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1.
The DNA-binding behavior and target sequences of two designed metallopeptides have been investigated with an iterative electrophoresis mobility shift assay followed by PCR amplification, and by circular dichroism spectroscopy. Peptides P3W and P5b were designed based on the structural similarity of the helix–turn–helix motif of homeodomains and the EF-hand motifs of calmodulin, as previously described for P3W. Like P3W, P5b binds both Eu(III) (K d=12.6±1.9 μM) and Ca(II) (K d=70±8 μM) with reasonable affinity. Binding selection from a library of randomized 8-mer DNA oligonucleotide sequences identified one target family for CaP5b [5′-pur-T-pur-G-(G/C)-3′], and two target sites for CaP3W [5′-(A/T)-G-G-G-(T/C)-3′ and 5′-A-T-(G/T)-T-G-3′]. Circular dichroism studies indicate that unlike EuP3W, EuP5b is poorly folded in the absence of DNA. In the presence of DNA containing target-binding sites for both peptides, both EuP3W and EuP5b increase in helical content, in the latter case significantly. These results suggest that EuP5b binding to target DNA involves an induced-fit mechanism. These small chimeric metallopeptides have been found to bind selectively to DNA targets, analogous to natural protein–DNA interactions. This corroborates our earlier conclusions (J. Am. Chem. Soc. 125:6656, 2003) that sequence-preferential DNA cleavage by Ce(IV)P3W was due to sequence recognition. Electronic Supplementary Material Supplementary material is available for this article at and is accessible for authorized users.  相似文献   

2.
A chimeric peptide (P4) has been designed to incorporate an EF-hand metal-binding loop into the context of the helix-turn-helix DNA binding motif of the engrailed homeodomain. This construct binds lanthanides, and in the presence of these metals, promotes the cleavage of supercoiled DNA and model phosphate esters (bisnitrophenyl phosphate). P4 binds lanthanides with moderate affinities (Eu(III), log K(a)=4.85; and Ce(IV), log K(a)=5.23). The structure of P4 is enhanced by metal binding, but the increase in secondary structure observed by CD is small, and suggests the metallopeptide is also quite flexible. Despite this flexibility, the efficient cleavage of DNA at low concentrations is dependent on the metallopeptide, and not on peptide or metal alone. This enhanced reactivity suggests the designed DNA-binding EF-hand peptides deliver the metal to the DNA for catalysis, even without rigid secondary structure.  相似文献   

3.
Direct laser excitation of aqueous Eu(III) bound to specific RNA fragments was used to probe the metal-binding sites of the anticodon loop of tRNA(Phe) from E. coli and of a tetraloop containing a GNRA consensus sequence. Binding of Mg(II) or Eu(III) to either RNA fragment resulted in a higher melting transition, but no global change in structure was observed. Aqueous Eu(III) exhibits a single weak excitation peak at 17273 cm(-1), the intensity of which increased upon addition of the tRNA loop fragment. Analysis of incremental increases in the luminescence intensity upon complexation with the tRNA loop indicated a stoichiometry of one high-affinity Eu(III)-binding site per loop fragment, with a Kd of 1.3 +/- 0.2 microM. Competition experiments between Eu(III) and Mg(II) were consistent with the two metal ions binding to a common site and with an approximately 30-fold lesser affinity of the tRNA loop for Mg(II) than for Eu(III). The rate of luminescence decay following excitation of Eu(III) bound to the tRNA loop corresponded to displacement of up to 4-5 (of a possible 9) waters of hydration on binding to the tRNA loop. By comparison, Eu(III) binds to the DNA analogue of the tRNA loop with an 8-fold lesser affinity and one fewer direct coordination site than to the RNA sequence, suggesting that a 2'OH of RNA is one of the direct ligands. In contrast with the absence of a shift in the excitation peak of aqueous Eu(III) upon formation of the tRNA loop complex, direct excitation of Eu(III) bound to a GNRA tetraloop fragment resulted in a substantially blue-shifted excitation peak (17290 cm(-1)). The tetraloop fragment also has a single Eu(III)-binding site, with a Kd of 12 +/- 3 microM. The bound Eu(III) was competed by Mg(II), although the relative affinity for Mg(II) was approximately 150-450-fold less than that for Eu(III). The Eu(III)-binding site of the tetraloop site is highly dehydrated, with approximately 7 water molecules displaced upon binding by RNA ligands, suggesting that the blue-shift of the excitation peak is the result of Eu(III) specifically bound in a nonpolar site within the GNRA loop structure.  相似文献   

