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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

GAL4 is a yeast transcriptional activator protein that binds to specific 2-fold rotationally symmetric sites on DNA and stimulates transcription of the genes required for galactose catabolism. The DNA binding region of the protein is located within the first 74 amino acids and contains a "zinc finger" sequence motif. We show that a polypeptide comprising the first 147 amino acids of GAL4, designated GAL4 (1-147), binds DNA as a dimer in vitro. Although a protein containing only the first 74 amino acids, designated GAL4 (1-74), binds DNA specifically, its affinity is reduced relative to GAL4 (1-147). Addition of the strong dimerization domain of lambda repressor to GAL4 (1-74) generates a protein that binds as tightly as GAL4 (1-147). GAL4 (1-147) makes rotationally symmetric contacts with its recognition site when assayed by DNase I, exonuclease III and hydroxyl radical footprinting and by phosphate ethylation interference. Binding of GAL4 (1-147) in vitro requires either zinc or cadmium.
J Mol Biol 1989 Oct 05
PMID:An amino-terminal fragment of GAL4 binds DNA as a dimer. 251 24

The contribution of voltage-operated calcium (VOC) channels in the mechanism of release of alpha-melanocyte-stimulating hormone (alpha-MSH) from hypothalamic neurons was investigated using perifused rat hypothalamic slices. The stimulatory effect of potassium (50 mM) on alpha-MSH release was completely blocked by cadmium (1 mM) a calcium competitor which indifferently blocks T-, L-and N-type VOC channels. To determine the nature of calcium conductances involved in K+-evoked alpha-MSH release, we have investigated the effect of a VOC channel agonist and 3 antagonists on the secretion of the neuropeptide. Administration of synthetic omega-conotoxin fraction GVIA (1 microM), a peptide toxin which blocks both N- and L-type VOC channels, reduced by 33% K+-induced alpha-MSH release. In contrast, the 1,4-dihydropyridine (DHP) antagonist nifedipine, at concentrations up to 100 microM, did not affect the response of hypothalamic alpha-MSH neurons to depolarizing concentrations of KCl. In addition, the secretion of alpha-MSH induced by high K+ concentrations was not reduced by nifedipine (10 microM) in the presence of diltiazem (1 microM), a benzothiazepine derivative which increases the affinity of the DHP antagonist for L-type VOC channels. The DHP agonist BAY K 8644 (0.1-10 microM) did not modify the early phase of the response of alpha-MSH neurons to K+-induced depolarization. In contrast BAY K 8644 (1 or 10 microM) significantly prolonged the duration of K+-induced alpha-MSH release. This sustained release of alpha-MSH induced by BAY K 8644 (10 microM) was totally suppressed by nifedipine (10 microM).(ABSTRACT TRUNCATED AT 250 WORDS)
Brain Res Mol Brain Res 1989 Jul
PMID:Involvement of voltage-operated calcium channels in alpha-melanocyte-stimulating hormone (alpha-MSH) release from perifused rat hypothalamic slices. 254 28

Various known Ca2+ channel blockers and intracellular Ca2+ antagonists have been tested for effects of inositol-1,4,5-trisphosphate (IP3)-induced Ca2+ release from isolated canine brain microsomes. In agreement with previous reports, heparin, p-chloromercuribenzoic acid, W-7, cinnarizine, flunarizine, certain local anesthetics, La3+, and Ca2+ inhibit the release of Ca2+ induced by addition of IP3. In addition, we report here pronounced inhibition of IP3-induced Ca2+ release by low levels of Cd2+, by relatively high concentrations of TMB-8, and by phytic acid. In contrast, a number of blockers of other Ca2+ channels (nifedipine, verapamil, dantrolene, dithiothreitol, and ruthenium red) have relatively little or no effect on IP3-induced Ca2+ release from brain microsomes. The relative ineffectiveness of substances that inhibit Ca2+- or caffeine-induced Ca2+ release from skeletal muscle sarcoplasmic reticulum suggests that release of Ca2+ from caffeine- and IP3-sensitive neuronal Ca2+ stores is likely to be mediated by different channels. Further evidence that different channels are involved is presented by way of demonstration of the lack of Ca2+-induced Ca2+ release from these brain microsomes and the lack of effect on sarcoplasmic reticulum caffeine-induced Ca2+ release of certain inhibitors of IP3-induced Ca2+ release used here. Among IP3-induced Ca2+ release blockers, La3+ appeared to be exceptional in its ability to stimulate microsomal Ca2+ uptake sufficiently to attenuate release of Ca2+ induced by IP3. Most blockers of IP3-induced Ca2+ release appear not to function by way of inhibiting K+ counter-ion movements (valinomycin does not reverse the inhibition) but rather by way of direct interaction with the IP3 receptor or the Ca2+ channel that mediates the IP3-induced Ca2+ release. Inhibition of [3H]IP3 binding to the microsomes by phytic acid, heparin, pyrophosphate, p-chloromercuribenzoic acid, and Ca2+ could be demonstrated but not by the other substances tested.
Mol Pharmacol 1989 Oct
PMID:Pharmacologic differentiation between inositol-1,4,5-trisphosphate-induced Ca2+ release and Ca2+- or caffeine-induced Ca2+ release from intracellular membrane systems. 255 17

