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1.
Evidence for a type-IV-related collagen in Drosophila melanogaster. Evolutionary constancy of the carboxyl-terminal noncollagenous domain 总被引:5,自引:0,他引:5
Type IV collagen, a major structural component of basement membrane, has been characterized only in vertebrates. It is unique among the collagenous proteins in that it forms specific lattice networks by end-to-end interactions. In particular, in mammals the C-terminal noncollagenous domain (NCl) of collagen IV was shown to be one of the major cross-linking sites in the network assembly. Here, we give the first direct evidence of type-IV-related collagen in invertebrates by sequence analysis of cDNA and genomic DNA clones for the 3'-end of a previously characterized Drosophila collagen gene. The data describe the C-terminal 190 amino acid residues of the triple helix and the entire noncollagenous domain (231 amino acids) of the chain encoded for by this gene. Comparison with data reported for human and mouse alpha 1(IV) chains reveals that triple-helix regions are quite different, while NC1 structures are very similar. This suggests different constraints on triple-helix and NC1 domains during evolution. Present data support the assumption that the NC1 structure originated from duplication of an ancestral sequence; the extent of both interspecies and intramolecular homologies suggests the maintenance in vertebrates and invertebrates of an ancestral specific function. 相似文献
2.
Subunit location of the iron-sulfur clusters in fumarate reductase from Escherichia coli 总被引:3,自引:0,他引:3
M K Johnson A T Kowal J E Morningstar M E Oliver K Whittaker R P Gunsalus B A Ackrell G Cecchini 《The Journal of biological chemistry》1988,263(29):14732-14738
The subunit location of the [2Fe-2S], [3Fe-4S], and [4Fe-4S] clusters in Escherichia coli fumarate reductase has been investigated by EPR studies of whole cells or whole cells extracts of a fumarate reductase deletion mutant with plasmid amplified expression of discrete fumarate reductase subunits or groups of subunits. The results indicate that both the [2Fe-2S] and [3Fe-4S] clusters are located entirely in the iron-sulfur protein subunit. Information concerning the specific cysteine residues that ligate these clusters has been obtained by investigating the EPR characteristics of cells of the deletion mutant amplified with a plasmid coding for the flavoprotein subunit and a truncated iron-sulfur protein subunit. While the results are not definitive with respect to the location of the [4Fe-4S] cluster, they are most readily interpreted in terms of this cluster being entirely in the flavoprotein subunit or bridging between the two catalytic domain subunits. These new results are discussed in light of the amino acid sequences of the two subunits and the sequences of structurally well characterized iron-sulfur proteins containing [2Fe-2S], [3Fe-4S], and [4Fe-4S] centers. 相似文献
3.
Y Le Parco J P Cecchini B Knibiehler C Mirre 《Biology of the cell / under the auspices of the European Cell Biology Organization》1986,56(3):217-226
We have used a cloned chicken collagen cDNA sequence to help identify hypothetic members of the collagen gene family from Drosophila melanogaster. Several experimental evidences have been obtained which indicate that the Drosophila genome contains numerous collagen-like sequences. We have characterized in more detail ten distinct DNA sequences that hybridized strongly to the heterologous collagen probe. By in situ hybridization we have shown that these sequences are dispersed throughout the Drosophila genome. Two of them are shown to originate from the previously described DCg 1 and DCg 2 collagen genes. In other respects, we show that in addition to DCg 1 and DCg 2, at least five putative collagen genes are expressed during the Drosophila lifetime. These genes are unique, and some of them are seen to be transcribed into different size classes of mRNAs. Additionally, the data presented so far demonstrate that the expression of these genes is regulated temporally and/or quantitatively during the Drosophila life cycle. 相似文献
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6.
蚕豆叶片发育与衰老过程中超氧物歧化酶活性与丙二醛含量变化 总被引:2,自引:0,他引:2
蚕豆植株叶片随茎节自上而下表现出明显的发育与衰老顺序,可作为衰老特征的是叶绿素和蛋白质含量明显下降。蚕豆叶中SOD活性主要定位于12 000× g离心后所得的上清液和叶绿体组分。衰老叶片的SOD总活性和叶绿体组分的相对活性都有所下降,SOD同工酶谱也发生了改变。O_2~ 产生速率随叶龄增大而稍上升;而MDA含量在叶片外观表现枯黄衰老征兆前就急剧上升。可能因为衰老叶片过氧化氢酶活性大幅度下降与SOD之间的不平衡,致使O_2~ 代谢中间产物累积而引起膜的损伤. 相似文献
7.
