UMLS:C0162871 - FACTA Search

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Query: UMLS:C0162871 (abdominal aortic aneurysm)
8,664 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Low-frequency restriction fragment analysis of more than 100 strains of the genus Frankia showed that restriction enzyme DraI (recognition site, TTT'AAA) gave rise to large DNA fragments (200 to 1,500 kb), which, when they were subjected to cluster analysis, reflected the host plants from which the strains were isolated. Our results support the conclusions of Lalonde and his colleagues (M. Lalonde, L. Simon, J. Bousquet, and A. Seguin, p. 671-680, in H. Bothe, F. J. de Bruijn, and W. E. Newton, ed., Nitrogen Fixation: Hundred Years After, 1988; P. Normand, P. Simonet, and R. Bardin, Mol. Gen. Genet. 213:238-246, 1988) and Fernandez et al. (M. P. Fernandez, H. Meugnier, P. A. D. Grimont, and R. Bardin, Int. J. Syst. Bacteriol. 39:424-429, 1989) that various biochemical and genomic analyses can give rise to groupings of Frankia strains that are consistent with the host plants from which the strains are isolated and that the resulting groups may form a basis for defining Frankia species.
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PMID:Low-frequency restriction fragment analysis of Frankia strains (Actinomycetales). 135 77

Incorporation of the DNA-cleaving moiety EDTA.Fe at discrete amino acid residues along a DNA-binding protein allows the positions of these residues relative to DNA bases, and hence the organization of the folded protein, to be mapped by high-resolution gel electrophoresis. A 52-residue protein, based on the sequence-specific DNA-binding domain of Hin recombinase (139-190), with EDTA at the NH2 terminus cleaves DNA at Hin recombination sites. The cleavage data for EDTA-Hin(139-190) reveal that the NH2 terminus of Hin(139-190) is bound in the minor groove of DNA near the symmetry axis of Hin-binding sites [Sluka, J. P., Horvath, S. J., Bruist, M. F., Simon, M. I., & Dervan, P. B. (1987) Science 238, 1129]. Six proteins, varying in length from 49 to 60 residues and corresponding to the DNA-binding domain of Hin recombinase, were synthesized by solid-phase methods: Hin(142-190), Hin(141-190), Hin(140-190), Hin(139-190), Hin(135-190), and Hin(131-190) were prepared with and without EDTA at the NH2 termini in order to test the relative importance of the residues Gly139-Arg140-Pro141-Arg142, located near the minor groove, for sequence-specific recognition at five imperfectly conserved 12-base-pair binding sites. Footprinting and affinity cleaving reveal that deletion of Gly139 results in a protein with affinity and specificity similar to those of Hin(139-190) but that deletion of Gly139-Arg140 affords a protein with altered affinities and sequence specificities for the five binding sites. It appears that Arg140 in the DNA-binding domain of Hin is important for recognition of the 5'-AAA-3' sequence in the minor groove of DNA. Our results indicate modular DNA and protein interactions with two adjacent DNA sites (major and minor grooves, respectively) bound on the same face of the helix by two separate parts of the protein.
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PMID:Importance of minor-groove contacts for recognition of DNA by the binding domain of Hin recombinase. 220 15

The usefulness of newly device hybrid artificial liver system was evaluated in anhepatic dogs. The artificial liver module was composed of 60 to 80gm. primary cultured canine (Beagle) hepatocytes which were attached to 200 borocillicate glass plates. Total hepatectomy were done through cavo-caval and porto-caval shunt method using Anthron catheter to 14 dogs. Dogs were divided into following three groups. Group I; no treatment (n = 6) Group II; plasma perfusion (n = 4) Group III; treated with the artificial liver systems (n = 4) The survival times were 21.3 +/- 5.6, 27.8 +/- 4.0, and 55.0 +/- 11.3 hours in group I, II, and III, respectively. The longest survival time was 65 hours in one of group III dogs. APTT levels in group I and II increased more than 100 sec. within 24 hours. On the other hand it was maintained within 50 sec. during 54 hours treatment in group III. Ammonia levels in group I and II extremely increased over 2000ng/dl. In group III, it was less than 400ng/dl for 54 hours. Plasma amino acid levels in group I and II (Glutamine, Arginine, AAA) revealed significantly higher than in group III at 18 hours after operation. It is concluded that the newly device hybrid artificial liver system was useful for in vivo liver support.
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PMID:[A hybrid artificial liver system composed of primary cultured canine hepatocytes]. 232 5