Kainate receptors are one of the major subtypes of excitatory amino acid receptors in the vertebrate central nervous system. Using Xenopus oocytes injected with RNA from human temporal cortex, it is possible to detect electrophysiologically the expression of this receptor subtype in these cells. Ions of the group IIb elements, particularly mercuric ions, are highly potent, noncompetitive inhibitors of these human brain kainate receptors. Mercury-containing sulfhydryl reagents are also very effective, irreversible blockers of the kainate-gated currents of these oocytes. The recovery of kainate-activated currents after washout of Hg2+ is slow and incomplete relative to that seen after treatment either with Cd2+ or Zn2+. Cysteine or dithiothreitol can accelerate this recovery of kainate-inducible currents after Hg2+ inhibition. Besides the toxicological implications of these results, mercury compounds may be useful for future studies of the structure and physiology of the kainate receptor-channel complex.
Mol Pharmacol 1989 Oct
PMID:Mercuric ions are potent noncompetitive antagonists of human brain kainate receptors expressed in Xenopus oocytes. 257 61

The metallothionein-A gene in the metallothionein gene family of the sea urchin Strongylocentrotus purpuratus (SpMTA gene) was sequenced and found to contain three coding exons plus a 3' entirely noncoding exon. Putative alpha and beta MT domains were encoded, by its exons 2 and 3, respectively, in reverse of the order in vertebrate metallothionein genes. The SpMTA promoter was characterized through the expression of recombinant constructs containing various portions of the proximal 678-base-pair (bp) 5'-flanking region of the SpMTA gene. Zygotes injected with constructs were cultured to the blastula stage in the presence of a heavy-metal chelator and then incubated in the presence or absence of cadmium. The longest constructs were expressed only when heavy-metal ion was present. Two putative metal-responsive elements (MREs a and b) within 240 bp of the transcription start site resembled mammalian MREs in their critical 8-bp cores (TGCRCNCS) and in their locations relative to each other and to the TATA box. Elimination of activity by site-specific mutations in MREs a and b, separately or in both, identified them as metal regulatory elements. Thus, MRE recognition in this invertebrate resembles that in vertebrates. Upstream sites with single-mismatched MREs neither acted as MREs nor amplified the activity of MREs a and b. The SpMTA, Spec1, and CyIIIa actin genes, which have the same ectodermal specificity, have common DNA elements at relatively similar locations in their promoter regions; however, these elements are insufficient in themselves to promote gene expression.
Mol Cell Biol 1989 Dec
PMID:Structure of an ectodermally expressed sea urchin metallothionein gene and characterization of its metal-responsive region. 258 24

The effects of the experimental exposure to sublethal concentrations of cadmium on the digestive gland lysosomal system of the marine prosobranch Littorina littorea have been studied by means of stereology in fresh frozen cryotome sections after demonstration of beta-glucuronidase activity. The volume density of secondary lysosomes was demonstrated to be independent of both the external concentration of the metal and the exposure-time. However, some punctual increases in this parameter have been related to the alternate renewal of the tissular population of this organelle. The lysosomal surface density showed a dose- and time-dependent significant decrease over the controls. The lysosomal surface to volume ratio increased over the time in the control series whilst decreased significantly in Cd-exposed animals at each sampling period. Lysosomal numerical density was strongly dependent on the external concentration of the metal, changes in this parameter showing the highest signification. It is concluded that sublethal exposure to cadmium leads to fusion of secondary lysosomes to give larger ones. This process is related to lysosomal membrane destabilisation, which could take place after the storage capacity of the organelles have been overloaded.
Cell Mol Biol 1989
PMID:Quantitative responses of the digestive-lysosomal system of winkles to sublethal concentrations of cadmium. 261 41

Rabbit histidine-rich glycoprotein (HRG) binds low-spin heme and metals tightly at several sites that contain histidine. As part of an on-going effort to define and locate the binding sites for these and the other ligands of HRG, the sequence: NH2-Gly-His-Phe-Pro-Phe-His-Trp-... was found in a 16 kDa heme-binding peptide isolated from HRG. The spacing of the histidyl residues in this peptide, which contains the C-terminal 79 residues of HRG, together with molecular modeling suggested that this sequence might constitute one heme binding site of HRG by accommodating heme in a bis-histidyl linkage. Three peptides based on this sequence (I, HFPFHW; II, WHFPFH; and III, HFGFHW) were synthesized, and their ability to bind heme and metals examined. All three peptides bind heme as demonstrated by the changes produced in the absorbance of heme when mixed with the peptides. Substituting glycine for proline in the central position or moving the location of the tryptophan did not affect heme binding. The apparent Kd's of the mesoheme/peptide I, II and III complexes are 75 +/- 25 microM, indicative of heme binding approximately 100 times less avid than the mesoheme/HRG complex (Kd ca. 1 microM), but nearly 1000 times tighter than that of the mesoheme/histidine complex (Kd ca. 60 mM). The absorbance spectra of the mesoheme/peptide complexes, the loss of binding caused by modification of histidine residues, and the pH dependence of heme binding, all indicate that heme forms a low spin, bis-histidyl type of complex with these peptides, like that formed with HRG itself. Copper, but not cadmium or nickel, was an effective inhibitor of heme binding by the peptides. The sequence of HRG congruent with the sequence of peptide I is proposed to be one heme- and metal-binding site of rabbit HRG.
J Mol Recognit 1989 Nov
PMID:A heme- and metal-binding hexapeptide from the sequence of rabbit plasma histidine-rich glycoprotein. 263 1