4.
To establish an approach to obtain the site-specific calcium binding affinity of EF-hand proteins, we have successfully designed a series of model proteins, each containing the EF-hand calcium-binding loop 3 of calmodulin, but with increasing numbers of Gly residues linking the loop to domain 1 of CD2. Structural analyses, using different spectroscopic methods, have shown that the host protein is able to retain its native structure after insertion of the 12-residue calcium-binding loop and retains a native thermal stability and thermal unfolding behavior. In addition, calcium binding to the engineered CD2 variants does not result in a significant change from native CD2 conformation. The CD2 variant with two Gly linkers has been shown to have the strongest metal binding affinity to Ca(II) and La(III). These experimental results are consistent with our molecular modeling studies, which suggest that this protein with the engineered EF-loop has a calmodulin-like calcium binding geometry and backbone conformation. The addition of two Gly linkers increases the flexibility of the inserted EF-loop 3 from calmodulin, which is essential for the proper binding of metal ions.  相似文献   

5.
The EF-hand calcium-binding loop III from calmodulin was inserted with glycine linkers into the scaffold protein CD2.D1 at three locations to study site-specific calcium binding properties of EF-hand motifs. After insertion, the host protein retains its native structure and forms a 1:1 metal-protein complex for calcium and its analog, lanthanum. Tyrosine-sensitized Tb3+ energy transfer exhibits metal binding and La3+ and Ca2+ compete for the metal binding site. The grafted EF-loop III in different environments has similar La3+ binding affinities, suggesting that it is largely solvated and functions independently from the host protein.  相似文献   

6.
Calmodulin (CaM) is an EF-hand protein composed of two calcium (Ca(2+))-binding EF-hand motifs in its N-domain (EF-1 and EF-2) and two in its C-domain (EF-3 and EF-4). In this study, we examined the structure, dynamics, and Ca(2+)-binding properties of a fragment of CaM containing only EF-2 and EF-3 and the intervening linker sequence (CaM2/3). Based on NMR spectroscopic analyses, Ca(2+)-free CaM2/3 is predominantly unfolded, but upon binding Ca(2+), adopts a monomeric structure composed of two EF-hand motifs bridged by a short antiparallel beta-sheet. Despite having an "even-odd" pairing of EF-hands, the tertiary structure of CaM2/3 is similar to both the "odd-even" paired N- and C-domains of Ca(2+)-ligated CaM, with the conformationally flexible linker sequence adopting the role of an inter-EF-hand loop. However, unlike either CaM domain, CaM2/3 exhibits stepwise Ca(2+) binding with a K (d1) = 30 +/- 5 microM to EF-3, and a K (d2) > 1000 microM to EF-2. Binding of the first equivalent of Ca(2+) induces the cooperative folding of CaM2/3. In the case of native CaM, stacking interactions between four conserved aromatic residues help to hold the first and fourth helices of each EF-hand domain together, while the loop between EF-hands covalently tethers the second and third helices. In contrast, these aromatic residues lie along the second and third helices of CaM2/3, and thus are positioned adjacent to the loop between its "even-odd" paired EF-hands. This nonnative hydrophobic core packing may contribute to the weak Ca(2+) affinity exhibited by EF-2 in the context of CaM2/3.  相似文献   

7.
Peptides (33-34 amino acids long) corresponding to the helix-turn-helix (EF-hand) motif of the calcium binding site I of Paramecium tetraurelia calmodulin have been synthesized. The linear sequence was unable to acquire a native-like conformation and calcium binding. However, incorporation of a well-positioned disulfide bond bridging the two putative helical regions greatly improved the ordered structure and binding properties. Analyzed by electrospray mass spectrometry, circular dichroism and time-resolved laser-induced fluorescence, such a disulfide-stabilized peptide is shown to acquire a calcium-dependent helical conformation and exhibits native-like affinity for calcium, terbium and europium ions with 30+/-1, 3.5+/-0.6 and 0.6+/-0.1 microM dissociation constants, respectively. Comparable affinities were calculated within the biological construct comprising the entire domain I of Arabidopsis taliana calmodulin. Single sequence mutation (Glu25Asp) in the binding loop of the peptide abolishes calcium affinity, but preserves lanthanide affinity, showing that metal selectivity can be modulated by specific mutations. Such disulfide-stabilized peptides represent useful models to engineer metal specificity in new calmodulin proteins, facilitating the development of new systems to monitor metal pollution in biosensors and to increase metal binding capability of bacterial and plant cells in bioremediation techniques.  相似文献   

