Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
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The class C tetracycline/H+ antiporter, TetA(C), confers nine distinct phenotypes in Escherichia coli: resistance to tetracycline, reduced culture density at stationary phase (growth yield), increased supercoiling of plasmid DNA, delayed growth in succinate minimal medium, complementation of potassium uptake defects, increased susceptibility to cadmium, increased susceptibility to fusaric acid, increased susceptibility to bleomycin and increased susceptibility to several classes of cationic aminoglycoside antibiotics. These nine phenotypes were resolved into three 'linkage' groups based on their patterns of suppression by mutations of the tetA(C) gene of plasmid pBR322. Group I includes resistance to tetracycline, increased susceptibility to cadmium and reduced growth yield. Group II includes delayed growth in succinate minimal medium and complementation of potassium uptake defects. Group III includes increased supercoiling of plasmid DNA and increased susceptibilities to fusaric acid, bleomycin and cationic aminoglycosides. Phenotypes of Groups II and III, but not Group I, also were conferred by a chimeric gene encoding a fusion between the N-terminal 34 residues of TetA(C) and the C-terminal 429 residues of a structurally-similar protein, the E. coli galactose/H+ symporter, GalP. In contrast, none of these phenotypes was conferred by a chimeric gene encoding a fusion between the N-terminal 34 residues of TetA(C) and a structurally-dissimilar protein, TEM beta-lactamase. These results demonstrate that the three groups of linked phenotypes are dependent on different elements of the TetA(C) amino acid sequence, implying that TetA(C) confers these phenotypes by at least three independent mechanisms.
Mol Membr Biol
PMID:Structure and function of the class C tetracycline/H+ antiporter: three independent groups of phenotypes are conferred by TetA (C). 771 37

Native MA-10 mouse Leydig tumor cell mitochondrial preparations were examined by transmission electron (TEM) and atomic force (AFM) microscopic procedures in order to investigate the topography and organization of the peripheral-type benzodiazepine receptor (PBR). Mitochondria were immunolabeled with an anti-PBR antiserum coupled to gold-labeled secondary antibodies. Results obtained indicate that the 18,000 MW PBR protein is organized in clusters of 4-6 molecules. Moreover, on many occasions, the interrelationship among the PBR molecules was found to favor the formation of a single pore. Taking into account recent observations that the 18,000 MW PBR protein is functionally associated with the pore forming 34,000 MW voltage-dependent anion channel (VDAC) these results suggest that (i) the mitochondrial PBR complex could function as a pore, thus allowing the translocation of cholesterol and other molecules to the inner mitochondrial membrane, and (ii) the native receptor is a multimeric complex of an approximate 140,000 MW composed on an average of five 18,000 PBR subunits, one 34,000 VDAC subunit, and associated lipids.
Mol Cell Endocrinol 1994 Aug
PMID:Topography of the Leydig cell mitochondrial peripheral-type benzodiazepine receptor. 782 99

A single intratracheal instillation of porcine pancreatic elastase (PPE, 100 U/Kg) induces in rabbits bronchial secretory cell metaplasia as well as emphysematous changes. The mucus hypersecretion and the marked reduction of ciliated cells matched by a high percentage of atypical cilia are responsible for the delayed mucociliary clearance in this model. S-Carboxymethylcysteine lysine salt (SCMC-LYS, 0.35 g/Kg b.w.), given per os daily for 10 days starting 2 days before elastase administration, significantly ameliorated the mucociliary clearance. The pharmacological treatment did not modify the degree of secretory cell metaplasia and the percentage of atypical cilia, or prevent the alveolar wall destruction. At TEM examination, the morphological aspects of secretion occurring in bronchial tree of PPE-treated animals were rarely visible in the PPE + SCMC-LYS treated group. The beneficial effect of SCMC-LYS on mucociliary clearance may be ascribed to an antisecretagogue effect of this drug through elastase inhibition and to a reduction of mucus viscosity.
Res Commun Mol Pathol Pharmacol 1994 Oct
PMID:Effect of S-carboxymethylcysteine lysine salt on mucociliary clearance in rabbits with secretory cell metaplasia. 785 Feb 57