Cloning, sequencing, and expression of the structural genes for the cytochrome and flavoprotein subunits of p-cresol methylhydroxylase from two strains of Pseudomonas putida. 总被引:1,自引:0,他引:1 下载免费PDF全文
The structural genes for the flavoprotein subunit and cytochrome c subunit of p-cresol (4-methylphenol) methylhydroxylase (PCMH) from Pseudomonas putida NCIMB 9869 (National Collection of Industrial and Marine Bacteria, Aberdeen, Scotland) and P. putida NCIMB 9866 were cloned and sequenced. The genes from P.putida NCIMB 9869 were for the plasmid-encoded A form of PCMH, and the genes from P.putida NCIMB 9866 were also plasmid encoded. The nucleotide sequences of the two flavoprotein genes from P.putida NCIMB 9869 and P.putida NCIMB 9866 (pchF69A and pchF66, respectively) were the same except for 5 bases out of 1,584, and the translated amino acid sequences were identical. The nucleotide sequences of the genes for the cytochrome subunits of PCMH from the two bacteria (pchC69A and pchC66) varied by a single nucleotide in their 303-base sequences, and the translated amino acid sequences differed by a single residue at position 41 (Asp in PchC69A and Ala in PchC66). Both cytochromes had 21-residue signal sequences, as expected for periplasmic proteins, and these sequences were identical. On the other hand, no signal sequences were found for the flavoproteins.pchF69A and pchC69A were expressed, separately or together, in Escherichia coli JM109 and P.putida RA4007, with active PCMH produced in both bacteria. The E. coli-expressed flavocytochrome was purified. Our studies indicated that the E.coli-expressed subunits were identical to the subunits expressed in P.putida NCIMB 9869: molecular weights, isoelectric points, UV-visible spectra, and steady-state kinetic parameters were the same for the two sets of proteins. The subunits readily associated upon mixing two crude extracts of E.coli, one extract containing PchC69A and the other containing PchF69A. The courses of association of PchC69A and PchF69A were essentially identical for pure E. coli-expressed subunits and pure P. putida 9869-expressed subunits. E. coli-expressed PchC69A and PchF69A contained covalently bound heme and covalently bound flavin adenine dinucleotide, respectively, as the proteins expressed in nature. 相似文献
8.
G Cecchini M Perl J Lipsick T P Singer E B Kearney 《The Journal of biological chemistry》1979,254(15):7295-7301
Riboflavine uptake and membrane-associated riboflavin-binding activity has been investigated in Bacillus subtilis. Riboflavin uptake proceeds via a system whose general properties are indicative of a carrier-mediated process: it is inhibited by substrate analogues, exhibits saturation kinetics, and is temperature-dependent. The organism concentrates riboflavin primarily as the phosphorylated cofactors FMN and FAD. Energy is required for uptake but whether the energy demand is required for both uptake and phosphorylation or only for the phosphorylation step is not known. Membrane-associated binding activity for riboflavin has also been demonstrated in membrane vesicles prepared from B. subtilis, and the binding component can be "solubilized" with Triton X-100. Evidence supporting the function of the binding component in riboflavin uptake by the intact cells includes the following. (i) Riboflavin analogues inhibit binding and uptake to nearly the same extent and with similar specificity of action. (ii) The KD for riboflavin-binding and the Km for uptake are in the same range. Similarly the Ki determined for the inhibitory analogue 5-deazariboflavin in the uptake assay and the KD for its interaction with the riboflavin-binding component of membrane vesicles are in the same range. (iii) Uptake in cells and binding in vesicles vary in the same direction with differences in growth conditions. 相似文献
9.
Effects of protein perturbants on phospholipid bilayers 总被引:1,自引:0,他引:1
T J Anchordoguy J F Carpenter C A Cecchini J H Crowe L M Crowe 《Archives of biochemistry and biophysics》1990,283(2):356-361
Series of alcohols, amides, ureas, and sulfoxides with increasingly longer hydrocarbon chains have been shown to lower progressively the thermal denaturation temperature of proteins. This effect is presumably due to a hydrophobic interaction between the solute and nonpolar domains of the protein. Theoretically, these interactions should occur between the solute and any macromolecular structure having a nonpolar region to which the solute has access. A recent review by Arakawa et al. has summarized evidence for such an interaction between organic solutes and proteins and suggested that these interactions are favored at higher temperatures. The present study investigates the effects of several classes of compounds on the stability of phospholipid vesicles. The results show that many compounds that are known to perturb protein function also destabilize phospholipid bilayers as reflected by solute-induced loss of vesicle contents. 相似文献
10.
Electron transfer from menaquinol to fumarate. Fumarate reductase anchor polypeptide mutants of Escherichia coli 总被引:3,自引:0,他引:3
D J Westenberg R P Gunsalus B A Ackrell G Cecchini 《The Journal of biological chemistry》1990,265(32):19560-19567
Fumarate reductase (FRD) of Escherichia coli is a four-subunit membrane-bound complex that is synthesized during anaerobic growth when fumarate is available as a terminal oxidant. The two subunits that comprise the catalytic domain, FrdA and FrdB, are anchored to the cytoplasmic membrane surface by two small hydrophobic polypeptides, FrdC and FrdD, which are also required for the enzyme to interact with quinone. To better define the individual roles of the FrdC and FrdD polypeptides in FRD complex formation and quinone binding, we selectively mutagenized the frdCD genes. Frd- strains were identified by their inability to grow on restrictive media, and the resulting mutant FRD complexes were isolated and biochemically characterized. The majority of the frdC and frdD mutations were identified as single base deletions that caused premature termination in either FrdC or FrdD and resulted in the loss of one or more of the predicted transmembrane helices. Two additional frdC mutants were characterized that contained single base changes resulting in single amino acid substitutions. All mutant enzyme complexes were incapable of oxidizing the physiological electron donor, menaquinol-6, in the presence of fumarate. Additionally, the ability of the mutant complexes to oxidize reduced benzyl viologen or reduce the ubiquinone analogue 2,3-dimethoxy-5-methyl-6-pentyl-1,4-benzoquinone and phenazine methosulfate with succinate as electron donor were also affected but to varying degrees. The separation of oxidative and reductive activities with quinones suggests there are two quinone binding sites in the fumarate reductase complex and that electron transfer occurs in two le- steps carried out at these separate sites. 相似文献