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991.
The effect of hexadecylphosphocholine on the degradation of mitochondrial phospholipids 总被引:1,自引:0,他引:1
Vagina Olga Gellerich Frank Norbert Ulbrich-Hofmann Renate 《Molecular and cellular biochemistry》1998,183(1-2):169-173
Hexadecylphosphocholine (HePC) is known as antitumor agent but the mechanism has not yet been understood. In rat liver mitochondria its effect on phospholipid transformation has been studied by quantitative HPTLC and phosphorus determination. From the results it can be concluded that HePC influences the activities of phospholipase A2, phospholipase C, phospholipase D, and lysophospholipase A. The phospholipid transformation as well as the influence of HePC are affected by exogenous calcium ions. In the presence of calcium HePC has been found to inhibit enzyme activities, whereas in the absence of exogenous calcium ions enzymatic phospholipid transformations are activated or inhibited depending on HePC concentrations. 相似文献
992.
Philippe Goyette Aditya Pai Renate Milos Phyllis Frosst Pamela Tran Zhoutao Chen Manuel Chan Rima Rozen 《Mammalian genome》1998,9(8):652-656
Methylenetetrahydrofolate reductase (MTHFR) catalyzes the conversion of 5,10-methylenetetrahydrofolate to 5-methyltetrahydrofolate,
a co-substrate for homocysteine remethylation to methionine. A human cDNA for MTHFR, 2.2 kb in length, has been expressed
and shown to result in a catalytically active enzyme of approximately 70 kDa. Fifteen mutations have been identified in the
MTHFR gene: 14 rare mutations associated with severe enzymatic deficiency and 1 common variant associated with a milder deficiency.
The common polymorphism has been implicated in three multifactorial diseases: occlusive vascular disease, neural tube defects,
and colon cancer. The human gene has been mapped to chromosomal region 1p36.3 while the mouse gene has been localized to distal
Chromosome (Chr) 4. Here we report the isolation and characterization of the human and mouse genes for MTHFR. A human genomic
clone (17 kb) was found to contain the entire cDNA sequence of 2.2 kb; there were 11 exons ranging in size from 102 bp to
432 bp. Intron sizes ranged from 250 bp to 1.5 kb with one exception of 4.2 kb. The mouse genomic clones (19 kb) start 7 kb
5′ exon 1 and extend to the end of the coding sequence. The mouse amino acid sequence is approximately 90% identical to the
corresponding human sequence. The exon sizes, locations of intronic boundaries, and intron sizes are also quite similar between
the two species. The availability of human genomic clones has been useful in designing primers for exon amplification and
mutation detection. The mouse genomic clones will be helpful in designing constructs for gene targeting and generation of
mouse models for MTHFR deficiency.
Received: 28 January 1998 / Accepted: 9 April 1998 相似文献
993.
Zeev Pancer Michael Kruse Heike Sch cke Ute Scheffer Renate Steffen P ter Kov cs Werner E. G. Mü ller 《Cell communication & adhesion》1996,4(4):327-339
Sponges [Porifera] are the phylogenetically oldest phylum of the Metazoa. They are provided with both cellular and humoral allorecognition systems. The underlying molecules are not yet known. To study allorecognition in sponges we first determined the frequency of graft rejection in a natural population of the marine sponge Geodia cvdonium. We then determined, for the first time at the molecular level, the degree of sequence polymorphism in segments of one molecule which may be related to sponge allorecognition and host defense: the Ig-like domains from the receptor tyrosine kinase [RTK]. Thirty six pairs of auto- and allografts were assayed, either by parabiotic attachment or insertion of grafts. All of the autografts fused, while only two allografts fused and 34 pairs were incompatibile. Rejection among the parabiotic allografts was characterized by the formation of a collagenous barrier, while the allografts that were inserted into the host underwent destruction. At the molecular level we first cloned to completion the 5'-end of sponge RTK, which displays a Pro-Ser-Thr-rich sequence; this is thought to act as a module of cell adhesion proteins. Then we analyzed RT-PCR products of amplification across the two Ig-like domains of RTK (about 500 bp), from two pairs of fusing sponges and one pair of rejecting sponges. High levels of polymorphism were recorded, including 18 nucleotide-substitution positions and a tri-nucleotide deletion, which translate into 13 polymorphic amino acid positions. Two of the six sponges were scored as heterozygotes. Among 9 informative polymorphic sites that were tested for linkage disequilibrium, 11 pairwise comparisons were found to be significant, implying the possibility of distinguishable alleles in this locus. To the best of our knowledge this is the first report of polymorphism in Ig-like domains of a receptor from invertebrates that may be associated with allorecognition. This data attests also that fusion in sponges is not confined to genetically identical individuals. 相似文献
994.
995.