8.
The pleckstrin homology (PH) domains of phospholipase C (PLC)-delta1 and a related catalytically inactive protein, p130, both bind inositol phosphates and inositol lipids. The binding to phosphatidylinositol 4,5-bisphosphate [PtdIns(4,5)P2] by PLC-delta1 is proposed to be the critical interaction required for membrane localization to where the substrate resides; it is also required for the Ca(2+)-dependent activation of PLC-delta1 observed in the permeabilized cells. In the proximity of the PH domain, both PLC-delta1 and p130 possess the EF-hand domain, containing classical motifs implicated in calcium binding. Therefore, in the present study we examined whether the binding of the PH domain to PtdIns(4,5)P2 is regulated by changes in free Ca2+ concentration within the physiological range. A Ca2+ dependent increase in the binding to PtdIns(4,5)P2 was observed with a full-length PLC-delta1, while the isolated PH domain did not show any Ca2+ dependence. However, the connection of the EF-hand motifs to the PH domain restored the Ca2+ dependent increase in binding, even in the absence of the C2 domain. The p130 protein showed similar properties to PLC-delta1, and the EF-hand motifs were again required for the PH domain to exhibit a Ca2+ dependent increase in the binding to PtdIns(4,5)P2. The isolated PH domains from several other proteins which have been demonstrated to bind PtdIns(4,5)P2 showed no Ca2+ dependent enhancement of binding. However, when present within a chimera also containing PLC-delta1 EF-hand motifs, the Ca2+ dependent binding was again observed. These results suggest that the binding of Ca2+ to the EF-hand motifs can modulate binding to PtdIns(4,5)P2 mediated by the PH domain.  相似文献   

9.
Diverse functions of 14-3-3 proteins are directly coupled to their ability to interact with targeted peptide substrates. RSX(pS/pT)XP and RXPhiX(pS/pT)XP are two canonical consensus binding motifs for 14-3-3 proteins representing the two common binding modes, modes I and II, between 14-3-3 and internal peptides. Using a genetic selection, we have screened a random peptide library and identified a group of C-terminal motifs, termed SWTY, capable of overriding an endoplasmic reticulum localization signal and redirecting membrane proteins to cell surface. Here we report that the C-terminal SWTY motif, although different from mode I and II consensus, binds tightly to 14-3-3 proteins with a dissociation constant (K(D)) of 0.17 microM, comparable with that of internal canonical binding peptides. We show that all residues but proline in -SWTX-COOH are compatible for the interaction and surface expression. Because SWTY-like sequences have been found in native proteins, these results support a broad significance of 14-3-3 interaction with protein C termini. The C-terminal binding consensus, mode III, represents an expansion of the repertoire of 14-3-3-targeted sequences.  相似文献   

10.
Centrin, an EF-hand calcium-binding protein, has been shown to be involved in the duplication of centrosomes, and Sfi1 (Suppressor of fermentation-induced loss of stress resistance protein 1) is one of its centrosomal targets. There are three isoforms of human centrin, but here we only considered centrin 2 (HsCen2). This protein has the ability to bind to any of the ∼ 25 repeats of human Sfi1 (hSfi1) with more or less affinity. In this study, we mainly focused on the 17th repeat (R17-hSfi1-20), which presents the highest level of similarity with a well-studied 17-residue peptide (P17-XPC) from human xeroderma pigmentosum complementation group C protein, another centrin target for DNA repair. The only known structure of HsCen2 was resolved in complex with P17-XPC. The 20-residue peptide R17-hSfi1-20 exhibits the motif L8L4W1, which is the reverse of the XPC motif, W1L4L8. Consequently, the dipole of the helix formed by this motif has a reverse orientation. We wished to ascertain the impact of this reversal on the structure, dynamics and affinity of centrin. To address this question, we determined the structure of C-HsCen2 [the C-terminal domain of HsCen2 (T94-Y172)] in complex with R17-hSfi1-20 and monitored its dynamics by NMR, after having verified that the N-terminal domain of HsCen2 does not interact with the peptide. The structure shows that the binding mode is similar to that of P17-XPC. However, we observed a 2 -Å translation of the R17-hSfi1-20 helix along its axis, inducing less anchorage in the protein and the disruption of a hydrogen bond between a tryptophan residue in the peptide and a well-conserved nearby glutamate in C-HsCen2. NMR dynamic studies of the complex strongly suggested the existence of an unusual calcium secondary binding mode in calcium-binding loop III, made possible by the uncommon residue composition of this loop. The secondary metal site is only populated at high calcium concentration and depends on the type of bound ligand.  相似文献   

