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1.
The local conformational changes in the tropomyosin molecule under various conditions were studied by means of fluorimetry using SH-directed fluorescent dyes, N-(1-anilinonaphthyl-4)maleimide (ANM) and N-(3-pyrene)maleimide (PRM). 1. The fluorescence intensity, polarization and the emmission maximum of ANM-tropomyosin were found to be susceptible to ionic strength, but in different ways. The changes in these parameters suggest that the fluorescence-labeled sulfhydryl group or groups become more buried in a hydrophobic internal region by salt-induced depolymerization of aggregate and by adding F-actin to tropomyosin. 2. Titration of the labeled tropomyosin with F-actin revealed a cooperative nature in ANM labeling and a simple saturation kinetics in PRM labeling. The dissociation constant of F-actin to PRM-tropomyosin was calculated to be 5.8-10(-6) M. 3. Temperature dependence of the fluorescence polarization showed a thermal transition in the conformation of ANM- or PRM-tropomyosin at around 30 degrees C. Flexibility or segmental motion of the region containing the fluorophore was suppressed significantly on adding troponin and markedly on adding F-actin. 4. Measurements of the quantum yield and polarization of the ANM-tropomyosin-F-actin complex suggested that troponin strengthened the binding between the two proteins and that Ca2+ reversed this effect.  相似文献   

2.
We utilized recombinant fibronectin polypeptides with cell-binding domain and heparin-binding domains (referred to as C-274 and H-271, respectively) and their fusion polypeptide (CH-271) to examine the role of sulfated polysaccharide heparin and/or the functional domains of fibronectin in modulating tumor cell behavior. Both C-274 and CH-271 polypeptides with cell-binding domains promoted the adhesion and migration of B16-BL6 melanoma cells, whereas H-271 did not. Heparin bound to the immobilized polypeptides with heparin-binding domain (H-271, CH-271, and a mixture of C-274 and H-271 or fibronectin) but did not affect the tumor cell adhesion to the substrates. At the same time, heparin or two monoclonal antibodies against the heparin-binding domain were able to inhibit the haptotactic migration to CH-271 or fibronectin, though not to C-274 or a mixture of C-274 and H-271. This suggests that although heparin did not affect tumor cell adhesion to the cell-binding domain near the heparin-binding domain in CH-271 or fibronectin, it did lead to a modulation of cell motility. It seems likely that the regulatory mechanism may depend on interaction between heparin-like molecules on the cell surface and the heparin-binding domain in fibronectin, rather than on simple steric hindrance or on the masking of the cell-binding domain caused by the binding of heparin to heparin-binding domain.  相似文献   

3.
The Ca2+-transporting ATPase of rabbit skeletal muscle sarcoplasmic reticulum was site-specifically labeled with either N-(1-anilinonaphth-4-yl)maleimide (ANM) or 5-[[(iodoacetamido)-ethyl]amino]naphthalene-1-sulfonate (IAEDANS), and the segmental motion of submolecular domains of the ATPase molecule was examined by means of time-resolved and steady-state fluorescence anisotropy measurements. The ANM-binding domain showed wobbling with a rotational relaxation time phi = 69 ns in the absence of free Ca2+ without any independent wobbling of the ANM moiety. The IAEDANS-binding domain showed a significantly slower wobbling with phi = 190 ns in the absence of Ca2+. The present results demonstrated for the first time that the ATPase molecule is composed of distinct domains whose mobilities are considerably different from each other. The binding of Ca2+ to the transport site increased the segmental motion of ANM-labeled domain, leading to a phi value of 65 ns. Solubilization of the ANM-labeled SR membranes by deoxycholate led to a further increase in the segmental flexibility (phi = 48 ns in the absence of free Ca2+), indicating that the mobility of the ANM-binding domain was considerably restricted through interaction with the membrane. The mobility of the ANM-binding domain of solubilized ATPase was also increased to some extent upon binding of Ca2+.  相似文献   

