Crystallization and characterization of the recombinant human Clara cell 10-kDa protein

Crystals of recombinant human Clara cell 10-kDa protein were grown both from ammonium sulfate and polyethylene glycol (PEG) solutions. Crystals grown from ammonium sulfate solution have been characterized by X-ray diffraction studies as monoclinic with the space group C2 and lattice constants a = 69.2 Å, b = 83.0 Å, c = 58.3 Å, and β = 99.7°. The monoclinic crystals diffract to beyond 2.5 Å. Some of the crystals grown from PEG were of a similar habit to those grown from ammonium sulfate, but others were triclinic with the space group P1 and cell constants a = 40.3 Å, b = 46.3 Å, c = 51.3 Å, α = 117.7°, β = 102.3°, and γ = 71.4°. These crystals diffract to beyond 3.2 Å. © 1994 Wiley-Liss, Inc.     

Crystallization and preliminary x-ray diffraction studies of a monoclonal antibody fab fragment against foot-and-mouth disease virus and of its complex with the main antigenic site peptide

The Fab fragment of the neutralizing monoclonal antibody SD6 elicited against foot-and-mouth disease virus (FMDV) C-SBcl and its complex with a peptide, corresponding to the major antigenic site of FMDV (VPl residues 136–150, YTASARGDLAHLTTT), have been crystallized using the hanging drop vapor diffusion techniques. For the isolated Fab, crystals diffracting to 2.5 Å resolution were obtained at room temperature using ammonium sulfate as precipitant. These crystals are monoclinic, space group C2, and unit cell parameters a = 109.53 Å, b = 89.12 Å, c = 64.04 Å, and β = 112.9° and contain one Fab molecule per asymmetric unit. Crystals from the complex diffract, at least, to 2.8 Å resolution and were obtained, at room temperature, using PEG as precipitant. These crystals are monoclinic, space group P2, and unit cell parameters a = 56.11 Å, b = 60.67 Å, c = 143.45 Å, and β = 95.4°, Density packing considerations indicate that there are two Fab molecules in the asymmetric unit. © 1994 John Wiley & Sons, Inc.     

Purification,crystallization, and preliminary crystallographic analysis of 3-deoxy-D-arabino-heptulosonate-7-phosphate synthase from Escherichia coli

The phenylalanine-regulated isozyme of 3-deoxy-D-arabino-heptulosonate-7-phosphate- synthase (DAHPS) from Escherichia coli, its binary complexes with either substrate, phosphoenolpyruvate (PEP), or feedback inhibitor, Phe, and its ternary complexes with either PEP or Phe plus metal cofactor (either Mn²⁺, Cd²⁺, or Pb²⁺) were crystallized from polyethylglycol (PEG) solutions. All crystals of the DAHPS without Phe belong to space group C2, with cell parameters a = 213.5 Å, b = 54.3 Å, c = 149.0 Å, β = 116.6°. All crystals of the enzyme with Phe also belong to space group C2, but with cell parameters a = 297.1 Å, b = 91.4 Å, c = 256.5 Å, and β = 148.2°.     

Crystallization and preliminary X-ray studies of ornithine decarboxylase from Trypanosoma brucei

Trypanosoma brucei ornithine decarboxylase, expressed and purified from E. coli, has been crystallized by the vapor diffusion method using PEG 3350 as a precipitant. The crystals belong to the monoclinic space group P2₁ and have cell constants of a = 66.3 Å, b = 151.8 Å, c = 83.7 Å, and β = 101.2°. While larger crystals are twinned, smaller crystals (0.4 × 0.3 × 0.05 mm³) are single.     

Crystallization and preliminary X-ray diffraction studies of dogfish C-reactive protein

Crystals of dogfish (Mustelus canis) C-reactive protein were obtained through vapor phase equilibration using the sitting drop rod technique with ammonium sulfate as the precipitating agent. The space group was determined to be P1 (triclinic lattice) with unit cell dimensions of a = 82.91, b = 92.25 and c = 103.40 Å; α = 83.36°, β = 89.76°, and γ = 81.30°. These crystals diffract to about 2.6 Å resolution and contain two hexamers in the asymmetric unit. © 1993 Wiley-Liss, Inc.     