Acetylation is the most frequently occurring chemical modification of the alpha-NH2 group of eukaryotic proteins and is catalyzed by an N alpha-acetyltransferase. Recently, a eukaryotic N alpha-acetyltransferase was purified to homogeneity from Saccharomyces cerevisiae, and its substrate specificity was partially characterized (Lee, F.-J. S., Lin L.-W., and Smith, J. A. (1988) J. Biol. Chem. 263, 14948-14955). This article describes the cloning from a yeast lambda gt11 cDNA library and sequencing of a full length cDNA encoding yeast N alpha-acetyltransferase. DNA blot hybridizations of genomic and chromosomal DNA reveal that the gene (so-called AAA1, amino-terminal, alpha-amino, acetyltransferase) is present as a single copy located on chromosome IV. The use of this cDNA will allow the molecular details of the role of N alpha-acetylation in the sorting and degradation of eukaryotic proteins to be determined.
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PMID:Molecular cloning and sequencing of a cDNA encoding N alpha-acetyltransferase from Saccharomyces cerevisiae. 266 56

Acetylation is the most frequently occurring chemical modification of the alpha-NH2 group of eucaryotic proteins and is catalyzed by N alpha-acetyltransferase. The yeast enzyme is encoded by the AAA1 (amino-terminal alpha-amino acetyltransferase) gene. A null mutation (aaa1-1) created by gene replacement, while not lethal, slows cell growth and results in heterogeneous colony morphology. In comparison with wild-type cells, aaa1-1/aaa1-1 diploids cannot enter stationary phase, are sporulation defective, and are sensitive to heat shock. In addition, the aaa1-1 mutation specifically reduces mating functions of MATa cells. These results indicate that N alpha acetylation plays a crucial role in yeast cell growth and mating.
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PMID:N alpha acetylation is required for normal growth and mating of Saccharomyces cerevisiae. 268 Nov 43

In this study, we tested a new artificial liver device using liver pieces in 8-h hemoperfusion of comatous porcine blood and compared two alternative tissue preparations. Acute hepatic coma in the pigs was induced by complete devascularization of the liver. The animals were killed in stage IV coma (15-25 h after the operation), and 1 l blood was perfused over 200 g fresh or DMSO-preserved liver cubes. After the devascularization GOT, GPT, GLDH, AP, LDH, SDH, bilirubin, free fatty acid, and bile acid levels in serum increased progressively. Ammonia concentrations underwent a rapid increase in the first 9 h of coma development from 126.0 +/- 9.9 to 321.9 +/- 62.2 mumol/l. Most of the amino acids in serum were elevated and molar ratio of BCAA/AAA declined from 3.87 +/- 0.79 to 0.92 +/- 0.24. In the course of hemoperfusion ammonia was removed from the perfusate to 71% of the initial values using fresh and to 39% using preserved tissue. Correspondingly, there was an increase in urea concentrations. Amino acid metabolism was ameliorated during the perfusion; Fischer's quotient increased from 0.91 +/- 0.15 to 1.38 +/- 0.14 (fresh liver) and from 0.89 +/- 0.14 to 2.11 +/- 0.44 (preserved liver); neuroexcitatory amino acids Asp and Glu were markedly elevated. Energy charge of the liver cells increased and reached levels exceeding 0.5 in both experimental groups, a balanced energy metabolism was maintained and suggests active metabolization by the liver pieces. In comparison with fresh tissue, preserved liver cubes proved effective. We consider our artificial liver device capable of temporary hepatic support in acute necrosis of the liver and suppose that its efficiency can be potentiated by combining this system with other procedures.
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PMID:Successful treatment of hepatic coma by a new artificial liver device in the pig. 408 14