4.
Changes in the conformational state of human plasma fibronectin and several of its fragments were studied by fluorescence emission, intrinsic fluorescence polarization and c.d. spectroscopy under conditions of guanidinium chloride-and temperature-induced unfolding. Fragments were chosen to represent all three types of internal structural homology in the protein. Low concentration (less than 2 M) of guanidinium chloride induced a gradual transition in the intact protein that was not characteristic of any of the isolated domains, suggesting the presence of interdomain interactions within the protein. Intermediate concentrations of guanidinium chloride (2-3 M) and moderately elevated temperatures (55-60 degrees C) induced a highly co-operative structural transition in intact fibronectin that was attributable to the central 110 kDa cell-binding domain. High temperatures (greater than 60 degrees C) produced a gradual unfolding in the intact protein attributable to the 29 kDa N-terminal heparin-binding and 40 kDa collagen-binding domains. Binding of heparin to intact fibronectin and to its N-terminal fragment stabilized the proteins against thermal unfolding. This was reflected in increased delta H for the unfolding transitions of the heparin-bound N-terminal fragment, as well as decreased accessibility to solvent perturbants of internal chromophores in this fragment when bound to heparin. These results help to account for the biological efficacy of the interaction between the fibronectin N-terminal domain and heparin, despite its relatively low affinity.  相似文献   

5.
C Narasimhan  C S Lai 《Biopolymers》1991,31(10):1159-1170
We report here a novel approach to label specifically one of the two cryptic, free sulfhydryl groups per subunit of human plasma fibronectin with either an 15N,2H-maleimide spin label or a coumarinylphenyl maleimide fluorescent label. This permits the use of electron spin resonance (ESR) or fluorescence techniques to study molecular dynamics of fibronectin with the label attached to a single site per chain on the protein molecule. The method is based on our observation that upon adsorption of fibronectin to a gelatin-coated surface, the SH1 site, located between the DNA-binding and the cell-binding domains, is partially exposed, while the SH2 site, located within the carboxyl-terminal fibrin-binding domain, remains buried and unreactive. The procedures for the preparation of the selectively labeled fibronectins are described in detail. The physicochemical properties of these single-site labeled fibronectins, particularly as affected by high salt, heparin, surface binding, and temperature, were characterized by ESR spin-label and steady-state fluorescence techniques. The steady-state fluorescence measurement indicates that both local environments of SH1 and SH2 sites are relatively hydrophobic, and that the SH2 site is more hydrophobic than the SH1 site. The ESR results show that heparin or high salt induces an increase in the domainal flexibility in both SH1 and SH2 regions, perhaps through the disruption of domain-domain interactions in the fibronectin molecule, and that the former is more effective than the latter in producing such an effect. The observed heparin effect is reversible by addition of calcium ions in the SH2 regions but not in the SH1 regions. In addition, at temperatures above 44 degrees C, both type III homologous regions containing the free sulfhydryl groups are shown to undergo denaturation and aggregation processes. The data presented here suggest that the newly developed method for differential labeling of the free sulfhydryl groups in fibronectin should be useful for mapping the spatial arrangement of structural domains in the protein molecule using spin-label-spin-probe and fluorescence energy transfer techniques.  相似文献   

6.
Conformational changes associated with the functional states of the molecule of troponin were studied using SH-direct fluorogenic reagents, N-(p-(2-benzimidazolyl)phenyl) maleimide (BIPM) and N-(1-anilinonaphthyl-4) maleimide (ANM). 1. The fluorescence parameters of ANM-troponin, intensity, and polarization, did not change on combining it with tropomyosin alone, but markedly changed when F-actin was further added to the system. 2. The conformation around the dye-labeled sulfhydryl group(s) was shown to be susceptible to Ca2+ in terms of fluorescence intensity of the label, thermal transition of the conformation, and the microenvironment near the label. 3. On addition of Ca2+, the fluorescence characteristics of the two systems, ANM-troponin . tropomyosin and ANM-troponin . tropomyosin . F-actin complexes, were altered in opposite directions. When BIPM was used in place of ANM, similar changes were observed: a simple decrease in the intensity when pCa was decreased from 7.4 to 5.5 in the system without F-actin and a sigmoidal increase in the range from pCa 7 to 6 in the system with F-actin. Heavy meromyosin, when added to the latter complex (the reconstituted thin filaments), made the profile of its Ca2+ concentration dependence of fluorescence similar to that of the former complex. When tropomyosin was labeled in place of troponin, similar results were obtained. The data obtained imply that the Ca2+-induced conformational changes of troponin are markedly modified when detached from actin, and that heavy meromyosin weakens the interaction of the troponin . tropomyosin complex with F-actin.  相似文献   

