A mechanism for professional and organizational audit of radiopharmacy departments

An audit document is presented which can be used to assess the radiopharmacy service in a particular institute. It can be used for self-assessment or can form the basis for peer review. The document covers a wide range of aspects of radiopharmacy. It is acknowledged that the document will need constant review and where appropriate, modification, in order to reflect changes in practice or legislation.

Inactivation of individual Ca(2+)-binding sites in the paired EF-hand sites of parvalbumin reveals asymmetrical metal-binding properties

Previously a rat parvalbumin mutant protein PVF102W was constructed with a reporter Trp at position 102 in the middle of the hydrophobic center [Pauls, T. L., et al. (1993) J. Biol. Chem. 268, 20897-20903]. In the present study three new parvalbumin mutant proteins, derived from PVF102W and containing alterations at positions essential for Ca2+ binding in either one of the two Ca(2+)-binding sites (PV-CD and PV-EF) or in both (PV-CD/-EF), were expressed and purified. With the flow dialysis method it was established that both PV-CD and PV-EF bind 1 Ca2+ with affinity constants KCa of 1.1 x 10(7) and 3.2 x 10(6) M-1, respectively. Mg2+ binding, monitored by equilibrium gel filtration in the absence of Ca2+, showed that both mutants bind 1 Mg2+ with KMg = 8 10(4) for PV-CD and 3 x 10(3) M-1 for PV-EF. Compared to the parameters of the parent mutant PVF102W (two sites with equal affinities of 2.7 x 10(7) and 3 x 10(4) M-1 for Ca2+ and Mg2+, respectively), these data indicate that inactivation of the EF site, much more than of the CD site, impairs divalent cation binding. The binding of Ca2+ and Mg2+ is mutually exclusive, indicative of a Ca2+/Mg2+ mixed site. However, as for PVF102W, the KMg values obtained from the competition equation are approximately 40-fold lower than the affinities measured by direct binding. PV-CD/-EF binds neither Ca2+ nor Mg2+. Trp fluorimetry revealed that in the three mutant PVs the residue Trp-102 is deeply buried in the hydrophobic core.(ABSTRACT TRUNCATED AT 250 WORDS)

Inhibition of rhodopsin phosphorylation by non-myristoylated recombinant recoverin

Bovine recoverin regulates rhodopsin phosphorylation and controls photoreceptor light sensitivity in a Ca(2+)-dependent manner. Recoverin is post-translationally modified with lipids (myristic acid or related lipids) at its N-terminus. Since with this lipid modification (N-myristoylation), recoverin associates with rod outer segment membranes in a Ca(2+)-dependent manner, N-myristoylation has been suggested to be important for the function of this protein. To study the role of this modification, we obtained recombinant non-myristoylated recoverin in E. coli and studied its functional properties. Here, we report that recombinant non-myristoylated recoverin inhibits rhodopsin phosphorylation at Ca2+ concentrations of 30 nM-10 microM in a similar way as native N-myristoylated recoverin does. Thus, our result showed that N-myristoylation is not essential for the Ca(2+)-dependent inhibition of rhodopsin phosphorylation by recoverin.

Prostate cancer: comparison of retrograde urethrography and computed tomography in radiotherapy planning

PURPOSE

To prospectively compare the role of retrograde urethrography and high-quality computed tomography during the treatment planning of patients with prostate cancer.

METHODS AND MATERIALS

Forty consecutive men with localized prostate cancer underwent planning computed tomography prior to stimulation. At the time of simulation we performed retrograde urethrography and compared the location of the inferior border of the urogenital diaphragm to the location of the ischial tuberosities and the prostate and base of the penis as seen on the computed tomography scan.