An analogue of Hoechst 33258, bearing a phenolic hydroxyl group in the meta rather than para position, was designed using molecular graphics to introduce hydrogen-bonding potentials between this OH group and the C = O group of cytosine-9 and the NH2 group of guanine-4', of the opposite strand of the B-DNA duplex, d(CGCGAATTCGCG)2. This derivative (meta-Hoechst) was synthesized in seven steps and characterized. Its binding to DNA was assessed by measurements of melting temperatures (Tm) and found to be similar in strength and AT preference to the parent Hoechst 33258 at this gross level. The AT preference of meta-Hoechst and Hoechst 33258 was probed further using hydroxyl radical footprinting on the tyrT DNA fragment, for which clear footprints were detected at AAT, AAA and ATAT runs, as for netropsin and distamycin. Hydroxyl radical footprinting was carried out on a trimer of CGCGAATTCGCG cloned into a longer DNA fragment, for which clear footprints for both Hoechst 33258 and meta-Hoechst were detected in regions with four or more contiguous AT base pairs. Three cell lines derived from haematological malignancies were more sensitive to both Hoechst 33258 and meta Hoechst than lines derived from solid tumours, but there was no significant difference between the activity of these two Hoechst derivatives.
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PMID:Synthesis, DNA binding, footprinting and in vitro antitumour studies of a meta-hydroxy analogue of Hoechst 33258. 757 88

A comparative study of the chymotrypsin-like activity of the purified recombinant ClpP protease and the multicatalytic proteinase from rat liver is presented. The peptidase activity of both enzymes has been analyzed with several synthetic fluorogenic peptides, containing either aromatic or nonpolar amino acids in their P1 position. The respective Vmax, Km, and Vmax/Km were calculated from kinetic experiments. The substrate specificity of the multicatalytic proteinase, as expressed by Vmax/Km values, indicate the following substrate preference: N-Suc-IIW-MCA > N-Suc-LY-MCA > N-Suc-LLVY-MCA > or = N-Suc-AAF-MCA > N-Cbz-GGL-beta-NA > Glut-GGF-beta-NA > FPAM-4-MNA. In the case of the ClpP the order of preference is: N-Suc-LY-MCA > N-Suc-IIW-MCA > N-Suc-LLVY-MCA > or = N-Suc-AAF-MCA > or = N-Cbz-GGL-beta-NA > FPAM-4-MNA (where: N-Suc, N-succinyl-; MCA, 7-amido-4-methyl coumarin; beta-NA, beta-naphthylamide; N-Cbz, N-benzyloxycarbonyl-; 4-MNA, 4-methoxy-beta-naphthylamide; Glut, glutaryl. This similar substrate specificity is further supported by the lack of activity of both enzymes against SY-MCA and N-Suc-AAPF-MCA (known substrates of chymotrypsin), by very reduced activity against N-Suc-AAA-MCA and by no significant activity against LG-beta-NA. The results of mixed substrate experiments have shown that all the peptides that are substrates seem to be hydrolyzed by a single class of chymotrypsin-like site in both enzymes. The substrate specificity studies suggest a possible evolutionary relationship between the catalytic component of the ClpP of Escherichia coli and the multicatalytic proteinase chymotrypsin-like catalytic component. This conclusion is further supported by other circumstantial evidence: the fact that affinity-purified anti-ClpP antibodies cross-react with two polypeptide components of the rat liver multicatalytic proteinase complex, presented here and also shown previously; the known resemblance of both structures at the electron microscope level; and their reported role in the degradation of NH2-end rule substrates.
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PMID:A comparative study of the chymotrypsin-like activity of the rat liver multicatalytic proteinase and the ClpP from Escherichia coli. 840 53