Crystallization,preliminary X-ray diffraction study,and crystal packing of a complex between anti-Hen lysozyme antibody F9.13.7 and Guinea-fowl lysozyme

The complex formed between the Fab fragment of a murine monoclonal anti-hen egg lysozyme antibody F9.13.7 and the het-erologous antigen Guinea-fowl egg lysozyme has been crystallized by the hanging drop technique. The crystals, which diffract X-rays to 3 Å resolution, belong to the monoclinic space group P2₁, with a = 83.7 Å, b = 195.5 Å, c = 50.2 Å, β = 108.5° and have two molecules of the complex in the asymmetric unit The three-dimensional structure has been determined from a preliminary data set to 4 Å using molecular replacement techniques. The lysozyme–Fab complexes are arranged with their long molecular axes approximately parallel to the crystallo-graphic unique axis. Fab F9.13.7 binds an anti-genie determinant that partially overlaps the epitope recognized by antilysozyme antibody HyHEL10. © 1993 Wiley-Liss, Inc.     

Purification,characterization, crystallization,and preliminary X-ray results from Paracoccus denitrificans porin

The porin from Paracoccus denitrificans ATCC 13543 was purified and crystallized. Two crystal forms were obtained from porin solutions with β-d-octylglucopyra-noside as detergent. Crystals of form I belong to the monoclinic spacegroup C2 with unit cell dimensions a = 112.2 Å, b = 193.8 Å, c = 100.5 Å and β = 129.2°. There is 1 trimer per asymmetric unit. Crystals of form II are triclinic with α = 89.7 Å, b = 98.8 Å, c = 112.5 Å, b = 112.5Å, β = 101.8°, γ = 106.7° (2 trimers per asymmetric unit). Both crystal forms diffract to 3 Å. © 1995 Wiley-Liss, Inc.     

Crystal structures of α- and β-(1,10-phenanthroline)tetrahydroborato(triphenylphosphine)copper(I) and (2,9-dimethyl-4,7-diphenyl-1,10-phenanthroline)tetrahydroboratocopper(I)

Copper(I) is five coordinate in (1,10-phenanthroline)tetrahydroborato(triphenylphosphine)copper(I). This compound crystallizes from either toluene as the yellow, α-form, a = 16.247(8), b = 9.750(7), c = 9.322(5) Å, α = 62.92(4), β = 84.77(4), γ = 84.34(5)°, triclinic P$\text{1}$, Z = 2, or from a xylene/methylene chloride mixture as the red β-form, X-ray cell, a = 13.675(11), b = 10.115(8), c = 9.700(7) Å, α = 95.22(6), β = 96.22(6), γ = 101.02(6)°; neutron cell, as the tetradeuteroborate, a = 13.703(1), b = 10.096(8), c = 9.74(1) Å, α = 95.23(9), β = 96.51(8), γ = 101.04(2)°, triclinic, P$\text{1}$, Z = 2. For both forms, unidentate triphenylphosphine, bidentate 1,10-phenanthroline and unsymmetrical bidentate BH₄^? completes the copper(I) coordination but there are subtle differences between the two. When the ligand 2,9-dimethyl-4,7-diphenyl-1,10-phenanthroline, dmdp, replaces 1,10-phenanthroline, the compound obtained is four coordinate with no tpp in the crystal. [C(dmdp)BH₄] is monoclinic, Cc, a = 14.522(4), b = 20.07(2), c = 7.718(2) Å, β = 106.17(2)°, Z = 4.     

Crystallization and preliminary cryogenic X-ray diffraction analyses of protein L-isoaspartyl O-methyltransferase from human fetal brain

Recombinant human fetal brain protein L-isoaspartyl O-methyltransferase, EC 2.1.1.77, was crystallized in PEG 8000 with adenosine homocysteine by a macroseeding technique. The space group was P2₁ with a = 47.4 Å, b = 53.9 Å, c = 48.7 Å and β = 116.4° for cryofrozen crystals at 90 K. The crystals diffracted to 2.1 Å and have one molecule per asymmetric unit. Proteins 28:457–460, 1997. © 1997 Wiley-Liss, Inc.     

Crystallization and preliminary X-ray diffraction study of the green flavoenzyme 5-Hydroxyvaleryl-CoA dehydratase/dehydrogenase from Clostridium aminovalericum

The bifunctional flavoenzyme 5-hydroxyvaleryl-CoA dehydratase/ dehydrogenase has been crystallized from solutions containing ammonium sulfate (form I) or polyethylene glycol (form II) as precipitant. In both cases, the crystals grew in the monoclinic space group C2. The unit cell dimensions for form I crystals were determined as a = 162.8 Å, b = 71.8 Å, c = 83.5 Å, β = 109.1°. Corresponding values for form II crystals were a = 161.2 Å, b = 71.6 Å, c = 82.2 Å, β = 109.3°. In both cases most probably there are two monomers per asymmetric unit. The crystals diffract to about 2 Å resolution and are rather stable in the X-ray beam. © 1994 Wiley-Liss, Inc.     