RESULTS

Interobserver identification of the prostatic apex varied in 70% of the cases. Perhaps due to this variability, attempts to place the inferior border of the treatment field in relation to the prostatic apex resulted in an inadequate margin (< 1 cm) beneath the urogenital diaphragm in 5%. In contrast, placing the inferior border at the ischial tuberosities or the base of the penis as seen on computed tomography insured an adequate margin for all patients. The distance from the urogenital diaphragm to the ischial tuberosities and, thus, the potential margin beneath the urogenital diaphragm was > 2 cm in 77%, while the distance from the urogenital diaphragm to the base of the penis was > or = 2 cm in only 43%.

CONCLUSION

This demonstrates the difficulty in reliably identifying the prostate on computed tomography. Nevertheless, by identifying the base of the penis, planning computed tomography provides adequate information to cover the target volume, and results in minimal overtreatment of normal structures. Urethrograms are not necessary if the computed tomography is properly used or if the ischial tuberosities are used as a standard inferior border, but they can reduce the length of urethra in the treatment volume which could potentially reduce complications.

Purification and characterization of the recombinant human calcium-binding S100 proteins CAPL and CACY

The S100 proteins CAPL and CACY are expressed in a tissue- and cell-specific manner and have been reported to be associated with the metastatic phenotype of tumor cells. In order to study the biochemical, cation-binding, and conformational properties, we produced and purified large amounts of the recombinant human proteins in Escherichia coli. Several characteristics of native proteins are shown to correspond to those of the bacterially expressed proteins. Both are able to form homodimers in vitro, probably the biologically active species, but not heterodimers. The Ca(2+)-binding parameters were studied by flow offlysis at physiological ionic strength. Both isotherms show a maximum of two Ca2+ per protein and are insensitive to Mg2+, indicating that the sites are of the Ca(2+)-specific type. The isotherms show slight (CAPL, nH = 1.15) or pronounced (CACY, nH = 1.33) positive cooperativity with K0.5 values of 0.32 mM (CACY) and 0.15 mM (CAPL), indicating that the sites are of the low-affinity type. Conformational changes in the Tyr microenvironment of CACY indicate that Ca2+ binding induces a shift of Tyr to a less polar environment. Mg2+ does not affect the fluorescence properties nor does it induce a difference spectrum, thus suggesting that at physiological ionic conditions it does not interact with the protein. The Ca(2+)-induced difference spectra of CAPL are about 3 times smaller than those of CACY, suggesting that the additional Tyr84 in CACY is much more sensitive to Ca2+ than the two Tyr residues conserved in both proteins.

Characterization and primary structure of amphioxus troponin C

Troponin C (TnC) from amphioxus (Protochordate) was purified and its primary structure determined. Unlike the case of vertebrates and other invertebrates, amphioxus TnC is found in the soluble fraction after extractions at physiological ionic strength in the presence of Ca2+. Edman sequencing combined with mass spectroscopy indicate that the protein contains 163 amino acid residues. It possesses an acetylated N-terminus (although a small percentage has a free Ser N-terminus) and either epsilon-N-methyllysine or epsilon-N-dimethyllysine in position 20. It displays about 50% sequence identity with vertebrate skeletal-muscle and cardiac-muscle TnC, 44% with TnC of sea squirt, also a Protochordate, and 30% with other invertebrate TnC. Like vertebrate TnC, amphioxus TnC contains a N-terminal alpha-helix plus the usual four ancestral Ca(2+)-binding regions, but analysis of the sequence suggests that the fourth site is not functional. Flow dialysis shows that amphioxus TnC binds three Ca2+ with the mean apparent affinity constant K' of 3.4 +/- 1.5 10(5) M-1. No cooperativity exists between the sites, and the presence of up to 10 mM Mg2+ does not influence the Ca(2+)-binding isotherm, indicating that the metal-binding sites are Ca(2+)-specific at physiological Mg2+ concentrations. It forms a Ca(2+)-dependent, 1:1 complex with melittin and rabbit or crayfish troponin I (TnI). Amphioxus TnC possesses one Trp residue in position 151 and one at the C-terminus. Trp fluorescence suggests that one or both residues are solvent-exposed in the metal-free form and efficiently shielded in the Ca2+ form. Although Mg2+ has no effect on the Ca2+ binding, the Trp fluorescence is influenced by millimolar Mg2+, suggesting the presence of one or more independent Mg(2+)-binding site(s). A phylogenetic analysis clearly shows that amphioxus TnC is positioned on the branch of the Chordates, but at a distance from the vertebrate TnC. Its place on the phylogenetic tree is in accordance with the consensus evolutionary phylogeny.

