Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.1.2.13 (aldolase)
 3,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Aldose reductase (alditol:NADP+ 1-oxidoreductase, EC 1.1.1.21) has been purified 1500-fold from porcine brain in a four-step procedure employing Blue-Sepharose 6B affinity chromatography. The purified enzyme was shown to be apparently homogeneous by polyacrylamide gel electrophoresis. The enzyme is a single chain polypeptide of molecular weight 40 000, pH optimum 5.0 K(app)(xylose) 4 mM; K(app)(NADPH) 3 microM. The relative substrate activities, activation with sulfate ion, and limited oxidative and NADH-related reductive activities confirm the classification of this enzyme as aldolase reductase. The activity of the reductase with p-nitrobenzaldehyde and 3-indolacetaldehyde and the similarity of its physical properties with the 'low Km' aldehyde reductase of porcine brain previously reported indicates that these enzymes may be identical.
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PMID:Affinity purification and properties of porcine brain aldose reductase. 3 51

On the whole, the treatment of peripheral neuropathies is disappointing, even when a cause has been identified, because nerve lesions, and particularly axonal diseases, are frequently severe, and the mechanisms or peripheral nerve fibre repair is very slow. However, during the last few years important advances have been made in the treatment of acute and chronic acute inflammatory demyelinating polyneuropathies, most probably of dysimmune origin, with plasma exchanges and, more recently, intravenous human plasma immunoglobulins. Therapeutic trials are in progress in neuropathies associated with monoclonal gammopathies, notably IgM. In diabetic neuropathy numerous studies are going on, in particular with aldolase reductase inhibitors and with gangliosides.
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PMID:[Therapeutic approach in peripheral neuropathies]. 131 14

Wild-type Escherichia coli cannot grow on L-1,2-propanediol; mutants that can do so have increased basal activity of an NAD-linked L-1,2-propanediol oxidoreductase. This enzyme belongs to the L-fucose system and functions normally as L-lactaldehyde reductase during fermentation of the methylpentose. In wild-type cells, the activity of this enzyme is fully induced only anaerobically. Continued aerobic selection for mutants with an improved growth rate on L-1,2-propanediol inevitably leads to full constitutive expression of the oxidoreductase activity. When this occurs, L-fuculose 1-phosphate aldolase concomitantly becomes constitutive, whereas L-fucose permease, L-fucose isomerase, and L-fuculose kinase become noninducible. It is shown in this study that the noninducibility of the three proteins can be changed by two different kinds of suppressor mutations: one mapping external to and the other within the fuc gene cluster. Both mutations result in constitutive synthesis of the permease, the isomerase, and the kinase, without affecting synthesis of the oxidoreductase and the aldolase. Since expression of the fuc structural genes is activated by a protein specified by the regulator gene fucR, and since all the known genes of the fuc system are clustered at minute 60.2 of the chromosome, the external gene in which the suppressor mutation can occur probably has an unrelated function in the wild-type strain. The internal suppressor mutation might be either in fucR or in the promoter region of the genes encoding the permease, the isomerase, and the kinase, if these genes belong to the same operon.
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PMID:Constitutive activation of L-fucose genes by an unlinked mutation in Escherichia coli. 637 90

Two brothers, 25 and 19 years old, were affected by asymmetrical hypertrophic cardiomyopathy. The older brother had waddling gait and weakness of the proximal girdle muscles, while the younger had a broad-based gait and weakness of selected limb girdle muscles. EMG exam was myopathic. Serum enzyme, CPK and aldolase were elevated. Histochemical reactions in muscle revealed "core-like" areas, subsarcolemmal rims of mitochondria and lipid accumulation. Succinate-dehydrogenase stain showed a lack of activity in both biopsies, with the exception of intrafusal fibers. Microphotometric quantitative measurements confirmed the defect in both biopsies. Biochemical measurements of several mitochondrial enzymes in muscle showed a reduced activity of succinate-dehydrogenase (33%) and succinate-cytochrome C reductase (36-47%) which are both components of complex II. On myocardial biopsy lipid and mitochondrial abnormalities were found. This mitochondriopathy represents a new phenotype of partial complex II defect.
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PMID:Hypertrophic cardiomyopathy with mitochondrial myopathy. A new phenotype of complex II defect. 851 73