11.
The domain organization of Acanthamoeba myosin-I, an oligomodular motor protein, includes a potentially important protein interaction module that is mostly uncharacterized. The Src homology 3, SH3, domain of myosin-I binds Acan125, a protein containing at least two consensus ligand binding domains: C-terminal SH3 binding motifs (PXXP) and N-terminal leucine-rich repeats. We report the first affinities determined for an SH3 domain of any myosin, namely, K(d) = 7 microM for a 21-residue synthetic peptide based on the PXXP domain sequence and K(d) = 0.15 microM for the PXXP domain included in the C-terminus of Acan125. These values are consistent with affinities reported for peptides and proteins that associate with SH3. By deletional analysis we show that only the PXXP domain is required for Acan125 to interact with the SH3 domain of Acanthamoeba myosin-IC (AmyoC(SH3)). The synthetic peptide described above at a concentration near the K(d) for SH3 binding blocked the interaction between native AmyoC and Acan125, mapping the interaction to the PXXP domain of Acan125 and the SH3 domain of myosin-I. These results are consistent with prototypical SH3 binding and suggest that a PXXP module is both necessary and sufficient to interact with an SH3 module of myosin-I.  相似文献   

12.
de Alba E  Tjandra N 《Biochemistry》2004,43(31):10039-10049
Nucleobindin, also known as calnuc, participates in Ca2+ storage in the Golgi, as well as in other biological processes that involve DNA-binding and protein-protein interactions. We have determined the three-dimensional solution structure of the Ca(2+)-binding domain of nucleobindin by NMR showing that it consists of two EF-hand motifs. The NMR structure indicates that the phi and psi angles of residues in both motifs are very similar, despite the noncanonical sequence of the C-terminal EF-hand, which contains an arginine residue instead of the typical glycine at the sixth position of the 12-residue loop. The relative orientation of the alpha-helices in the N-terminal EF-hand falls within the common arrangement found in most EF-hand structures. In contrast, the noncanonical EF-hand deviates from the average orientation. The two helix-loop-helix moieties are in the open conformation characteristic of the Ca(2+)-bound state. We find that both motifs bind Ca2+ with apparent dissociation constants of 47 and 40 microM for the noncanonical and the canonical EF-hand, respectively. The Ca(2+)-binding domain of nucleobindin is unstructured in the absence of Ca2+ and folds upon Ca2+ addition. NMR relaxation data and structural studies of the folded domain indicate that it undergoes slow dynamics, suggesting that it is floppier and less compact than a globular domain.  相似文献   

13.
The proline-rich tandem repeat domain of human mucin MUC1 forms an extended structure containing large repeating loops that are crested by a turn. We show that the repeating-loop structure of MUC1 can be replaced by an antibody complementarity-determining region loop of a human immunodeficiency virus type 1 (HIV-1)-specific neutralizing antibody to create a chimeric, multivalent, mucin-like, anti-HIV-1 compound. We used 8 residues of an antibody molecule to replace 8 of 20 residues of the MUC1 tandem-repeat sequence. The antiviral peptide discussed here contains three copies of a 20-residue tandem repeat, (IYYDYEEDPAPGSTAPPAHG)3, for a total of 60 residues. We demonstrate that the mucin-antibody chimera retains the binding specificity of the parent antibody (monoclonal antibody F58), GPGR of the HIV-1 gp120 V3 neutralizing epitope, and the ability to neutralize virus particles. In inhibition enzyme-linked immunosorbent assay, the mucin-antibody chimeric peptide could inhibit 71 to 84% of binding to a V3 loop peptide by monoclonal antibodies known to be specific for GPGR in the V3 loop. The mucin-antibody chimeric peptide could also inhibit monoclonal antibody binding to native gp120 captured from virus particles. In addition, the chimeric peptide neutralized the homologous HIV-IIIB virus in a standard neutralization assay. The methods of antiviral peptide design and construction presented here are general and theoretically limited only by the size of the antibody repertoire. This approach could be used to synthesize peptides for a variety of therapeutic applications.  相似文献   

14.
The fusion-active conformation of the envelope protein gp41 of HIV-1 consists of an N-terminal trimeric alpha-helical coiled-coil domain and three anti-parallel C-terminal helices that fold down the grooves of the coiled-coil to form a six-helix bundle. Disruption of the six-helix bundle is considered to be a key component of an effective non-peptide fusion inhibitor. In the current study, a fluorescence resonance energy transfer (FRET) experiment for the detection of inhibitor binding to the gp41 N-peptide coiled-coil of HIV-1 was performed, utilizing peptide inhibitors derived from the gp41 C-terminal helical region. The FRET acceptor is a 31-residue N-peptide containing a known deep hydrophobic pocket, stabilized into a trimer by ferrous ion ligation. The FRET donor is a 16-18-residue fluorophore-labeled C-peptide, designed to test the specificity of the N-C interaction. Low microM dissociation constants were observed, correlated to the correct sequence and helical propensity of the C-peptides. Competitive inhibition was demonstrated using the assay, allowing for rank ordering of peptide inhibitors according to their affinity in the 1-20 microM range. The assay was conducted by measuring fluorescence intensity in 384-well plates. The rapid detection of inhibitor binding may permit identification of novel drug classes from a library.  相似文献   