Metal binding properties of recombinant rat parvalbumin wild-type and F102W mutant

Rat parvalbumin (PV), an EF-hand type Ca(2+)-binding protein, was expressed in Escherichia coli and mutated by replacing a Phe at position 102 with a unique Trp in order to introduce a distinct fluorescent label into the protein. Mass spectroscopy and NMR data indicate that the recombinant wild-type (PVWT) and F102W mutant (PVF102W) proteins have the expected molecular weight and retain the native structure. Both proteins contain two non-cooperative Ca2+/Mg(2+)-binding sites with intrinsic affinity constants, KCa and KMg, of 2.4 +/- 0.9 x 10(7) M-1 and of 2.9 +/- 0.2 x 10(4) M-1, respectively, for PVWT, and KCa and KMg, of 2.7 +/- 1.1 x 10(7) M-1 and of 4.4 +/- 0.3 x 10(4) M-1, respectively, for PVF102W. Based on the highly similar metal binding properties of PVWT and PVF102W the latter protein was used to study cation-dependent conformational changes. Trp fluorescence emission and UV difference spectra of PVF102W indicated that the Trp residue at position 102 is confined to a hydrophobic core and conformationally strongly restricted. Upon Ca2+ or Mg2+ binding the structural organization of the region around the Trp is hardly affected, but there are significant changes in its electrostatic environment. The conformational change upon binding of Ca2+ and Mg2+, as monitored by UV difference spectrophotometry, increases linearly from 0 to 2 cations bound, indicating that the binding of both ions contributes equally to the structural organization in this protein.

Immunolocalization of calcium vector protein and its target protein in amphioxus

Three proteins, sarcoplasmic Ca(2+)-binding protein (SCP), Ca2+ vector protein (CaVP) and its target protein (CaVPT), are found abundantly in the higher invertebrate amphioxus. Whereas the function of SCP is likely to be related to Ca2+ and Mg2+ buffering, that of the latter two proteins, apparently linked together, is still not clear. In this study, affinity-purified polyclonal antibodies to these three proteins were used to study the extractability under physiological ionic conditions, the distribution in different tissues and the immunocytochemical localization in striated muscle. Our data show that SCP is essentially cytosolic whereas CaVP and CaVPT are partially associated with non-soluble components in amphioxus tissues. The tissue distribution, studied in transverse sections, shows that SCP is merely confined to striated muscle, whereas CaVP and CaVPT are also abundant in other tissues such as the spinal chord and the gonads. Thus the protein pair CaVP/CaVPT is likely to serve a general role in many tissues; however, no strict correlation was found in the distribution of the latter two proteins, suggesting that they may function independently. The detailed cytochemical localization of the three proteins in longitudinal sections of striated muscle revealed a discrete striation pattern in addition to a diffuse background. For SCP these striations are coincident with the Z line. The immunostaining for CaVP shows intense striations at the level of the Z lines alternating with weak striations at the M lines. For CaVPT the striations at the Z and M line are more or less of equal intensity, leading to a pattern with a 1 micron periodicity.(ABSTRACT TRUNCATED AT 250 WORDS)