A DNA fragment conferring resistance to zinc and cadmium ions in the yeast Saccharomyces cerevisiae was isolated from a library of yeast genomic DNA. Its nucleotide sequence revealed the presence of a single open reading frame (ORF; 1326 bp) having the potential to encode a protein of 442 amino acid residues (molecular mass of 48.3 kDa). A frameshift mutation introduced within the ORF abolished resistance to heavy metal ions, indicating the ORF is required for resistance. Therefore, we termed it the ZRC1 (zinc resistance conferring) gene. The deduced amino acid sequence of the gene product predicts a rather hydrophobic protein with six possible membrane-spanning regions. While multiple copies of the ZRC1 gene enable yeast cells to grow in the presence of 40 mM Zn2+, a level at which wild-type cells cannot survive, the disruption of the chromosomal ZRC1 locus, though not a lethal event, makes cells more sensitive to zinc ions than are wild-type cells.
Mol Gen Genet 1989 Oct
PMID:Identification of a gene conferring resistance to zinc and cadmium ions in the yeast Saccharomyces cerevisiae. 269 40

We have previously demonstrated that a number of metal salts have the capacity to inhibit the DNA repair process in human cells. In order to determine a role for non-protein thiols (TNPT) in this inhibition, we investigated repair of X-ray damage in metal-treated HeLa cells under normal conditions and conditions in which cellular thiols had been depleted by treatment with buthionine sulfoximine (BSO) and diethyl maleate (DEM). The combination reduced cellular TNPT by 92%, and cells so depleted became sensitized to X-ray-induced killing and exhibited retarded sealing of X-ray-induced DNA single-strand breaks. Thiol depletion also sensitized cells to the cytotoxicity of certain but not all metals tested. The sensitivity to copper was increased over 6000-fold, and significant enhancement of killing was also seen in cells treated with arsenic, lead, and mercury. Smaller effects were observed with cadmium and nickel, and sensitivity to manganese, magnesium, cobalt or zinc was not substantially altered. Enhanced sensitivity to X-ray killing was found in cells treated with nickel, cadmium, zinc, arsenic, and copper under conditions in which thiols were not limiting. In thiol-depleted cells, sensitivity was not further increased in the case of nickel and arsenic but at least additively affected for copper, mercury and zinc. X-Ray-induced single-strand break repair was retarded by treatment of cells with mercury, nickel, zinc, arsenic, and copper in thiol-normal cells. In thiol-depleted cells, repair inhibition by zinc, arsenic, and copper was nearly complete, while little additional effect on repair was seen following mercury and nickel treatment. An examination of the effects of brief metal treatment on cellular TNPT revealed that copper strongly decreased thiol levels whereas the other metals tested either had no effect on TNPT or reduced TNPT levels to no less than 48% under the conditions employed. No simple relationship appears to exist relating loss of cellular thiols and sensitivity of repair in the series of metals tested. Clear, although indirect, evidence exists, however, that sensitivity to X-rays is mediated through thiols and that the interaction of metals and thiols in the cell may be an important factor in modulating the response to irradiation.
Mol Toxicol
PMID:Thiol involvement in the inhibition of DNA repair by metals in mammalian cells. 270 2

The effects of aminopyridine analogs on Ca2+-activated K+ channels in GH3 clonal anterior pituitary cells were studied using whole-cell voltage-clamp and single-channel recording techniques. Step depolarization from a holding potential of -50 mV activated a noninactivating, tetraethylammonium- and Cd2+-sensitive outward current. Tail current analysis indicated that this sustained outward current is carried predominantly by K+ ions. Extracellular perfusion with 4-aminopyridine and 3,4-diaminopyridine (0.05-5 mM) caused a dose-dependent enhancement of the outward current by up to 100 and 170%, respectively. This effect typically occurred with prolonged depolarizations of greater than 1-2 sec. Patch-clamp recordings in the cell-attached configuration demonstrated that 4-aminopyridine (2 mM) promotes the activity of a large-conductance (150-175 pS; 50-135 mM external K+), tetraethylammonium-sensitive, Ca2+-activated K+ channel; the drug had no effect on these channels in excised patches. These results indicate that aminopyridines enhance the opening of Ca2+-activated K+ channels in GH3 cells. Several lines of evidence suggest that this effect may occur indirectly, possibly as a result of an increase in the effective intracellular free Ca2+ level.
Mol Pharmacol 1989 Apr
PMID:Aminopyridines enhance opening of calcium-activated potassium channels in GH3 anterior pituitary cells. 270 69


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