All mitochondrial tRNAs in the protozoan Leishmania are believed to be encoded in the nuclear genome and imported selectively into the mitochondria by an as yet unknown mechanism. Previously, we reported that two tRNAs whose genes are tightly linked were imported by mitochondria. In contrast, a tRNA encoded by a lone tRNA gene was not detectable in mitochondria. The lone tRNA gene had flanking sequences that were different from the linked genes. These studies implied a possible correlation between tRNA gene organization and gene flanking sequence, and selective tRNA import into mitochondria. Here, we report the identification of a cluster of 10 tRNA genes and show the distribution of the corresponding tRNAs in cytosolic and mitochondrial fractions. tRNA(leu)(CAG) and tRNA2(arg)(TCG) are abundant in the cytosol, but relatively scarce in mitochondria. Conversely, tRNA(ile)(TAT) and tRNA1(lys)(TTT) are abundant in mitochondria, but relatively scarce in the cytosol. tRNA(val)(TAC) and tRNA2(thr)(TGT) are barely detectable in either cellular compartment, while tRNA(gln)(TTG), tRNA1(arg)(ACG), tRNA(gly)(TCC), and tRNA(trp)(CCA) are detected in approximately equal levels in both compartments. Sequencing of the 2600 bp that comprise the tRNA gene cluster also encoding the genes for 5S RNA and URNAB RNA indicates that nucleotide composition, length, and location of genes within the cluster do not clearly correlate with import characteristics. The unexpected presence of the tRNA(trp)(CCA)-gene transcript in mitochondria is also reported. Evidence suggests that this tRNA may have unidentified base modifications at the anticodon triplet.
Mol Biochem Parasitol 1994 May
PMID:A nuclear tRNA gene cluster in the protozoan Leishmania tarentolae and differential distribution of nuclear-encoded tRNAs between the cytosol and mitochondria. 793 26

The pathway of gluconeogenesis is activated in liver shortly after birth and is controlled by glucagon and glucocorticoids, which stimulate, and insulin, which inhibits, the expression of genes coding for gluconeogenic enzymes. To understand the molecular basis of this cell type-specific and coordinate control, we analyzed the cis-regulatory elements of the tyrosine aminotransferase gene, which confer liver cell-specific expression in dependence of these hormones. The cAMP-responsive element (CRE) of the TAT gene is an essential element within a liver-specific enhancer and is recognized by the CRE-binding protein (CREB) in a phosphorylation-dependent manner. The glucocorticoid response is mediated by a complex regulatory unit comprised of the glucocorticoid receptor and other transcription factor-binding sites. Here, we show that both the cAMP- and glucocorticoid-inducible enhancers are targets for the antagonistic effects of insulin. The insulin-responsive sequences coincide with the CREB-binding site of the cAMP-responsive enhancer and a hepatocyte nuclear factor-3-binding site within the glucocorticoid-responsive unit. This design of the hormone-dependent enhancers reflects the molecular mechanism underlying the onset of tyrosine aminotransferase expression at birth when insulin levels decrease and concentrations of glucagon and glucocorticoids increase.
Mol Endocrinol 1994 Jul
PMID:The cyclic adenosine 3',5'-monophosphate- and the glucocorticoid-dependent enhancers are targets for insulin repression of tyrosine aminotransferase gene transcription. 798 51

The catalytic properties of six "natural" mutants of the TEM-1 beta-lactamase have been studied in detail, with special emphasis on their activity versus third-generation cephalosporins. On the basis of the recently determined high-resolution structure of the wild-type enzyme, and of the substrates' structures optimized by the AMI quantum chemistry method, we have attempted to explain the influences of the mutations on the substrate profiles of the enzymes. Some of the kinetic results have thus received a satisfactory, semi-quantitative interpretation, especially in the case of single mutations. Analysis of the double mutants proved more hazardous. Extending the comparison to some other class A beta-lactamases showed that similar properties could result from different sequences, supplying an interesting example of convergent evolution within a generally diverging family.
J Mol Biol 1994 Dec 16
PMID:TEM beta-lactamase mutants hydrolysing third-generation cephalosporins. A kinetic and molecular modelling analysis. 799 Jan 43

Hybrid genes were constructed to express bifunctional hybrid proteins in which staphyloccal nuclease A with or without an amino-terminal OmpA signal sequence was fused with TEM beta-lactamase (at the carboxyl terminal side) using the signal peptide of the major outer membrane lipoprotein of Escherichia coli as an internal linker. The hybrid proteins were found to be inserted in the membrane. Orientation of the hybrid protein with the OmpA signal peptide showed that the nuclease was translocated into the periplasm and the beta-lactamase remained in the cytoplasm. This indicates that the cleavable OmpA signal peptide served as a secretory signal for nuclease and the internal lipoprotein signal served as the transmembrane anchor. In the absence of the OmpA signal sequence the topology of the hybrid protein was reversed indicating that the internal lipoprotein signal peptide initially served as the signal peptide for the secretion of the carboxy terminal beta-lactamase domain across the membrane and subsequently as a membrane anchoring signal. The role of charged amino acids in the translocation and transmembrane orientation of membrane proteins was also analysed by introducing charged amino acids to either or both sides of the internal lipoprotein signal sequence in the bifunctional hybrid proteins in the absence of the amino-terminal signal sequence. Introduction of two lysine residues at the carboxy-terminal side of the internal signal sequence reversed the topology of the transmembrane protein by translocating the amino-terminal nuclease domain across the membrane, leaving the carboxyl terminal beta-lactamase domain in the cytoplasm. When three more lysine residues were added to the amino-terminal side of the internal signal sequence of the same construct the membrane topology flipped back to the original orientation. A similar reversion of the topology could be obtained by introducing negatively charged residues at the amino-terminal side of the internal signal sequence. Present results demonstrate for the first time that a bifunctional transmembrane protein can be engineered to assume either of the two opposite orientations and that charge balance around the transmembrane domain is a major factor in controlling the topology of a transmembrane protein.
Mol Microbiol 1994 Mar
PMID:Reversible topology of a bifunctional transmembrane protein depends upon the charge balance around its transmembrane domain. 802 60