Cation binding and conformation of human calmodulin-like protein

The Ca(2+)-binding parameters of recombinant human calmodulin-like protein (CLP), a protein specifically expressed in mammary epithelial cells, were studied by flow dialysis in the absence and presence of 2, 10, and 30 mM MgCl2. In general, the four intrinsic binding constants (K'Ca) are about 8-fold lower than in animal and plant calmodulins. In the absence of Mg2+ the K'Ca values of the four binding steps equal 4.0 x 10(3), 3.3 x 10(4), 1.0 x 10(4), and 6.0 x 10(3) M-1, respectively. They allow us to distinguish two pairs of sites: a higher affinity pair with strong positive cooperativity and a lower affinity pair composed of non-interacting sites with different affinities. Mg2+ antagonizes Ca2+ binding by decreasing only Ca(2+)-binding steps 2 and 3, so that at high Mg2+ concentrations the positive cooperativity in the high-affinity pair has been lost and that the four K'Ca values are very similar with a mean K'Ca of 4 x 10(3) M-1. Direct Mg2+ binding studies by equilibrium gel filtration indicate that 4-5 Mg2+ bind to CLP with a mean K'Mg of 250 M-1. Conformational changes in the unique Tyr138 microenvironment, monitored by fluorimetry and near-UV difference spectrophotometry, indicate that in metal-free CLP this Tyr is shielded from the polar solvent and strongly quenched by a specific chemical group; Ca2+ binding induces a shift of Tyr to a more polar environment and removal of the quenching group, but without full exposure to the solvent.(ABSTRACT TRUNCATED AT 400 WORDS)

Sarcoplasmic calcium-binding proteins in Aplysia nerve and muscle cells

Muscle (body wall, buccal mass, heart) and neural tissue of the marine mollusc Aplysia californica was analysed for calcium-binding proteins using transblot/45Ca overlay, Western blotting and two-dimensional polyacrylamide gel electrophoresis, and several low molecular weight calcium-binding proteins were identified. Our results that Aplysia muscle contains an abundant protein with a M(r) of approximately 20,000 with strong 45Ca(2+)-binding ability and cross-reactivity to antibodies against the sarcoplasmic calcium-binding protein isoform II (SCP II) from Amphioxus. Immunocytochemical studies revealed that isoforms of SCP are distributed in a tissue-specific manner, SCP II-like protein is exclusively present in muscle fibres closely associated with the contractile machinery, whereas the isoform I (SCP I-like protein) is exclusively present in a subset of neurons, suggesting a function in their calcium regulation. In addition, a novel 45Ca(2+)-binding protein of M(r) 43,000, pl 4.7, was found in muscle and in neurons. A third protein of M(r) 40,000, pl 4.8, cross-reacts with anti-parvalbumin and anti-calbindin D-28K antibodies.

Cation binding and conformation of tryptic fragments of Nereis sarcoplasmic calcium-binding protein: calcium-induced homo- and heterodimerization

Nereis sarcoplasmic calcium-binding protein (NSCP) is a compact 20-kDa protein that competitively binds three Ca2+ or Mg2+ ions and displays strong positive cooperativity. Its three-dimensional structure is known. It thus constitutes a good model for the study of intramolecular information transduction. Here we probed its domain structure and interaction between domains using fragments obtained by controlled proteolysis. The metal-free form, but not the Ca2+ or Mg2+ form, is sensitive to trypsin proteolysis and is preferentially cleaved at two peptide bonds in the middle of the protein. The N-terminal fragment 1-80 (T1-80) and the C-terminal fragment 90-174 (T90-174) were purified to electrophoretic homogeneity. T1-80, which consists of a paired EF-hand domain, binds one Ca2+ with Ka = 3.1 x 10(5) M-1; entropy increase is the main driving force of complex formation. Circular dichroism indicates that T1-80 is rich in secondary structure, irrespective of the Ca2+ saturation. Ca2+ binding provokes a difference spectrum which is similar to that observed in the intact protein. These data suggest that this N-terminal domain constitutes the stable structural nucleus in NSCP to which the first Ca2+ binds. T90-174 binds two Ca2+ ions with Ka = 3.2 x 10(4) M-1; the enthalpy change contributes predominantly to the binding process. Metal-free T90-174 is mostly in random coil but converts to an alpha-helical-rich conformation upon Ca2+ binding. Ca2+ binding to T1-80 provokes a red-shift and intensity decrease of the Trp fluorescence but a blue-shift and intensity increase in T90-174.(ABSTRACT TRUNCATED AT 250 WORDS)