The duration of diabetes, age and genetic predispositions are admitted agents of risk in diabetic neuropathy. The reasons of diabetic neuropathy are suspected in cooperation with various factors among which metabolic disturbances and ischaemia are the most important. The abnormal activation of sorbitol tract is very significant agent of development of diabetic neuropathy. The excess of sorbitol which is accumulating also in nervous tissue causes its damage in osmotic way. At the same time decreasing concentration of myoinositol reduces ATP-ase Na+/K+ activity which is important in impulse conduction. The overproduction of free oxygenic radical (oxidative lesion) and nitrogen oxide (vasodilator) deficiency is inducted by hyperglycaemia and the activation of aldolase reductase. Metabolic disturbances cause the decrease of carnitine concentration what deteriorates nerve sensitivity on growth factor. The activation of sorbitol tract leads to nonenzymatic proteins glycation which causes thickening of basement membrane and proliferation of endothelium cells. In this way increased vascular resistance decreases tissue perfusion and induces nerve hypoxia. The impairment of nerve blood supply depends on altered in diabetes rheological properties. They are inconveniently changed through hyperglycaemia, hyperlypidaemia, dysproteinaemia and excessive aggregation and rigidity of morphotic elements of blood.
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PMID:[Contemporary views on the pathogenesis of diabetic neuropathy]. 968 30

The biosynthetic pathway for the pteridine moiety of cyanopterine, as well as tetrahydrobiopterine, has been investigated in Synechocystis sp. PCC 6803. Open reading frames slr0426, slr1626, slr0078 and sll0330 of the organism putatively encoding GTP cyclohydrolase I, dihydroneopterine aldolase, 6-pyruvoyltetrahydropterine synthase and sepiapterine reductase, respectively, have been cloned into T7-based vectors for expression in Escherichia coli. The recombinant proteins have been purified to homogeneity and demonstrated to possess expected genuine activities except that of sll0330. Our result is the first direct evidence for the functional assignment of the open reading frames in Synechocystis sp. PCC 6803. Furthermore, the 6-pyruvoyltetrahydropterine synthase gene is demonstrated for the first time in prokaryotes. Based on the result, biosynthesis of cyanopterine is discussed.
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PMID:Identification of the genes encoding enzymes involved in the early biosynthetic pathway of pteridines in Synechocystis sp. PCC 6803. 1041 43

In Comamonas testosteroni TA441, testosterone is degraded via aromatization of the A ring, which is cleaved by the meta-cleavage enzyme TesB, and further degraded by TesD, the hydrolase for the product of TesB. TesEFG, encoded downstream of TesD, are probably hydratase, aldolase, and dehydrogenase for degradation of 2-oxohex-4-enoicacid, one of the products of TesD. Here we present a new and unique steroid degradation gene cluster in TA441, which consists of ORF18, ORF17, tesI, tesH, ORF11, ORF12, and tesDEFG. TesH and TesI are 3-ketosteroid-Delta(1)-dehydrogenase and 3-ketosteroid-Delta(4)(5alpha)-dehydrogenase, respectively, which work in the early steps of steroid degradation. ORF17 probably encodes the reductase component of 9alpha-hydroxylase for 1,4-androstadiene-3,17-dione, which is the product of TesH in testosterone degradation. Gene disruption experiments showed that these genes are necessary for steroid degradation and do not have any isozymes in TA441. By Northern blot analysis, these genes were shown to be induced when TA441 was incubated with steroids (testosterone and cholic acid) but not with aromatic compounds [phenol, biphenyl, and 3-(3-hydroxyphenyl)propionic acid], indicating that these genes function exclusively in steroid degradation.
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PMID:A new bacterial steroid degradation gene cluster in Comamonas testosteroni TA441 which consists of aromatic-compound degradation genes for seco-steroids and 3-ketosteroid dehydrogenase genes. 1290 25

Malaria remains a major disease of mankind, and resistance to existing therapeutics is rapidly emerging. Limited financial investment to develop new therapeutics requires the careful selection of well-defined targets from the causative parasite, Plasmodium falciparum. In these circumstances, protein crystallography can provide valuable structural detail to facilitate both the selection of suitable targets and the development of compounds to provide novel drug candidates. This review summarises the current involvement of crystallographic studies in anti-malarial drug development programmes. Protein crystallography is increasingly central to the exploitation of a number of potential Plasmodial targets. including the aspartic acid proteases (plasmepsins) and cysteine proteases (falcipains) involved in haem degradation within the parasite food vacuole. Lead compounds are being identified from collections previously synthesised against homologous human enzymes. Plasmodium have an unusual dependence on the glycolytic pathway relative to their human hosts, and this is reflected in subtle structural differences identified in the crystal structures of a number of parasite glycolytic enzymes including aldolase and lactate dehydrogenase. Other enzymes from a range of biosynthetic pathways have also been targeted in crystallographic studies. These include dihydrofolate reductase, the target of existing anti-folate therapeutics, and enoyl reductase from the fatty acid biosynthesis pathway which is already the target of effective bacteriocides. Crystal structures of these drug-enzyme complexes not only allow visualisation and improvement of inhibitor-protein contacts, but in the former case have also been used to probe the molecular basis of emerging anti-malarial drug resistance. Crystallography is similarly proving valuable as a tool to facilitate the development of inhibitors of purine salvage, isoprenoid synthesis and utilisation, and protein processing mechanisms.
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PMID:Structure-based approaches to the development of novel anti-malarials. 1501 47