7.
Several maleimide derivatives of potential usefulness as conformational probes were tested for reactivity toward SH groups of Ca2+, Mg2+-ATPase of sarcoplasmic reticulum. These include three fluorescent labels, N-(1-anilinonaphthyl-4)maleimide (ANM), N-(p-(2-benzimidazolyl)phenyl)maleimide (BIPM), and N-(7-dimethylamino-4-methyl-3-coumarinyl)maleimide (DACM), and a spin label, 4-maleimido-2,2,6,6-tetramethylpiperidinooxyl (MSL). These reagents also exhibit a selective reactivity toward SH groups which is similar to that of N-ethylmaleimide, although these conformational probes were somewhat more reactive than N-ethylmaleimide. Based on the above finding, procedures were devised to specifically label either one of two reactive SH groups of the ATPase, namely one highly reactive but functionally nonessential (SHN) and the other, essential for the decomposition of the E-P intermediate (SHD) [Kawakita, M., et al. (1980) J. Biochem. 87, 609-617], with any one of these conformational probes. Sarcoplasmic reticulum membranes labeled with ANM at either SHN or SHD showed a characteristic fluorescence whose intensity reversibly changed in response to the removal and readdition of Ca2+ ions in the range of 10(-6) to 10(-7) M. The change could be ascribed to a conformational change of the ATPase in response to dissociation and association of Ca2+ ions at the transport site. The Ca2+-dependent fluorescence change was quantitatively different, depending on whether the ATPase was labeled at SHN or SHD. Moreover, it was probe-specific in that BIPM and DACM fluorescence did not change in response to Ca2+. The possible significance of these observations is discussed.  相似文献   

8.
Sarcoplasmic reticulum ATPase was specifically labeled by the fluorescent probe N-(1-pyrene)maleimide which modified 1 mol of a highly reactive thiol residue per mol of ATPase under appropriate conditions, when the probe concentration was varied in the range 0.1-1.5 microM. Addition of inorganic phosphate to the labeling medium increased both the rate of labeling and the number of modified thiol residues. Addition of ATP gave a marked kinetic protection from labeling, suggesting that the label was attached to a protein domain which is sensitive to changes at the catalytic site. Quenching of pyrene fluorescence emission of labeled ATPase by acrylamide and cesium chloride gave linear Stern-Volmer plots. The Stern-Volmer quenching constants of pyrene-ATPase fluorescence were 10 times lower than the constant obtained for acrylamide quenching of the fluorescent adduct of pyrene-maleimide-cystein used as a control, indicating that the pyrene moiety of the probe was considerably shielded from the medium solvent when covalently attached to the ATPase. The efficiency of quenching of pyrene-ATPase fluorescence increased by a significant amount upon addition of 100 microM Ca2+, when compared to the quenching in the presence of a Ca2+ chelator. It suggests that occupancy of the high affinity Ca2+ sites of the ATPase increases the accessibility of medium solvent into hydrophobic domains of the enzyme. The fluorescence lifetime of the solubilized pyrene-ATPase emission was 144-149 ns. The fluorescence polarization of pyrene-ATPase solubilized by nonionic detergent C12E8 was rho = 0.10 and it increased with an increase in the viscosity of the medium yielding a linear Perrin plot. The rotational correlation time for the soluble ATPase was 532 ns, corresponding to the overall rotation of a detergent-pyrene-ATPase particle with radius of 87A.  相似文献   