Structure of a sarcoplasmic calcium-binding protein from amphioxus refined at 2.4 A resolution

The three-dimensional structure of a sarcoplasmic Ca(2+)-binding protein from the protochordate amphioxus has been determined at 2.4 A resolution using multiple-isomorphous-replacement techniques. The refined model includes all 185 residues, three calcium ions, and one water molecule. The final crystallographic R-factor is 0.199. Bond lengths and bond angles in the molecules have root-mean-square deviations from ideal values of 0.015 A and 2.8 degrees, respectively. The overall structure is highly compact and globular with a predominantly hydrophobic core, unlike the extended dumbbell-shaped structures of calmodulin or troponin C. There are four distinct domains with the typical helix-loop-helix Ca(2+)-binding motif (EF hand). The conformation of the pair of EF hands in the N-terminal half of the protein is unusual due to the presence of an aspartate residue in the twelfth position of the first Ca(2+)-binding loop, rather than the usual glutamate. The C-terminal half of the molecule contains one Ca(2+)-binding domain with a novel helix-loop-helix conformation and one Ca(2+)-binding domain that is no longer functional because of amino acid changes. The overall structure is quite similar to a sarcoplasmic Ca(2+)-binding protein from sandworm, although there is only about 12% amino acid sequence identity between them. The similarity of the structures of these two proteins suggests that all sarcoplasmic Ca(2+)-binding proteins will have the same general conformation, even though there is very little conservation of primary structure among the proteins from various species.

Characterization of the human calmodulin-like protein expressed in Escherichia coli

The protein-coding region of an intronless human calmodulin-like gene [Koller, M., & Strehler, E. E. (1988) FEBS Lett. 239, 121-128] has been inserted into a pKK233-2 expression vector, and the 148-residue, M(r) = 16,800 human protein was purified to apparent homogeneity by phenyl-Sepharose affinity chromatography from cultures of Escherichia coli JM105 transformed with the recombinant vector. Several milligrams of the purified protein were obtained from 1 L of bacterial culture. A number of properties of human CLP were compared to those of bacterially expressed human calmodulin (CaM) and of bovine brain CaM. CLP showed a characteristic Ca(2+)-dependent electrophoretic mobility shift on SDS-polyacrylamide gels, although the magnitude of this shift was smaller than that observed with CaM. CLP was able to activate the 3',5'-cyclic nucleotide phosphodiesterase to the same Vmax as normal CaM, albeit with a 7-fold higher Kact. In contrast, the erythrocyte plasma membrane Ca(2+)-ATPase could only be stimulated to 62% of its maximal CaM-dependent activity by CLP. CLP was found to contain four Ca(2+)-binding sites with a mean affinity constant of 10(5) M-1, a value about 10-fold lower than that for CaM under comparable conditions. The highly tissue-specifically-expressed CLP represents a novel human Ca(2+)-binding protein showing characteristics of a CaM isoform.

Complex pharmacological properties of recombinant alpha-amino-3-hydroxy-5-methyl-4-isoxazole propionate receptor subtypes