Crystal and molecular structure of L-cis-3,6-dimethyl-2,5-piperazinedione (L-alanyl-L-alanyl-2,5-diketopiperazine)

The crystal structure of L -cis-3, 6-dimethyl-2,5-piperazinedione (L -alanyl-L -alanyl-2,5-diketopinerazine) has been determined. The unit cell is triclinic with a = 8.05, b = 6.08, c = 5.15 Å, α = 131.7°, β = 82.4°, γ = 106.6°. The space group is P1 with one molecule per unit cell. The six-membered ring is found to be nonplanar with an angle between the two amide group planes of 26°. One amide group deviates slightly from planarity. The experimental molecular model is discussed in terms of its flexibility.     

Metal—phenoxyalkanoic acid interactions. Part 14. The crystal and molecular structures of diaquabis(4-fluorophenoxyacetato)copper(II) bis(4-fluorophenoxyacetic acid)dihydrate and tetra-μ-(4-fluorophenoxyacetato-0,0′)-bis[(2-aminopyrimidine)copper(II)]

The crystal structures of two copper(II) complexes of 4-fluorophenoxyacetic acid (4-FPAH) have been determined by X-ray diffraction. [Cu(4-FPA)₂(H₂O)₂]·2(4-FPAH)·2H₂O (1) is triclinic, space group P1 with Z = 1 in a cell of dimensions a = 14.808(2), b = 9.832(2), c = 6.847(2) Å, α = 87.77(2), β = 98.41(2), γ = 112.33(2)° and was refined to a residual of 0.038 for 1697 ‘observed’ reflections. The coordination sphere in this complex is tetragonally distorted octahedral comprising two waters [CuO, 1.940(3) Å], two unidentate carboxylate oxygens [CuO, 1.942(2) Å] and two ether oxygens [CuO, 2.471(2) Å]. Two adducted [4-FPAH] acid molecules are linked to the un-coordinated oxygens of the acid ligands by hydrogen bonds [2.547(4) Å]. [Cu₂(4-FPA)₄(2-aminopyrimidine)₂] (2) is triclinic, space group P1 with Z = 1 in a cell of dimensions a = 12.688(2), b = 11.422(2), c = 7.951(1) Å, α = 78.74(1), β = 107.51(1), γ = 75.78(1)°, and was refined to a residual of 0.042 for 2683 ‘observed’ reflections. (2) is a centrosymmetric tetracarboxylate bridged dimer with four similar CuO (equatorial) distances [1.967–1.987 Å; 1.977(3) Å mean] and the axial position occupied by the hetero nitrogen of the 2-aminopyrimidine ligand [CuN, 2.176(3) Å]. The Cu---Cu separation is 2.710(1) Å. Crystal data are also presented which confirm the isostructurality of complex (2) with [Cu₂(phenoxyacetate)₄(2-aminopyrimidine)₂], the Co^II, Mg^II and Mn^II4-fluorophenoxyacetate complexes with their phenoxyacetic and 4-chlorophenoxyacetic acid analogues, and of Cd^II4-fluorophenoxyacetate with Cd^II and Zn^II phenoxyacetates.     

Visualization of Drug-Nucleic Acid Interactions at Atomic Resolution. IX. Structures of Two N,N-Dimethylproflavine: 5-Iodocytidylyl (3′-5′) Guanosine Crystalline Complexes

Abstract

This paper describes two complexes containing N,N-dimethylproflavine and the dinucleoside monophosphate, 5-iodocytidylyl(3′-5′)guanosine (iodoCpG). The first complex is triclinic, space group PI, with unit cell dimensions a = 11.78 Å, b = 14.55 Å, c = 15.50 Å, a = 89.2°, β = 86.2°, γ = 96.4°. The second complex is monoclinic, space group P2₁, with a = 14.20 Å, b = 19.00 Å, c = 20.73 Å, β = 103.6°. Both structures have been solved to atomic resolution and refined by Fourier and least squares methods. The first structure has been refined anisotropically to a residual of 0.09 on 5,025 observed reflections using block diagonal least squares, while the second structure has been refined isotropically to a residual of 0.13 on 2,888 reflections with full matrix least squares. The asymmetric unit in both structures contains two dimethylproflavine molecules and two iodoCpG molecules; the first structure has 16 water molecules (a total of 134 non-hydrogen atoms), while the second structure has 18 water molecules (a total of 136 non-hydrogen atoms). Both structures demonstrate intercalation of dimethylproflavine between base-paired iodoCpG dimers. In addition, dimethylproflavine molecules stack on either side of the intercalated duplex, being related by a unit cell translation along b and a axes, respectively.