15.
16.
The calcium binding proteins of the EF-hand super-family are involved in the regulation of all aspects of cell function. These proteins exhibit a great diversity of composition, structure, Ca2+-binding and target interaction properties. Here, our current understanding of the Ca2+-binding mechanism is assessed. The structures of the EF-hand motifs containing 11-14 amino acid residues in the Ca2+-binding loop are analyzed within the framework of the recently proposed two-step Ca2+-binding mechanism. A hypothesis is put forward that in all EF-hand proteins the Ca2+-binding and the resultant conformational responses are governed by the central structure connecting the Ca2+-binding loops in the two-EF-hand domain. This structure, named EFbeta-scaffold, defines the position of the bound Ca2+, and coordinates the function of the N-terminal (variable and flexible) with the C-terminal (invariable and rigid) parts of the Ca2+-binding loop. It is proposed that the nature of the first ligand of the Ca2+-binding loop is an important determinant of the conformational change. Additional factors, including the interhelical contacts, the length, structure and flexibility of the linker connecting the EF-hand motifs, and the overall energy balance provide the fine-tuning of the Ca2+-induced conformational change in the EF-hand proteins.  相似文献   

17.
Human alpha(2)-macroglobulin-proteinase complexes bind to their receptor, the low density lipoprotein receptor-related protein (LRP), through a discrete 138-residue C-terminal receptor binding domain (RBD), which also binds to the beta-amyloid peptide. We have used NMR spectroscopy on recombinantly expressed uniformly (13)C/(15)N-labeled human RBD to determine its three-dimensional structure in solution. Human RBD is a sandwich of two antiparallel beta-sheets, one four-strand and one five-strand, and also contains one alpha-helix of 2.5 turns and an additional 1-turn helical region. The principal alpha-helix contains two lysine residues on the outer face that are known to be essential for receptor binding. A calcium binding site (K(d) approximately 11 mM) is present in the loop region at one end of the beta-sandwich. Calcium binding principally affects this loop region and does not significantly perturb the stable core structure of the domain. The structure and NMR assignments will enable us to examine in solution specific binding of RBD to domains of the receptor and to beta-amyloid peptide.  相似文献   

18.
The thionin from Pyrularia pubera (Pp-TH), a 47-residue peptide with four internal disulfide bonds, was efficiently produced by chemical synthesis. Its antimicrobial activity in vitro against several representative pathogens (EC(50)=0.3-3.0 microM) was identical to that of natural Pp-TH. This peptide has a unique Asp(32) instead of the consensus Arg found in other thionins of the same family. In order to evaluate the effect of this mutation, the Arg(32) analogue (Pp-TH(D32R)) was also synthesized and showed a significant increase in antibiotic activity against several Gram-negative bacteria, whereas it retained the same activity against other pathogens. The overall structure of Pp-TH(D32R) was maintained, though a slight decrease in the helical content of the peptide was observed.  相似文献   

19.
20.
We studied the interaction of hematopoietic cell kinase SH3 domain (HckSH3) with an artificial 12-residue proline-rich peptide PD1 (HSKYPLPPLPSL) identified as high affinity ligand (K(D)=0.2 muM). PD1 shows an unusual ligand sequence for SH3 binding in type I orientation because it lacks the typical basic anchor residue at position P(-3), but instead has a tyrosine residue at this position. A basic lysine residue, however, is present at position P(-4). The solution structure of the HckSH3:PD1 complex, which is the first HckSH3 complex structure available, clearly reveals that the P(-3) tyrosine residue of PD1 does not take the position of the typical anchor residue but rather forms additional van der Waals interactions with the HckSH3 RT loop. Instead, lysine at position P(-4) of PD1 substitutes the function of the P(-3) anchor residue. This finding expands the well known ligand consensus sequence +xxPpxP by +xxxPpxP. Thus, software tools like iSPOT fail to identify PD1 as a high-affinity HckSH3 ligand so far. In addition, a short antiparallel beta-sheet in the RT loop of HckSH3 is observed upon PD1 binding. The structure of the HckSH3:PD1 complex reveals novel features of SH3 ligand binding and yields new insights into the structural basics of SH3-ligand interactions. Consequences for computational prediction tools adressing SH3-ligand interactions as well as the biological relevance of our findings are discussed.  相似文献   

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