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Cucumber basic blue protein structure

There are a number of excellent sources of information on copper proteins notable among them is the three-volume series Copper Proteins and Copper Enzymes (Lontie, 1984). A review of the state of structural knowledge in 1985 (Adman, 1985) included only the small blue copper proteins. A brief review of extended X-ray absorption fine structure (EXAFS) work on some of these proteins appeared in 1987 (Hasnain and Garner, 1987). A number of new structures have been solved by X-ray diffraction, and the structures of azurin and plastocyanin have been extended to higher resolution. The new structures include two additional type I proteins (pseudoazurin and cucumber basic blue protein), the type III copper protein hemocyanin, and the multi-copper blue oxidase ascorbate oxidase. Results are now available on a copper-containing nitrite reductase and galactose oxidase. [Pg.147]

Cucumber basic blue protein (Cbp) is a protein without known function, also known as cusacyanin or plantacyanin. Its structure (Guss et al., 1988) completes the repertoire of cupredoxins with known structures. The topology of its folding is similar (Fig. 5) to those of plastocyanin and azurin, as might have been expected from sequence similarities and... [Pg.161]

The crystal structure of cucumber basic blue protein has now been refined to 3.0 A resolution (Adman, 1985). The protein consists of eight strands, only five of which form a P-sandwich and the protein has less P-sheet character than plastocyanin or azurin. The ligands to copper are provided by the side chains of His-39, Cys-79, His-84 and Met-89. The copper site has the N2SS coordination seen in plastocyanin. The imidazole rings of the His-39 and His-94 residues are exposed to the solvent providing a likely entry site for electon transfer to the copper centre. [Pg.130]

The type I copper sites function as electron transfer centers in the blue copper proteins and in multicopper enzymes, particularly oxidases (33). They are characterized by their intense blue color, their unusually small A values, and their very positive redox potentials (Table II). X-ray crystal structures of several blue copper proteins have been determined, notably plastocyanin (34), azurin (35), cucumber basic blue protein (36), and pseudoazurin (37). The active site structures show marked similarities but also distinct differences (Fig. 8). [Pg.334]

Basic blue proteins have been isolated from a number of plant sources and have previously been referred to as plantacyanin (Aikazyan and Nalbandyan, 1975,1979 Sakurai et al, 1982). The protein from cucumber has been the most extensively studied of the basic blue proteins and the crystal structure is now available (Guss et al., 1988). The function of this basic blue protein is unknown, however, it is probably not involved in photosynthetic electron transport as it will not replace plastocyanin in that electron transport chain (Adman, 1985). [Pg.130]

The molecular structure of another blue protein, the phytocyanin (phytocyanins are electron carriers found in the non-photosynthetic part of plants) cucumber basic protein (FW=10 100), also known as plantacyanin, is shown in Figure 33.60... [Pg.569]

Guss, J. M., et al. (1988). Phase determination by multiple-wavelength x-ray diffraction crystal structure of a basic blue copper protein from cucumbers. Science 241, 806-811. [Pg.125]

Crystal structures of three phytocyanins are currently available. Two are for plantacyanins, from cucumber (also known as cucumber basic protein) (Guss et al., 1988, 1996) and from spinach (Einsle et al., 2000), and one is for the recombinant BCB domain of cucumber stella-cyanin (Hart et al., 1996). The three proteins display folding topology identical to one another, suggesting that phytocyanins fold into a uniform structure, which can be designated as a phytocyanin fold. As a historical note, the crystallization of the cucumber basic protein and its preliminary crystallographic data were reported in 1977, before any structure of a blue copper protein was available (Colman et al., 1977). However, the structure was solved in 1988 only by application of the then newly... [Pg.306]

The first crystal structure information on a blue copper protein, for poplar plastocyanin in the Cu(II) state, was published in 1978 (2, 3). Since then, the Cu(I) state and related apo and Hg(II) substituted forms (5, 6), the green algal plastocyanin from Enteromorpha prolifera [Cu(II)] (7), azurin from Alcaligenes denitrificans [Cu(II) and Cu(D] (8, 9), azurin from Pseudomonas aeruginosa [Cu(II)] (10, 11), as well as pseudoazurin from Alcaligenes faecalis S-6 (12), and the cucumber basic protein, both in the Cu(II) state, have been published (13), making this one of the best-documented class of proteins. In addition, information as to three-dimensional structure in solution has been obtained from two-dimensional NMR studies on French bean and Scenedesmus obliquus plastocyanins (14,15). This review is concerned in the main with the active site chemistry. Other recent reviews are listed (16-20). [Pg.378]

The classic blue copper sites in plastocyanin and azurin exhibit essentially identical EPR spectra, with approximately axial (gj >= gy) EPR signals. This argues that the long 3.0 Cu-0 A carbonyl oxygen makes little contribution to the electronic structure of azurin, consistent with other spectroscopy and the fact that the relatively compact 0 2p orbitals would be expected to have little contribution to bonding at this distance. On the basis of EPR, the perturbed blue copper sites can be divided into 2 classes (1) those which exhibit a rhombic EPR signal (i.e. A gi = g — g, > 0.01, as in cucumber basic protein, nitrite reductase and stellacyanin, Figure 9)159,160 2) those which are perturbed, but still... [Pg.1031]

LaCroix LB, Randall DW, Nersissian AM, Hoitink CWG, Canters GW, Valentine JS, Solomon El. 1998. Spectroscopic and geometric variations in perturbed blue copper centers electronic structures of stellacyanin and cucumber basic protein. J Am Chem Soc 120 9621-9631. [Pg.500]


See other pages where Cucumber basic blue protein structure is mentioned: [Pg.182]    [Pg.6]    [Pg.18]    [Pg.20]    [Pg.323]    [Pg.124]    [Pg.1026]    [Pg.1031]    [Pg.22]    [Pg.493]    [Pg.1025]    [Pg.1030]    [Pg.173]    [Pg.537]    [Pg.2256]    [Pg.2268]    [Pg.189]    [Pg.118]   
See also in sourсe #XX -- [ Pg.161 ]




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