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排序方式: 共有263条查询结果,搜索用时 140 毫秒
1.
Transduction and Genetic Homology Between Pseudomonas Species putida and aeruginosa 总被引:4,自引:0,他引:4 下载免费PDF全文
Genetic crosses occur by transduction between the species Pseudomonas aeruginosa and P. putida. The frequency relative to intraspecific transfer is reduced and varies among markers, suggesting that these genomes contain discrete regions of homology and nonhomology. 相似文献
2.
Charles Romeo Naoko Moriwaki Kerry T. Yasunobu Irwin C. Gunsalus Hideo Koga 《Journal of Protein Chemistry》1987,6(3):253-261
The first 12 NH2-terminal amino acids of the Pseudomonas putida putidaredoxin reductase were shown to be Met-Asn-Ala-Asn-Asp-Asn-Val-Val-Ile-Val-Gly-Thr. Comparison of these data with the DNA sequence of the BamHI-HindIII 197-base fragment derived from the PstI 2.2-kb fragment obtained from the P. putida plasmid showed that the putidaredoxin reductase gene was downstream from the cytochrome P-450 gene and the intergenic region had the 24-nucleotide sequence TAAACACATGGGAGTGCGTGCTAA. The Shine-Dalgarno sequence GGAG was detected in this region. The initiating triplet for the reductase gene was GTG, which normally codes for valine, but in the initiating codon position codes for methionine. From the amino acid sequence and X-ray data comparisons with other flavoproteins, what appears to be the AMP binding region of the FAD can be recognized in the NH2-terminal portion of the reductase involving residues 5–35.This article was presented during the proceedings of the International Conference on Macromolecular Structure and Function, held at the National Defence Medical College, Tokorozawa, Japan, December 1985. 相似文献
3.
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
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6.
C Y Cheng N A Musto G L Gunsalus J Frick C W Bardin 《The Journal of biological chemistry》1985,260(9):5631-5640
To determine how the androgen binding protein in human testes (hABP) is related to the serum protein, testosterone-estradiol binding globulin (hTeBG), both proteins were isolated and compared. The hABP in extracts of human testes was composed of two molecular species based on concanavalin A (ConA)-Sepharose chromatography. Form I hABP did not interact with ConA while Form II hABP bound to ConA and eluted with alpha-methylmannoside. Form I and Form II hABP from five batches of testes were then purified approximately 30,500- and 30,000-fold to apparent homogeneity by high-performance liquid chromatography and compared with hTeBG isolated from human pregnancy serum. Fractionation of both forms of hABP and hTeBG by polyacrylamide gel electrophoresis in the absence of sodium dodecyl sulfate suggested that the native forms of these proteins were indistinguishable. However, analysis of the purified proteins on sodium dodecyl sulfate-containing polyacrylamide gels indicated that all three were dimers and that each was composed of monomers of at least two sizes which were not present in equimolar concentrations. Two distinctive monomers or protomers of each protein were designated as heavy (H) and light (L) according to their electrophoretic mobilities on sodium dodecyl sulfate-polyacrylamide gels. The H and L protomers of Form I hABP showed apparent molecular weights of 55,000 and 52,000, respectively, in all preparations and were usually present in a 4:5 ratio (H:L). The two components of Form II hABP had apparent molecular weights of 53,000 and 48,000, respectively, and existed in a ratio of approximately 20:1. These two components could not be distinguished in some preparations where Form II hABP migrated as a broad band rather than as distinct protomers. By contrast, hTeBG, which was similar to Form II hABP with respect to ConA binding, always exhibited discrete H and L protomers in a 10:1 ratio. Photolysis of these highly purified proteins with delta 6-[3H]testosterone resulted in specific covalent labeling of their binding sites, confirming that the products identified by silver staining and immunoblotting were indeed steroid binding proteins. The H and L protomers of Form I hABP and hTeBG were separated and examined by peptide mapping using Staphylococcus aureus protease V8 and chymotrypsin. The comparison of the respective fragmentation patterns of protomers indicated that Form I hABP and hTeBG contained distinctive peptides.(ABSTRACT TRUNCATED AT 400 WORDS) 相似文献
7.
The role of the carbohydrate moiety on the size heterogeneity and immunologic determinants of human testosterone-estradiol-binding globulin 总被引:1,自引:0,他引:1
Human testosterone-estradiol-binding globulin (hTeBG) has been purified to apparent homogeneity by several laboratories using procedures which, in most instances, were labor intensive. In this report, hTeBG was purified from pregnancy serum by a newly developed two step procedure involving sequential affinity chromatography and ion-exchange high performance liquid chromatography (ion-exchange HPLC). The purity of the final product was confirmed by silver stained SDS-polyacrylamide gel and reverse phase HPLC monitored at 206 nm. hTeBG purified by ion-exchange-HPLC maintained binding activity by Dextran coated charcoal (DCC) assay and size heterogeneity on SDS-polyacrylamide gels which were indistinguishable from those of the proteins purified by conventional chromatography. Removal of the carbohydrate moiety from the molecule by both enzymatic and chemical treatment reduced the apparent molecular size and eliminated lectin binding of hTeBG subunits. Deglycosylation did not, however, abolish or alter the distribution of the protomeric forms of this subunit. We conclude that hTeBG is a dimer whose monomer exhibits two protomeric forms which is not a result of carbohydrate heterogeneity. In addition, disialylated and deglycosylated hTeBG exhibited antigenic determinants identical to the native protein. 相似文献
8.
Charles Romeo Naoko Moriwaki Kerry T. Yasunobu Irwin C. Gunsalus Hideo Koga 《The protein journal》1987,6(3):253-261
The first 12 NH2-terminal amino acids of the Pseudomonas putida putidaredoxin reductase were shown to be Met-Asn-Ala-Asn-Asp-Asn-Val-Val-Ile-Val-Gly-Thr. Comparison of these data with the DNA sequence of the BamHI-HindIII 197-base fragment derived from the PstI 2.2-kb fragment obtained from the P. putida plasmid showed that the putidaredoxin reductase gene was downstream from the cytochrome P-450 gene and the intergenic region had the 24-nucleotide sequence TAAACACATGGGAGTGCGTGCTAA. The Shine-Dalgarno sequence GGAG was detected in this region. The initiating triplet for the reductase gene was GTG, which normally codes for valine, but in the initiating codon position codes for methionine. From the amino acid sequence and X-ray data comparisons with other flavoproteins, what appears to be the AMP binding region of the FAD can be recognized in the NH2-terminal portion of the reductase involving residues 5–35. 相似文献
9.