9.
The fluorescent thiol reagent N-(1-anilinonaphthyl-4)maleimide (ANM) reacts covalently with the Ca2+ ATPase moiety of fragmented sarcoplasmic reticulum in two phases as determined by the increase of fluorescence intensity and optical density at 350 nm. In the rapid phase, 5.5 nmol of ANM reacts with 1 mg of fragmented sarcoplasmic reticulum protein. Assuming that 55% of the total membrane protein is the Ca2+ ATPase, this is equivalent to 1 mol of SH/10(5) g of ATPase, designated as SH1-ANM. ANM reacts with the second SH (SH2-ANM) at a much slower rate. Reaction of ANM with both SH1-ANM and SH2-ANM produces no inhibition of phosphoenzyme (EP) formation. Upon addition of Mg . ATP in the micromolar range, at [Ca2+] = 1 microM there is an increase in the fluorescence intensity of ANM attached to SH2-ANM, while the ANM attached to SH1-ANM does not respond to Mg . ATP. Under conditions in which there is no EP formation, there is no fluorescence change. Furthermore, the enhancement of ANM fluorescence produced by Mg . ATP is reversed by ADP as it reacts with EP to form ATP. Thus, it appears that the Mg . ATP-induced fluorescence increase reflects changes of enzyme conformation produced by EP formation.  相似文献   

10.
Conformational change in rat liver phenylalanine hydroxylase associated with activation by phenylalanine or N-(1-anilinonaphth-4-yl)maleimide was investigated by measuring fluorescence spectra and fluorescence lifetimes of tryptophanyl residues as well as the probe fluorophore conjugated with SH groups of the hydroxylase. The fluorescence spectrum of tryptophan exhibited its maximum at 342 nm. It shifted by 8 nm toward longer wavelength accompanied by an increase in its intensity, by preincubation with 1 mM phenylalanine. The fluorescence intensity of tryptophan increased by 36% upon the activation. On the other hand, the binding of (6R)-L-erythro-tetrahydrobiopterin, a natural cofactor of the enzyme, induced a decrease in the fluorescence intensity by 79% without a shift of the maximum wavelength. The fluorescence lifetime of tryptophan of phenylalanine hydroxylase exhibited two components with lifetimes of 1.7 and 4.1 ns. The values of the lifetimes changed to 1.4 and 5.6 ns, respectively, upon the activation. It is considered that the change in the longer lifetime is correlated with the shift of the emission peak upon the activation. The values of both the lifetimes decreased to 0.64 and 3.6 ns upon the binding of (6R)-L-erythro-tetrahydrobiopterin, which is coincident with the decrease in the fluorescence intensity. Conjugation of N-(1-anilinonaphth-4-yl)maleimide with SH of phenylalanine hydroxylase brought about a decrease in both the fluorescence intensity and the value of the shorter lifetime of the tryptophanyl residues, while the longer lifetime remained unchanged.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

11.
Human plasma fibronectin (Fn) enhances ingestion of opsonized particles through its interaction with phagocytic cells. To better characterize the site or sites on Fn responsible for this effect, we subjected Fn to limited proteolytic cleavage by chymotrypsin and used affinity and gel filtration chromatography to isolate a 110,000 dalton cell-binding fragment, a 60,000 dalton fragment that bound both heparin and gelatin, and 50,000 and 45,000 dalton fragments that bound to gelatin but not heparin. The cell-binding fragment mediated adhesion and spreading of fibroblasts on glass slides, whereas the heparin-gelatin and gelatin-binding fragments failed to cause fibroblast spreading. At high concentrations, the cell-binding fragment doubled phagocytosis of C4b-coated sheep erythrocytes by human monocyte-derived macrophages, whereas equal concentrations of the other fragments had minimal enhancing effect on phagocytosis. Interestingly, the effect of the cell-binding fragment on CR1-mediated phagocytosis was always less than the effect of intact Fn, even when a 40-fold higher molar concentration of the cell-binding fragment was used. Fab of a monoclonal anti-Fn, HFn 7.1, which recognizes the 110,000 dalton cell-binding fragment of Fn and inhibits fibroblast binding, blocked enhancement of CR1-mediated phagocytosis by intact Fn. Fab of Fn 8, a monoclonal anti-Fn that binds the heparin-gelatin-binding fragment, failed to inhibit the Fn effect. These data suggest that interaction of the macrophage with the cell-binding domain of Fn is critical for the Fn effect on CR1-mediated phagocytosis. In addition, there may be other domains of the Fn molecule that have a role in augmenting the Fn-phagocyte interaction.  相似文献   