In order to understand how TEM-1 beta-lactamase substrate specificity can be altered by mutation, amino acid residues 161 through to 170 were randomly mutagenized to sample all possible amino acid substitutions. The 161-170 region includes a portion of an omega loop structure, which is involved in the formation of the active-site pocket. The percentage of random sequences that provide bacterial resistance to either ampicillin or to the extended-spectrum cephalosporin ceftazidime was determined. It was found that the sequence requirements for wild-type levels of ampicillin resistance are much more stringent than the sequence requirements for ceftazidime resistance. Surprisingly, more than 50% of all amino acid substitutions in the 161-170 region result in levels of ceftazidime resistance at least three times greater than wild type. In addition, by increasing the level of the selection for ceftazidime resistance, substitutions that result in a greater than 100-fold increase in ceftazidime resistance were identified. Characterization of altered beta-lactamase enzymes indicated that while their catalytic efficiency (kcat/Km) for ceftazidime hydrolysis is higher, the enzymes are poorly expressed relative to wild-type TEM-1 beta-lactamase.
Mol Microbiol 1994 Apr
PMID:Evolution of antibiotic resistance: several different amino acid substitutions in an active site loop alter the substrate profile of beta-lactamase. 805 47

A total of 15 blue fox vixens aged 1-6 years were mated, 12 once on the first day of estrus and three a second time 48 hr after the first mating, and were killed 4 hr to 8 days following mating. Ova were collected from the oviducts, evaluated by stereomicroscopy, and studied by transmission (TEM; N = 49, 12 vixens) or scanning (SEM, N = 11, three vixens) electron microscopy. At 0-3 days after ovulation, the ova had not cleaved and were at different stages of meiotic maturation. In about one-half of these ova, representing all stages of meiotic maturation, a decondensing sperm head without nuclear envelope or a small pronucleus with partial nuclear envelope was observed. No clear relationship was found between maternal meiotic stage and the stage of paternal pronucleus formation. Sperm tails were never identified in the ooplasm. Cortical granules were released after sperm penetration at early stages of meiotic maturation. Thus the block against polyspermic penetration was activated during maturation of the oocyte. The first two-cell stage appeared 4 days after ovulation (3 days after mating), the first four-cell stage the following day (day 5), and the first eight-cell stage 6 days after ovulation (5 days after mating). In a single vixen mated late (7 days postovulation) two- to four-cell stages appeared the following day (day 8). This indicates that the time required for the first cleavage division decreases with increasing interval from ovulation to mating.(ABSTRACT TRUNCATED AT 250 WORDS)
Mol Reprod Dev 1993 Nov
PMID:Fertilization and early embryonic development in the blue fox (Alopex lagopus). 828 15

Atrial Natriuretic Peptide (ANP), produced by atrial cardiomyocytes, is an endogenous hypotensive agent that brings about vasodilation and diuresis. Similar to other polypeptide hormones, ANP is synthesized as a precursor, preproANP. The preprohormone is processed intracellularly and is stored in secretory granules as the prohormone. During the events of exocytosis, the prohormone is converted to its active form, ANP. In this study, a double-label immunocytochemistry experiment was performed using ANP and clathrin antibodies to determine if the transport of this hormone is mediated by clathrin-coated vesicles. Additionally, we have isolated clathrin-coated vesicles (CVs) from adult rat atria using immunoadsorption, and have characterized the fraction by using SDS PAGE, TEM, and Western blot analysis. The data demonstrate that: (1) ANP and clathrin co-localize in myocardial tissue, (2) clathrin-coated vesicles can be isolated from adult rat atria, and (3) clathrin-coated vesicles isolated from adult atrial myocardium contain predominantly proANP. The presence of proANP in clathrin-coated vesicles suggests that this polypeptide hormone is transported intracellularly via a clathrin-mediated pathway and during transit the prohormone is not significantly converted to its active form.
J Mol Cell Cardiol 1993 Apr
PMID:A clathrin-coated vesicle-mediated pathway in atrial natriuretic peptide (ANP) secretion. 834 Sep 33


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