Crenate broomrape (Orobanche crenata) is a parasitic plant that threatens legume production in Mediterranean areas. Pea (Pisum sativum) is severely affected, and only moderate levels of genetic resistance have so far been identified. In the present work we selected the most resistant accession available (Ps 624) and compared it with a susceptible (Messire) cultivar. Experiments were performed by using pot and Petri dish bioassays, showing little differences in the percentage of broomrape seed germination induced by both genotypes, but a significant hamper in the number of successfully installed tubercles and their developmental stage in the Ps 624 compared to Messire. The protein profile of healthy and infected P. sativum root tissue were analysed by two-dimensional electrophoresis. Approximately 500 individual protein spots could be detected on silver stained gels. At least 22 different protein spots differentiated control, non-infected, Messire and Ps 624 accessions. Some of them were identified by MALDI-TOF mass spectrometry and database searching as cysteine proteinase, beta-1,3-glucanase, endochitinase, profucosidase, and ABA-responsive protein. Both qualitative and quantitative differences have been found among infected and non-infected root extracts. Thus, in the infected susceptible Messire genotype 34 spots were decreased, one increased and three newly detected, while in Ps 624, 15 spots were increased, three decreased and one newly detected. In response to the inoculation, proteins that correspond to enzymes of the carbohydrate metabolism (fructokinase, fructose-bisphosphate aldolase), nitrogen metabolism (ferredoxin-NADP reductase) and mitochondrial electronic chain transport (alternative oxidase 2) decreased in the susceptible check, while proteins that correspond to enzymes of the nitrogen assimilation pathway (glutamine synthetase) or typical pathogen defence, PR proteins, including beta-1,3-glucanase and peroxidases, increased in Ps 624. Results are discussed in terms of changes in the carbohydrate and nitrogen metabolism an induction of defence proteins in response to broomrape parasitism.
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PMID:A proteomic approach to studying plant response to crenate broomrape (Orobanche crenata) in pea (Pisum sativum). 1527 40

Changes in gene expression within roots of Glycine max (soybean), cv. Kent, susceptible to infection by Heterodera glycines (the soybean cyst nematode [SCN]), at 6, 12, and 24 h, and 2, 4, 6, and 8 days post-inoculation were monitored using microarrays containing more than 6,000 cDNA inserts. Replicate, independent biological samples were examined at each time point. Gene expression was analyzed statistically using T-tests, ANOVA, clustering algorithms, and online analytical processing (OLAP). These analyses allow the user to query the data in several ways without importing the data into third-party software. RT-PCR confirmed that WRKY6 transcription factor, trehalose phosphate synthase, EIF4a, Skp1, and CLB1 were differentially induced across most time-points. Other genes induced across most timepoints included lipoxygenase, calmodulin, phospholipase C, metallothionein-like protein, and chalcone reductase. RT-PCR demonstrated enhanced expression during the first 12 h of infection for Kunitz trypsin inhibitor and sucrose synthase. The stress-related gene, SAM-22, phospholipase D and 12-oxophytodienoate reductase were also induced at the early time-points. At 6 and 8 dpi there was an abundance of transcripts expressed that encoded genes involved in transcription and protein synthesis. Some of those genes included ribosomal proteins, and initiation and elongation factors. Several genes involved in carbon metabolism and transport were also more abundant. Those genes included glyceraldehyde 3-phosphate dehydrogenase, fructose-bisphosphate aldolase and sucrose synthase. These results identified specific changes in gene transcript levels triggered by infection of susceptible soybean roots by SCN.
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PMID:Timecourse microarray analyses reveal global changes in gene expression of susceptible Glycine max (soybean) roots during infection by Heterodera glycines (soybean cyst nematode). 1657 92


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