The pharmacological properties of two glutamate receptor subtypes, GluR-A/B and GluR-B/D, were examined in RNA-injected Xenopus oocytes using two-electrode voltage clamp. Concentration-response relations revealed that the potencies of L-glutamate, kainate, and alpha-amino-3-hydroxy-5-methyl-4-isoxazole propionate (AMPA) varied slightly between the two receptor subtypes, but the rank order of agonist potency did not. The EC50 values for GluR-A/B receptors were 3.31 microM for AMPA, 6.16 microM for glutamate, and 57.5 microM for kainate, whereas the EC50 values for GluR-B/D receptors were 5.01 microM, 32.3 microM, and 64.6 microM for AMPA, L-glutamate, and kainate, respectively. The potencies of 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX) and 2,3-dihydroxy-6-nitro-7-sulfamoyl-benzo(f)quinoxaline (NBQX) were quantified by Schild analysis. The potency of NBQX at blocking currents mediated by GluR-A/B receptors changed depending on the agonist used to activate the receptors (pA2 values were as follows: for block of kainate, 7.23 +/- 0.01; L-glutamate, 6.78 +/- 0.02; AMPA, 6.95 +/- 0.02). Differences between agonists were less marked in cells expressing GluR-B/D receptors (pA2 values: kainate, 7.28 +/- 0.01; L-glutamate, 7.30 +/- 0.02; AMPA, 7.35 +/- 0.01). In each case, the slope of the Schild regression was not different from unity, consistent with competitive antagonism of these receptors by NBQX. CNQX also blocked GluR-A/B and GluR-B/D receptors competitively but was less potent than NBQX and did not differentiate between agonists or subunit combination. These data suggest that L-glutamate, kainate, and AMPA bind to different receptor substructures on recombinant AMPA receptors and that NBQX but not CNQX binds to these sites with different affinities. Moreover, because the properties of these binding sites vary between GluR-A/B and GluR-B/D receptors, our findings provide a basis for mutational analysis aimed at identifying receptor domains involved in agonist and antagonist binding.

What will the scope of optometric practice be in the year 2000?

For the past 100 years, the scope of optometric practice has been constantly expanding. As the body of knowledge about visual function has increased, new treatment options have been developed. Optometry must accept the professional responsibility for treatment of all conditions of the eye and visual system. By the year 2000, optometry must be prepared with expanded curricula and accountable for the treatment of all visual conditions in order to maintain its place as a primary provider within the health care system.

Thermodynamics of cation binding to Nereis sarcoplasmic calcium-binding protein. Direct binding studies, microcalorimetry and conformational changes

Nereis sarcoplasmic calcium-binding protein contains three functional EF-hand sites which bind Ca2+ or Mg2+ competitively. Here it was confirmed over a large range of [Mg2+] that the positive cooperativity in binding of Ca2+ (nH = 2) is the result of allostery in Mg2+ dissociation. At pH 7.5, Ca2+ or Mg2+ binding provokes the release of 1.4 mol proton/mol protein, whereas no protons are released during Ca(2+)-Mg2+ exchange. The enthalpy change as a function of Ca2+ binding yields a two-step curve with an inflection point at 1 mol Ca2+/mol protein and a maximum of -66 kJ/mol at 3 mol Ca2+/mol protein. Binding of three Mg2+ ions is cooperative (nH = 1.8) with a maximal enthalpy change of -15.1 kJ/mol protein. Difference spectroscopy led to the conclusion that, in the metal-free protein, the structure around the aromatic residues is well organized, but that Tyr and Trp residues are still solvent-exposed. Upon Ca2+ binding Tyr and Trp spectra are blue-shifted, but some Trp residues are confined to a positively charged pocket. Examination of the Ca(2+)-saturated three-dimensional crystal structure confirmed that Trp4 and Trp57 are located in such pockets or clefts, close to the surface. During the allosteric T----R transition, promoted by binding of the first Mg2+, the Trp residues move to a hydrophobic environment. For both Ca2+ and Mg2+, the enthalpy change and the conformational change in the environment of the aromatic residues is much more pronounced in the first, than in the subsequent two binding steps. In this respect, the latter seem to be equivalent.