The basic structural feature of the sugar-phosphate chains accompanying dimethylproflavine intercalation in both structures is the mixed sugar puckering pattern: C3′ endo (3′-5′) C2′ endo. This same structural information is again demonstrated in the accompanying paper, which describes a complex containing dimethylproflavine with deoxyribo-CpG.

Similar information has already appeared for other “simple” intercalators such as ethidium, acridine orange, ellipticine, 9-aminoacridine, N-methyl-tetramethylphenanthrolinium and terpyridine platinum. “Complex” intercalators, however, such as proflavine and daunomycin, have given different structural information in model studies. We discuss the possible reasons for these differences in this paper and in the accompanying paper.     

Crystallization and preliminary crystallographic analysis of the N-terminal two domain fragment of vascular cell adhesion molecule-1 (VCAM-1)

A molecular fragment comprising the first two domains of the human vascular cell adhesion molecule-l (VCAM-l) has been crystallized by the vapor diffusion method. Two crystal forms have been examined by X-ray analysis: One crystal form belongs to the space group C2 with two molecules in the asymmetric unit and cell parameters: a = 122.1 Å, b = 48.9 Å, c = 73.4 Å, and β = 117.4°. The other crystal form belongs to the space group P2₁ with one molecule in the asymmetric unit and cell parameters: a = 40.4 Å, b = 45.7 Å, c = 54.7 Å, and β = 100.5°. Diffraction data up to 1.9 Å resolution have been collected for the C2 crystal form. © 1994 Wiley-Liss, Inc.     

High resolution structures of the 4-4-20 Fab-fluorescein complex in two solvent systems: effects of solvent on structure and antigen-binding affinity.

Three-dimensional structures were determined for three crystal forms of the antigen binding fragment (Fab) of anti-fluorescein antibody 4-4-20 in complex with fluorescein. These included 1) a triclinic (P1) form crystallized in 47% (v/v) 2-methyl-2,4-pentanediol (MPD); 2) a triclinic (P1) form crystallized in 16% (w/v) poly(ethylene glycol), molecular weight 3350 (PEG); and 3) a monoclinic (P21) form crystallized in 16% PEG. Solvent molecules were added to the three models and the structures were refined to their diffraction limits (1.75-A, 1.78-A, and 2.49-A resolution for the MPD, triclinic PEG, and monoclinic PEG forms, respectively). Comparisons of these structures were interesting because 4-4-20 exhibited a lower antigen-binding affinity in 47% MPD (Ka = 1.3 x 10(8) M-1) than in either 16% PEG (Ka = 2.9 x 10(9) M-1) or phosphate-buffered saline (Ka = 1.8 x 10(10) M-1). Even though the solution behavior of the antibody was significantly different in MPD and PEG, the crystal structures were remarkably similar. In all three structures, the fluorescein-combining site was an aromatic slot formed by tyrosines L32, H96, and H97 and tryptophans L96 and H33. In addition, several active site constituents formed an electrostatic network with the ligand. These included a salt link between arginine L34 and one of fluorescein's enolate oxygen atoms, a hydrogen bond between histidine L27d and the second enolic group, a hydrogen bond between tyrosine L32 and the phenylcarboxylate group, and two medium range (approximately 5 A) electrostatic interactions with lysine L50 and arginine H52. The only major difference between the triclinic MPD and PEG structures was the degree of hydration of the antigen-combining site. Three water molecules participated in the above electrostatic network in the MPD structure, while eight were involved in the PEG structure. Based on this observation, we believe that 4-4-20 exhibits a lower affinity in MPD due to the depletion of the hydration shell of the antigen-combining site.     

Crystallographic studies and primary structure of the antitumor monoclonal CC49 Fab′

The Fab′ of CC49, a murine monoclonal antibody directed against the human tumor-associated antigen TAG-72 has been crystallized. The crystals are monoclinic, space group P2₁ with cell parameters a = 115.6 Å, b = 116.4 Å, and c = 70.3 Å; β = 97.8°. The size of the unit cell is compatible with four Fab′ molecules in the asymmetric unit. The Fab molecules are related by two approximately perpendicular pseudo-2-fold axes. One pseudo-2-fold axis is parallel to the crystallographic 2-fold axis and was found by inspection of the Harker section of the native Patterson map; the other was found by a self rotation function. The primary structures of the variable regions of the CC49 antibody light and heavy chains have been determined and are compared with those of the related antitumor antibody B72.3. © 1993 Wiley-Liss, Inc.     