12.
N-(1-Anilinonaphthyl-4)maleimide (ANM) has been used to modify coupling factor 1 (CF1), the terminal coupling factor of photophosphorylation in chloroplasts. As with other monofunctional maleimides, incubation of thylakoids with ANM in the light, but not in the dark, causes energy transfer inhibition of photophosphorylation. In the dark, sites on both the gamma and epsilon subunits of CF1 are modified. The light-accessible site is also on the gamma subunit. Trypsin digestion of the enzyme after dithiothreitol activation reveals that the dark-and light-accessible sites on the gamma subunit are different amino acid residues. Fluorescence of ANM bound at the dark-and light-accessible sites has been measured after isolation of CF1 from thylakoids. The fluorescence emission maximum of ANM at the light-accessible site is blue-shifted and the quantum yield is increased 2-fold relative to ANM bound at dark-accessible sites. On the soluble enzyme, fluorescence polarization is high and equivalent for ANM bound at both dark-and light-accessible sites. Fluorescence energy transfer from a tryptophan in a hydrophilic region of the epsilon subunit to ANM bound to the epsilon subunit but not to the gamma subunit has been observed. The significance of these observations is discussed with respect to the structure of the gamma subunit and its role in conformational transitions within CF1 that occur during energization of the membrane.  相似文献   

13.
C E Wolff  C S Lai 《Biochemistry》1990,29(13):3354-3361
Human plasma fibronectin, a dimeric glycoprotein, contains two cryptic free sulfhydryl groups per chain. Recent observations revealed that upon binding to a gelatin-coated surface the SH1 site, located between the DNA-binding and cell-binding domains, is partially exposed, while the SH2 site, situated within the carboxyl-terminal fibrin-binding domain, remains buried. Utilizing this newly discovered property of plasma fibronectin, we have developed a procedure to introduce maleimide derivatives of fluorescent probes such as N-(1-pyrenyl)maleimide, 7-(diethylamino)-3-(4'-maleimidylphenyl)-4-methylcoumarin, or fluorescein 5-maleimide selectively into either the SH1 or SH2 site of the fibronectin molecule and have measured the inter-sulfhydryl distances in fibronectin by fluorescence energy transfer methods. The results show that the distance between the SH1 site of one subunit and the SH1 site of the other subunit is between 35 and 44 A, indicating the close proximity of the two subunits near the SH1-containing regions. On the other hand, the distance between the SH2 site of one subunit and the SH2 site of the other subunit is found to be greater than 95 A, suggesting that the two SH2-containing regions are well separated. Additionally, the distance between the SH1 and SH2 sites within each subunit is estimated to be 42-53 A, assuming no intersubunit energy transfer between the probes. Heparin or high salt, which drastically affects the hydrodynamic properties of fibronectin, had virtually no effect on the distance between the SH1-SH1 or the SH1-SH2 pair.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

14.
An enzyme-linked immunosorbent assay was developed to study the ability of fibronectin to bind to actin. Plastic microtiter wells were coated with actin and the binding of fibronectin was detected using purified fibronectin antibodies conjugated to alkaline phosphatase. The binding was dependent on the concentration of actin used for coating and on the amount of fibronectin that was subsequently permitted to bind. The binding could be inhibited by actin and gelatin, but not by heparin or bovine serum albumin. No major inhibition was observed by amines known to interfere with some of the other interactions of fibronectin. The ability of gelatin to inhibit the binding suggests that actin and collagen cannot bind to fibronectin simultaneously, and that the cell-binding and actin-binding sites of fibronectin are separate since cells attach to collagen-bound fibronectin.  相似文献   