The influence of hydralazine on the vasculature, blood perfusion and chemosensitivity of MAC tumours

We have studied the influence of the peripheral vasodilator hydralazine (HDZ) on the vasculature and blood perfusion of two members of a series of subcutaneous murine adenocarcinomata of the colon (MAC tumours), and the influence of HDZ on the efficacy and/or toxicity of TCNU and melphalan. The fluorescent DNA stain Hoechst 33342, showed that HDZ caused a shutdown of tumour vasculature, related in magnitude to both dose and tumour differentiation state; 10 mg kg-1 caused an 80% vascular shutdown of well differentiated MAC 26 tumours, but only a 50% shutdown of the poorly differentiated MAC 15A tumours. 2.5 mg kg-1 was ineffective. The blood perfusion marker 99mTc-HMPAO showed that the normal perfusion of MAC tumours was consistently markedly less than that of lung, liver or kidneys (4-5% of lung perfusion). HDZ (10 mg kg-1) decreased MAC 26 perfusion by 63%, and that of MAC 15A by 20%. Again, 2.5 mg kg-1) was ineffective. Use of in vivo to in vitro clonogenic assays showed that HDZ (10 mg kg-1) potentiated the efficacy of melphalan (1-10 mg kg-1 i.p.) by a factor of 2.1, and increased the efficacy of TCNU (1-10 mg kg-1 i.v., factor = 1.7) when given 10 or 15 min respectively after dosing. However, the addition of HDZ increased the acute bone marrow toxicity of melphalan, but not that of TCNU. The clinical relevance of these results is discussed.

Primary structure of three minor isoforms of amphioxus sarcoplasmic calcium-binding proteins

Previously we reported the amino acid sequences of 4 well-defined sacroplasmic, high-affinity Ca(2+)-binding proteins in the protochordate amphioxus, Branchiostoma lanceolatum [1]. Here we report on the complete amino acid sequence determination of 3 additional minor isoforms. The seven isoforms differ from each other in 9 positions of a contiguous 17-residue-long segment (positions 20-36) and can be classified in a alpha (ASCP I, III and IV) and a beta lineage (ASCP II, V, VI and VII).

Preconcentration of dopamine by uphill transport across an ion-exchange membrane

The transport of dopamine from samples in which it is in the cationic form across a cation-exchange membrane into a receiver electrolyte occurred against its concentration gradient under two conditions. With receiver electrolytes at pH values below the pKA1 of dopamine, the transport was by Donnan dialysis. With the pH above the pKA1, the neutralization of protonated dopamine at the membrane-receiver interface sustained the diffusion gradient of the dopamine cation across the membrane phase, thereby allowing the analytical concentration of this species to increase above that of its concentration in the sample. When 0.25 M RbCl, 0.5 mM LaCl3 mixtures in the pH range 3.0-7.0 comprised the receivers, preconcentration factors of 20 were achieved with a 15-min dialysis across a tubular cation-exchange membrane. Under identical conditions except with a pH 10 receiver, the preconcentration factor was 22. The former condition results in Donnan dialysis whereas the transport mechanism at pH 10 is sustained passive diffusion. In contrast to Donnan dialysis, transport rates under sustained passive diffusion conditions are independent of ionic strength over a wide range; for example they are constant for samples containing up to 0.17 M KH2PO4 at pH 4.6.

Crystallization and preliminary X-ray investigation of a sarcoplasmic calcium-binding protein from amphioxus

Crystals of a sarcoplasmic Ca(2+)-binding protein from the protochordate amphioxus have been grown from solutions of ammonium sulfate. The crystals are orthorhombic, space group C222(1), with unit cell axes a = 59.6(1) A, b = 81.3(1) A and c = 82.4(1) A. There is one molecule in the asymmetric unit. The crystals diffract beyond 2.5 A and show less than 20% decline in diffraction intensities after a three day exposure to X-rays from a laboratory rotating anode source.