Purification,crystallization, and preliminary X-ray diffraction studies of tRNA-guanine transglycosylase from Zymomonas mobilis

The tRNA modifying enzyme tRNA–guanine transglycosylase (Tgt) catalyzes the exchange of guanine in the first position of the anticodon with the queuine precursor 7-aminomethyl-7-deazaguanine. Tgt from Zymomonas mobilis has been purified by crystallization and further recrystallized to obtain single crystals suitable for x-ray diffraction studies. Crystals were grown by vapor diffusion/gel crystallization methods using PEG 8,000 as precipitant. Macroseeding techniques were employed to produce large single crystals. The crystals of Tgt belong to the monoclinic space group C2 with cell constants a = 92.1 Å, b = 65.1 Å, c = 71.9 Å, and β = 97.5°, and contain one molecule per asymmetric unit. A complete diffraction data set from one native crystal has been obtained at 1.85 Å resolution.     

Crystal structure,conformational analysis,and molecular dynamics of tetra-O-methyl-(+) -catechin

The structure of tetra-O-methyl- (+) -catechin has been determined in the crystalline state. Two independent molecules, denoted structure A and structure B, exist in the unit cell. Crystals are triclinic, space group P1, a = 4.8125(2) Å, b = 12.9148(8) Å, c = 13.8862(11) Å, α = 86.962(6) °, β = 89.120(5)°, γ = 88.044(5)°, Z = 2, D_c = 1.336 g cm^?3, R = 0.033 for 6830 observations. The heterocyclic rings of the crystal structures are compared to previous results for 8-bromotetra-O-methyl-(+)-catechin, penta-O-acetyl-(+)-catechin, and (?) -epicatechin. One of the two molecules has a heterocyclic ring conformation similar to that observed previously for (?)-epicatechin, and the other has a heterocyclic ring conformation similar to one predicted earlier in a theoretical analysis of dimers of (+)-catechin and (?) -epicatechin. Both structure A and structure B in the crystal have heterocyclic ring conformations that place the dimethoxyphenyl substituent at C(2) in the equatorial position. However, this heterocyclic ring conformation does not explain the proton nmr coupling constant measured in solution. Molecular dynamics simulations show an equatorial ? axial interconversion of the heterocyclic ring, which can explain the nmr results. © 1993 John Wiley & Sons, Inc.     

Crystallization of glycosylated and nonglycosylated phytohemagglutinin-L

In the seeds of legume plants a class of sugar-binding proteins can be found, generally called legume lectins. In this paper we present the crystallization of phytohemagglutinin-L (PHA-L), a glycosylated lectin from the seeds of the common bean (Phaseolus vulgaris). Single PHA-L crystals were grown by vapor diffusion, using PEG as precipitant. The protein crystallizes in the monoclinic space group C2, and diffracts to a resolution of 2.7 Å. The unit cell parameters are a = 106.3 Å, b = 121.2 Å, c = 90.8 Å, and β = 93.7°. The asymmetric unit probably contains one PHA-L tetramer. Crystals of a recombinant nonglycosylated form of PHA-L, grown under identical conditions, and crystals of the native PHA-L, grown in the presence of isopropanol, did not survive the mounting process.     

Crystal and molecular structure of bis(tricyclohexylphosphine)silver(I)nitrate and bis(tricyclohexylphosphine)silver(I)perchlorate; correlation of the structures with the silver-phosphorus coupling constants

Two (1:2) silver monophosphine complexes have been studied by X-ray diffraction methods and in solution by P NMR spectroscopy. Both are monomeric and tricoordinated in the solid state but one of them, the perchlorate compound, is probably associated as a dimer species in solution from the lower ¹J(¹⁰⁷Ag³¹P) value when compared to the nitrate analogue. Previous structural correlations found in other silver-phosphine complexes have been confirmed for these new compounds. Thus, larger PAgP bond angles are associated with shorter AgP bond distances, longer Aganion bond distances and lower Lewis basicity of the anions. Selected structural data are: PAgP bond angle of 139.04(9)°, AgP bond lengths of 2.440(3) and 2.445(3) Å for the nitrate complex and 147.34(3)°, 2.429(1) Å and 2.432(1) Å, for the perchlorate one. J(¹⁰⁷Ag³¹P) is 457 Hz and 447 Hz, respectively. The complexes are triclinic, Z = 2, with the parameters: a = 9.258(2), b = 9.828(2), c = 23.385(5) Å, α = 94.73(2)°, β = 96.35(2)°, γ = 116.42(1)° (nitrate) and a = 9.505(2), b = 9.790(2), c = 23.667(6) Å, α= 99.03(2) β = 95.44(2) γ = 115.97(1)° (perchlorate).