15.
A fluorescent probe, N-(1-anilinonaphth-4-yl)-maleimide (ANM), was specifically labeled to SH group(s) in the hydrophilic moiety of NADPH-cytochrome P-450 reductase at a ratio of 1 +/- 0.1 ANM/mol of protein. The ANM-labeled reductase and P-450 were reconstituted in phosphatidylcholine-phosphatidylethanolamine-phosphatidylserine vesicles in which all of the enzymes were functionally active. The reconstitution of the mixed-function oxidase system was found to be strongly dependent on both the lipid to protein molar ratio and phospholipid composition. The interactions of ANM-labeled reductase with P-450 in proteoliposomes were investigated by perturbation of the fluorescence of ANM. Upon incorporation of P-450 into the phospholipids vesicles (ANM-reductase/P-450/lipids identical to 1:1.4:800), a significant decrease of total fluorescence intensity and slight increase of emission anisotropy of ANM were observed. In the average fluorescence lifetime of ANM bound with reductase, an appreciable change was shown between the absence and presence of P-450 in the vesicles. These data provide clear evidence that significant molecular interactions occur between the two proteins in a membranous reconstituted system.  相似文献   

16.
S C Tu  C W Wu  J W Hastings 《Biochemistry》1978,17(6):987-993
The distance between specific sites on bacterial luciferase was estimated by energy transfer. Luciferase was fluorescently labeled by reaction of an essential sulfhydryl group with N-(1-pyrene)maleimide and N-[p-(2-benzoxazolyl)phenyl]meleimide. Both of the modified enzymes bind 8-anilino-1-naphthalenesulfonate (Ans) with affinities similar to that exhibited by the native luciferase. Using each of the two fluorescent probes as a donor and the bound Ans as an acceptor, the energy transfer efficiencies were determined by the resulting enhancement of fluorescence of the acceptor. The corresponding distance was calculated to be in the range of 21 to 37 A. Energy-transfer studies were also carried out using fluorescence lifetime measurements of bound ANS, acting as a donor with bound FMN as an acceptor. The corresponding distance was calculated to be between 30 and 58 A. Using samples of luciferase:Ans complex and luciferase modified with N-(1-pyrene)maleimide, the rotational correlation time of the enzyme-dye conjugate as awhole was found to be 47 +/- 2 ns. The observed rotational correlation time is much longer than that calculated for luciferase assuming a spherical structure, thus indicating an elongated form for the luciferase-dye conjugate.  相似文献   

17.
Using multifrequency phase/modulation fluorometry, we have studied the fluorescence decay of the single tryptophan residue of ribonuclease T1 (RNase T1). At neutral pH (7.4) we find that the decay is a double exponential (tau 1 = 3.74 ns, tau 2 = 1.06 ns, f1 = 0.945), in agreement with results from pulsed fluorometry. At pH 5.5 the decay is well described by a single decay time (tau = 3.8 ns). Alternatively, we have fitted the frequency domain data by a distribution of lifetimes. Temperature dependence studies were performed. If analyzed via a double exponential model, the activation energy for the inverse of the short lifetime component (at pH 7.4) is found to be 3.6 kcal/mol, as compared with a value of 1.0 kcal/mol for the activation energy of the inverse of the long lifetime component. If analyzed via the distribution model, the width of the distribution is found to increase at higher temperature. We have also repeated, using lifetime measurements, the temperature dependence of the acrylamide quenching of the fluorescence of RNase T1 at pH 5.5. We find an activation energy of 8 kcal/mol for acrylamide quenching, in agreement with our earlier report.  相似文献   