Mutations in the human LIS1 gene cause type I lissencephaly, a severe brain developmental disease involving gross disorganization of cortical neurons. In lower eukaryotes, LIS1 participates in cytoplasmic dynein-mediated nuclear migration. We previously reported that mammalian LIS1 functions in cell division and coimmunoprecipitates with cytoplasmic dynein and dynactin. We also localized LIS1 to the cell cortex and kinetochores of mitotic cells, known sites of dynein action. We now find that the COOH-terminal WD repeat region of LIS1 is sufficient for kinetochore targeting. Overexpression of this domain or full-length LIS1 displaces CLIP-170 from this site without affecting dynein and other kinetochore markers. The NH2-terminal self-association domain of LIS1 displaces endogenous LIS1 from the kinetochore, with no effect on CLIP-170, dynein, and dynactin. Displacement of the latter proteins by dynamitin overexpression, however, removes LIS1, suggesting that LIS1 binds to the kinetochore through the motor protein complexes and may interact with them directly. We find that of 12 distinct dynein and dynactin subunits, the dynein heavy and intermediate chains, as well as dynamitin, interact with the WD repeat region of LIS1 in coexpression/coimmunoprecipitation and two-hybrid assays. Within the heavy chain, interactions are with the first AAA repeat, a site strongly implicated in motor function, and the NH2-terminal cargo-binding region. Together, our data suggest a novel role for LIS1 in mediating CLIP-170-dynein interactions and in coordinating dynein cargo-binding and motor activities.
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PMID:Role of dynein, dynactin, and CLIP-170 interactions in LIS1 kinetochore function. 1188 40

pi-Acceptor effects are often used to account for the unusual high lability of [Pt(terpy)L]((2)(-)(n)+) (terpy = 2,2':6',2' '-terpyridine) complexes. To gain further insight into this phenomenon, the pi-acceptor effect was varied systematically by studying the lability of [Pt(diethylenetriamine)OH(2)](2+) (aaa), [Pt(2,6-bis-aminomethylpyridine)OH(2)](2+) (apa), [Pt(N-(pyridyl-2-methyl)-1,2-diamino-ethane)OH(2)](2+) (aap), [Pt(bis(2-pyridylmethyl)amine)OH(2)](2+) (pap), [Pt(2,2'-bipyridine)(NH(3))(OH(2))](2+) (app), and [Pt(terpy)OH(2)](2+) (ppp). The crystal structure of the apa precursor [Pt(2,6-bis-aminomethylpyridine)Cl]Cl.H(2)O was determined. The substitution of water by a series of nucleophiles, viz. thiourea, N,N-dimethylthiourea, N,N,N',N'-tetramethylthiourea, I(-), and SCN(-), was studied under pseudo-first-order conditions as a function of concentration, pH, temperature, and pressure, using stopped-flow techniques. The data enable an overall comparison of the substitution behavior of these complexes, emphasizing the role played by the kinetic cis and trans pi-acceptor effects. The results indicate that the cis pi-acceptor effect is larger than the trans pi-acceptor effect, and that the pi-acceptor effects are multiplicative. DFT calculations at the B3LYP/LACVP level of theory show that, by the addition of pi-acceptor ligands to the metal, the positive charge on the metal center increases, and the energy separation of the frontier molecular orbitals (E(LUMO) - E(HOMO)) of the ground state Pt(II) complexes decreases. The calculations collectively support the experimentally observed additional increase in reactivity when two pi-accepting rings are adjacent to each other (app and ppp), which is ascribed to "electronic communication" between the pyridine rings. The results furthermore indicate that the pK(a) value of the platinum bound water molecule is controlled by the pi-accepting nature of the chelate system and reflects the electron density around the metal center. This in turn controls the rate of the associative substitution reaction and was analyzed using the Hammett equation.
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PMID:Electronic tuning of the lability of Pt(II) complexes through pi-acceptor effects. Correlations between thermodynamic, kinetic, and theoretical parameters. 1261 40

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