurs constitutively and is enhanced by agonist stimulation of the receptor. Our data also demonstrated that β2AR-stimulated extracellular signal-regulated kinase-1/2 (ERK1/2) activation was substantially retarded by MAGI-3 expression. These data suggest that MAGI-3 regulates β2AR-mediated ERK activation through the physical interaction between β2AR and MAGI-3.
Structured summary
MINT-7716556: beta2AR (uniprotkb:P07550) physically interacts (MI:0915) with MAGI-3 (uniprotkb:Q5TCQ9) by anti tag coimmunoprecipitation (MI:0007)MINT-7716593: beta2AR (uniprotkb:P18762) physically interacts (MI:0915) with MAGI-3 (uniprotkb:Q9EQJ9) by anti bait coimmunoprecipitation (MI:0006)MINT-7716630: MAGI-3 (uniprotkb:Q5TCQ9) and beta2AR (uniprotkb:P07550) colocalize (MI:0403) by fluorescence microscopy (MI:0416)MINT-7716382, MINT-7716335: MAGI-3 (uniprotkb:Q5TCQ9) physically interacts (MI:0915) with beta2AR (uniprotkb:P07550) by pull down (MI:0096)MINT-7716320, MINT-7716422, MINT-7716502, MINT-7716450, MINT-7716470: beta2AR (uniprotkb:P07550) binds (MI:0407) to MAGI-3 (uniprotkb:Q5TCQ9) by pull down (MI:0096) 相似文献87.
The main cofactors involved in the function of Photosystem II (PSII) are borne by the D1 and D2 proteins. In some cyanobacteria, the D1 protein is encoded by different psbA genes. In Thermosynechococcus elongatus the amino acid sequence deduced from the psbA3 gene compared to that deduced from the psbA1 gene points a difference of 21 residues. In this work, PSII isolated from a wild type T. elongatus strain expressing PsbA1 or from a strain in which both the psbA1 and psbA2 genes have been deleted were studied by a range of spectroscopies in the absence or the presence of either a urea type herbicide, DCMU, or a phenolic type herbicide, bromoxynil. Spectro-electrochemical measurements show that the redox potential of PheoD1 is increased by 17 mV from −522 mV in PsbA1-PSII to −505 mV in PsbA3-PSII. This increase is about half that found upon the D1-Q130E single site directed mutagenesis in Synechocystis PCC 6803. This suggests that the effects of the D1-Q130E substitution are, at least partly, compensated for by some of the additional amino-acid changes associated with the PsbA3 for PsbA1 substitution. The thermoluminescence from the S2QA−• charge recombination and the C ≡ N vibrational modes of bromoxynil detected in the non-heme iron FTIR difference spectra support two binding sites (or one site with two conformations) for bromoxynil in PsbA3-PSII instead of one in PsbA1-PSII which suggests differences in the QB pocket. The temperature dependences of the S2QA−• charge recombination show that the strength of the H-bond to PheoD1 is not the only functionally relevant difference between the PsbA3-PSII and PsbA1-PSII and that the environment of QA (and, as a consequence, its redox potential) is modified as well. The electron transfer rate between P680+• and YZ is found faster in PsbA3 than in PsbA1 which suggests that the redox potential of the P680/P680+• couple (and hence that of 1P680*/P680+•) is tuned as well when shifting from PsbA1 to PsbA3. In addition to D1-Q130E, the non-conservative amongst the 21 amino acid substitutions, D1-S270A and D1-S153A, are proposed to be involved in some of the observed changes. 相似文献
88.
Hytönen VP Hörhä J Airenne TT Niskanen EA Helttunen KJ Johnson MS Salminen TA Kulomaa MS Nordlund HR 《Journal of molecular biology》2006,359(5):1352-1363
Dual chain avidin (dcAvd) is an engineered avidin form, in which two circularly permuted chicken avidin monomers are fused into one polypeptide chain. DcAvd can theoretically form two different pseudotetrameric quaternary assemblies because of symmetry at the monomer-monomer interfaces. Here, our aim was to control the assembly of the quaternary structure of dcAvd. We introduced the mutation I117C into one of the circularly permuted domains of dcAvd and scanned residues along the 1-3 subunit interface of the other domain. Interestingly, V115H resulted in a single, disulfide locked quaternary assembly of dcAvd, whereas I117H could not guide the oligomerisation process even though it stabilised the protein. The modified dcAvd forms were found to retain their characteristic pseudotetrameric state both at high and low pH, and were shown to bind D-biotin at levels comparable to that of wild-type chicken avidin. The crystal structure of dcAvd-biotin complex at 1.95 Angstroms resolution demonstrates the formation of the functional dcAvd pseudotetramer at the atomic level and reveals the molecular basis for its special properties. Altogether, our data facilitate further engineering of the biotechnologically valuable dcAvd scaffold and gives insights into how to guide the quaternary structure assembly of oligomeric proteins. 相似文献
89.
Bacterial chromosomes are immense polymers whose faithful replication and segregation are crucial to cell survival. The ability
of proteins such as FtsK to move unidirectionally toward the replication terminus, and direct DNA translocation into the appropriate
daughter cell during cell division, requires that bacterial genomes maintain an architecture for the orderly replication and
segregation of chromosomes. We suggest that proteins that locate the replication terminus exploit strand-biased sequences
that are overrepresented on one DNA strand, and that selection increases with decreased distance to the replication terminus.
We report a generalized method for detecting these architecture imparting sequences (AIMS) and have identified AIMS in nearly
all bacterial genomes. Their increased abundance on leading strands and decreased abundance on lagging strands toward replication
termini are not the result of changes in mutational bias; rather, they reflect a gradient of long-term positive selection
for AIMS. The maintenance of the pattern of AIMS across the genomes of related bacteria independent of their positions within
individual genes suggests a well-conserved role in genome biology. The stable gradient of AIMS abundance from replication
origin to terminus suggests that the replicore acts as a target of selection, where selection for chromosome architecture
results in the maintenance of gene order and in the lack of high-frequency DNA inversion within replicores.
[Reviewing Editor: Dr. Martin Kreitman] 相似文献
90.