The cellular compartmentalization of cardenolide biotransformation in Digitalis grandiflora Mill. cell cultures was investigated. The presence of UDP-glucose: digitoxin 16-O-glucosyltransferase (DGT; EC 2.4.1.-), acetyl-CoA: digitoxin 15-O-acetyltransferase (DAT; EC 2.3.1.-) and cardenolide 16-O-glucohydrolase (CGH; EC 3.2.1.21) was demonstrated and their time courses during one cell culture cycle were established. The activities of DGT, DAT and CGH were quite constant over time and leveled off at around 3, 30 and 100 ukat, respectively, per kg protein. The cardenolide products formed by DGT action were shown to be exclusively localized in the central vacuole. The cellular distributions of DGT, CGH and unspecific -glucosidase were investigated and it was shown that DGT and CGH are not localized in the vacuoles, whereas unspecific glucosidase is. The influence on cardenolide uptake of the set of biotransformation enzymes present in a given cell line is discussed. An updated cellular model of cardenolide biotransformation is proposed.Abbreviations CGH
cardenolide 16-O-glucohydrolase
- DAT
acetyl-CoA: digitoxin 15-O-acetyltransferase
- DGT
UDP-glucose: digitoxin 16-O-glucosyltransferase
- LAE
lanatoside 15-O-acetylesterase
This work was supported by a grant from the Deutsche Forschungsgemeinschaft. 相似文献
996.
Genetic recombination events which position the friedreich ataxia locus proximal to the D9S15/D9S5 linkage group on chromosome 9q 总被引:5,自引:4,他引:1
Susan Chamberlain Martin Farrall Jacqui Shaw David Wilkes Jaime Carvajal Renate Hillerman Kit Doudney A. E. Harding Robert Williamson Giorgio Sirugo Ricardo Fujita Michel Koenig Jean-Louis Mandel Francisco Palau Eugenia Monros Juan Vilchez Felix Prieto Andrea Richter Michel Vanasse Serge Melancon Sergio Cocozza Elena Redolfi Francesca Cavalcanti Luigi Pianese Allesandro Filla Stefano DiDonato Massimo Pandolfo 《American journal of human genetics》1993,52(1):99-109
The absence of recombination between the mutation causing Friedreich ataxia and the two loci which originally assigned the disease locus to chromosome 9 has slowed attempts to isolate and characterize the genetic defect underlying this neurodegenerative disorder. A proximity of less than 1 cM to the linkage group has been proved by the generation of high maximal lod score (Z) to each of the two tightly linked markers D9S15 (Z = 96.69; recombination fraction [θ] = .01) and D9S5 (Z = 98.22; θ = .01). We report here recombination events which indicate that the FRDA locus is located centromeric to the D9S15/D9S5 linkage group, with the most probable order being cen–FRDA–D9S5–D9S15–qter. However, orientation of the markers with respect to the centromere, critical to the positional cloning strategy, remains to be resolved definitively. 相似文献
997.
998.
More “diffusible” auxin is received from nonsterile than from sterile corn coleoptile tips. An artificial reinfection of sterile coleoptiles with epiphytic, IAA-producing bacteria strains does, a superinfection of nonsterile coleoptiles does not increase the auxin amount. The difference between sterile and nonsterile tips persists if diffusion from the coleoptile surface is excluded by covering the surface with a paraffin layer. The greater the distance from the apex, the higher becomes the superiority of nonsterile tips. An artificial bacterial contamination of the contact face between tip and receiver agar block, or addition of glucose and tryptophan to the agar block, do not influence the received auxin amount. Consequently the additional, bacteria-produced auxin delivered by the nonsterile tip is not produced at the cut surface or in the agar but is present in the tissues of the coleoptile tip. 相似文献
999.
Renate Grill 《Planta》1969,89(1):9-22
Summary As measured by in vivo spectrophotometry the phytochrome content in etiolated turnip seedlings was higher in cotyledons than in hypocotyls; in the latter, it is confined to the apical part. During early growth in darkness the amount increased in both tissues to a maximum, reached about 40 hours after sowing; the levels then gradually declined. Separation of seedlings into hypocotyl and cotyledons increased the rate of phytochrome loss in the former, but not in the latter.Following 5 minutes of red light P
frdecayed very rapidly in darkness; after 1.5 hours all of the phytochrome was present as P
r, which was presumably not converted initially. In continuous red light the total phytochrome was reduced to below the detection level within 3 hours. Seedling age markedly affected the loss of phytochrome following red light; more was destroyed in older than in younger hypocotyls and apparent new synthesis occurred only in young seedlings. The capacity to synthesise phytochrome differed in cotyledons and hypocotyl. In cotyledons, synthesis occurred following shots of red light varying from 10 seconds, to 6×I minute, but the amount of newly formed phytochrome was not related to the amount destroyed: after 5 hours of continuous red light no new synthesis occurred. In hypocotyls, the amount of phytochrome synthesised was related to the amount previously destroyed, and the phytochrome content after 24 hours of darkness was similar following all red light treatments of 1 minute or longer: new synthesis occurred following 5 hours of continuous red light.In far-red light phytochrome decayed very slowly, approaching the limit of detection after 48 hours. In cotyledons some loss was already observed after 5 hours of far-red and, in hypocotyls, after about 10 hours.These results are discussed in relation to the possible role of phytochrome as the pigment mediating anthocyanin synthesis in prolonged far-red light. 相似文献
1000.
Summary Cell cycle parameters in different radiation-sensitive strains of diploid yeast were determined by flow cytofluorometry. The cell generation time was increased in homozygous rad2 and rad51 mutants but was not significanty different from the wild type in rad9 and rad6 mutants. All mutants had a longer G1-phase than the wild type. A lengthened S-phase was found in rad2 cells. Rad51 mutants displayed a considerably longer duration of G2. 相似文献