18.
The complete amino acid sequence of a DNA- and heparin-binding domain isolated by limited thermolysin digestion of human plasma fibronectin has been obtained. The domain contains 90 amino acids with a calculated molecular weight of 10,225. The apparent molecular mass of this domain is 14 kDa when analyzed by sodium dodecyl sulfate-gel electrophoresis. The anomalously high molecular size estimation may be due to the inaccuracy of this method in the low range. The structure was established from microsequence analysis of the chymotryptic, tryptic, and Staphylococcus aureus protease peptides. The molecular ion of each of the chymotryptic peptides was obtained by fast atom bombardment mass spectrometry. The domain has a preponderance of basic residues with a net charge of +5 at neutral pH. The basic nature of the domain may account for its affinity for the polyanions, DNA and heparin. The predicted secondary structure is beta-sheet, in common with all of the type III internal sequence homology structures obtained for fibronectin so far. The location of the domain in fibronectin was made possible by limited thermolysin digestion and identification of the fragments and by comparison of the sequence of the 14-kDa fragment with the partial structure of bovine plasma fibronectin. The domain comprises residues 585-675 and defines a region immediately adjacent to the collagen-binding domain. Numbering domains beginning at the amino terminus, this domain is Domain III after the fibrin/heparin/actin/S. aureus binding Domain I and the collagen-binding Domain II. The domain was obtained from a larger precursor (56 kDa) which bound heparin, DNA, and gelatin. Further digestion of the 56-kDa fragment gave rise to a 40-kDa fragment which only bound gelatin, and a 14-kDa fragment which only bound heparin or DNA. The 14-kDa fragment (Domain III) marks the beginning of the type III homology region in fibronectin, for there may be up to 15 repeats of 90 amino acids. The size of this domain corresponds to one repeat of 90 amino acids and it has some sequence homology to the other type III sequences found thus far in fibronectin.  相似文献   

19.
The interaction of several 3,6-diaminoacridines with DNAs of various base composition has been studied by steady-state and transient fluorescence measurements. The acridine dyes employed are of the following two classes: class I - proflavine, acriflavine and 10-benzyl proflavine; class II - acridine yellow, 10-methyl acridine yellow and benzoflavine. It is found that the fluorescence decay kinetics follows a single-exponential decay law for free dye and the poly[d(A-T)]-dye complex, while that of the dye bound to DNA obeys a two-exponential decay law. The long lifetime (tau 1) for each complex is almost the same as the lifetime for the poly[d(A-T)]-dye complex, and the amplitude alpha 1 decreases with increasing GC content of DNA. The fluorescence quantum yields (phi F) of dye upon binding to DNA decrease with increasing GC content; the phi F values for class I are nearly zero when bound to poly(dG) X poly(dC), but those for class II are not zero. This is in harmony with the finding that GMP almost completely quenches the fluorescence for class I, whereas a weak fluorescence arises from the GMP-dye complex for class II. The fluorescence spectra of the DNA-dye complexes gradually shift toward longer wavelengths with increasing GC content. In this connection, the fluorescence decay parameters show a dependence on the emission wavelength; alpha 1 decreases with an increase in the emission wavelength. In view of these results, it is proposed that the decay behavior of the DNA-dye complexes has its origin in the heterogeneity of the emitting sites; the long lifetime tau 1 results from the dye bound to AT-AT sites, while the short lifetime tau 2 is attributable to the dye bound in the vicinity of GC pairs. Since GC pairs almost completely quench the fluorescence for class I, partly intercalated or externally bound dye molecules may play an important role in the component tau 2.  相似文献   

20.
For fluorescent staining of microfilaments in cells, heavy meromyosin (HMM) or subfragment-1 (S-1) was labeled with a novel thiol-directed fluorescent dye, N-(7-dimethylamino-4-methylcoumarinyl) maleimide (DACM), instead of the usual dyes, such as fluorescein-isothiocyanate (FITC). DACM-labeled HMM or S-1 gave characteristic fluorescence patterns to a variety of cell types similar to those reported with the use of FITC-labeled HMM or S-1 or with immunofluorescence techniques using anti-actin antibody. The fluorescence of DACM was fairly photoresistant as compared with FITC, so that HMM or S-1 required only 1 mol of the dye per myosin head. Consequently, F-actin need not be used to preserve the actin binding activity of the myosin fragments when labeling with the dye.  相似文献   

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