Molecular cloning of an invertebrate glutamate receptor subunit expressed in Drosophila muscle

Insects and other invertebrates use glutamate as a neurotransmitter in the central nervous system and at the neuromuscular junction. A complementary DNA from Drosophila melanogaster, designated DGluR-II, has been isolated that encodes a distant homolog of the cloned mammalian ionotropic glutamate receptor family and is expressed in somatic muscle tissue of Drosophila embryos. Electrophysiological recordings made in Xenopus oocytes that express DGluR-II revealed depolarizing responses to L-glutamate and L-aspartate but low sensitivity to quisqualate, alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionate (AMPA), and kainate. The DGluR-II protein may represent a distinct glutamate receptor subtype, which shares its structural design with other members of the ionotropic glutamate receptor family.

Primary structure of myohemerythrin from the annelid Nereis diversicolor

The metal-free form of Nereis diversicolor myohemerythrin was purified from whole animal extracts by trichloroacetic acid precipitation and ion exchange chromatography. The amino acid sequence of myohemerythrin has been determined. The protein is composed of 120 residues, possesses an unblocked N-terminus and is devoid of cysteine residues. It bears 62% sequence identity with Themiste zostericola myohemerythrin, the only other member of this subfamily sequenced to date. Within the family of hemerythrins, homology is particularly high in the segments involved in the binding of the two iron atoms and in the beta-turn-rich N-terminal segment.

Thermodynamics of cation binding to rabbit skeletal muscle calsequestrin. Evidence for distinct Ca(2+)- and Mg(2+)-binding sites

Ca2+ binding to rabbit skeletal calsequestrin was studied at physiological ionic strength by equilibrium flow dialysis, Hummel-Dryer gel filtration and microcalorimetry. 31 Ca(2+)-binding sites with a mean dissociation constant (KD) of 0.79 mM were titrated in the absence, and 23 sites with a KD of 0.88 mM in the presence of 3 mM Mg2+. No cooperativity was observed. For Mg2+ binding, the combination of gel filtration and microcalorimetry yielded a stoichiometry of 26 Mg2+/protein with a KD of 2mM. 1 mM Ca2+ decreased the stoichiometry to 20 Mg2+/protein. Binding of Ca2+ in the absence and presence of 3 mM Mg2+ was accompanied by a release of 2.0 and 2.7 H+/protein, respectively. Mg2+ binding did not lead to a significant proton release suggesting a qualitative difference in the Ca(2+)- and Mg(2+)-binding sites. After correction for proton release, the enthalpy change for Ca2+ binding was very low (-1.5 kJ/protein in the absence, and -15 kJ/protein in the presence of 3 mM Mg2+). The entropy change (+59 J/K.site in the absence and +56 J/K.site in the presence of Mg2+) was therefore virtually the sole driving force for Ca2+ binding. Mg2+ binding is slightly more exothermic (-12.6 kJ/protein), but as for Ca2+, the entropy change (+50 J/K.site) constituted the major driving force of the reaction. A fluorimetric study indicates that the conformation of tryptophan in Mg(2+)-saturated calsequestrin was clearly different from that in the Ca(2+)-saturated protein, but that the (Ca2+ + Mg2+)-saturated protein was not distinct from the Ca(2+)-saturated protein. Thus, in addition to the thermodynamic characterization of the Ca2+/calsequestrin interaction, our data indicate that Ca2+ and Mg2+ do not bind to the same sites on calsequestrin. The data also predict considerable proton fluxes upon Ca(2+)-Mg2+ exchange in vivo.

High-performance liquid chromatography of sulfur-containing amino acids and related compounds with amperometric detection at a modified electrode

Organic disulfides generally are not oxidized at bare electrodes under conditions that are suited to routine amperometric detection, and thiols are typically oxidized in a manner that leads to partial blockage of the surface. Modification of a carbon electrode with a film of Ru(III,IV) oxide stabilized with cyanocross-links permits the amperometric detection of cystine, cysteine, glutathione, methionine, and glutathione disulfide under conditions compatible with their chromatographic separation on a strong cation-exchange column. Detection limits of 0.2-0.6 microM and linear dynamic ranges of at least 1-50 microM were obtained. The electrode was stable for at least 11 days with a pH 1 citrate, phosphate mobile phase.