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201.
202.
The filamentous fungus Fusarium lateritium produces cyanide hydratase when grown in the presence of cyanide. The cyanide hydratase protein produced at a high level in Escherichia coli shows a low but significant nitrilase activity with acetonitrile, propionitrile and benzonitrile. The nitrilase activity is sufficient for growth of the recombinant strain on acetonitrile, propionitrile or benzonitrile as the sole source of nitrogen. The recombinant enzyme shows highest nitrilase activity with benzonitrile. Site-directed mutagenesis of the F. lateritium cyanide hydratase gene indicates that mutations leading to a loss of cyanide hydratase activity also lead to a loss of nitrilase activity. This suggests that the active site for cyanide hydratase and nitrilase activity in the protein is the same. This is the first evidence of cyanide hydratase having nitrilase activity. 相似文献
203.
Light-induced fluorescence changes (LIFCs) were detected in sporangiophores of the blue-light-sensitive fungus Phycomyces blakesleeanus (Burgeff). The LIFCs can be utilized as a spectrophotometric assay for blue-light photoreceptors and for the in vivo characterization of their photochemical primary reactions. Blue-light irradiation of sporangiophores elicited a transient decrease and subsequent regeneration of flavin-like fluorescence emission at 525 nm. The signals recovered in darkness in about 120 min. In contrast to blue light, near-UV (370 nm) caused an increase in the fluorescence emission at 525 nm. Because the LIFCs were altered in a light-insensitive madC mutant with a defective photoreceptor, the fluorescence changes must be associated with early photochemical events of the transduction chain. Action spectra for the fluorescence changes at 525 nm showed major peaks near 470 and 600 nm. Double-pulse experiments involving two consecutive pulses of either blue and near-UV, blue and red, or near-UV and red showed that the responses depended on the sequence in which the different wavelengths were applied. The results indicate a blue-light receptor with intermediates in the near-UV, blue and red spectral regions. We explain the results in the framework of a general model, in which the three redox states of the flavin photoreceptor, the oxidized flavin (Fl), the flavo-semiquinone (FlH·), and the flavo-hydroquinone (FlH2) are each acting as chromophores with their own characteristic photochemical primary reactions. These consist of the photoreduction of the oxidized flavin generating semiquinone, the photoreduction of the semiquinone generating hydroquinone, and the photooxidation of the flavo-hydroquinone regenerating the pool of oxidized flavins. The proposed mechanism represents a photocycle in which two antagonistic photoreceptor forms, Fl and FlH2, determine the pool size of the biological effector molecule, the flavo-semiquinone. The redox changes that are associated with the photocycle are maintained by redox partners, pterins, that function in the near-UV as secondary chromophores.Abbreviations FAD flavin adenine dinucleotide - Fl oxidized flavin - FlH flavo-semiquinone radical - FlH2 flavo-hydroquinone - LIAC light-induced absorbance change - LIFC light-induced fluorescence change - Pt oxidized pterin - PtH2 dihydro-pterin - PtH4 tetrahydro-pterin 相似文献
204.
Vitamin C (L-ascorbic acid) has important antioxidant and metabolic functions in both plants and animals, humans have lost the ability to synthesize it. Fresh produce is the major source of vitamin C in the human diet yet only limited information is available concerning its route(s) of synthesis in plants. In contrast, the animal vitamin C biosynthetic pathway has been elucidated since the 1960s. Two biosynthetic pathways for vitamin C in plants are presently known. The D-mannose pathway appears to be predominant in leaf tissue, but a D-galacturonic acid pathway operates in developing fruits. Our group has previously shown that transforming lettuce and tobacco with a cDNA encoding the terminal enzyme of the animal pathway, L-gulono-1,4-lactone oxidase (GLOase, EC 1.1.3.8), increased the vitamin C leaf content between 4- and 7-fold. Additionally, we found that wild-type (wt) tobacco plants had elevated vitamin C levels when fed L-gulono-1,4-lactone, the animal precursor. These data suggest that at least part of the animal pathway may be present in plants. To further investigate this possibility, wild-type and vitamin-C-deficient Arabidopsis thaliana (L.) Heynh (vtc) plants were transformed with a 35S: GLOase construct, homozygous lines were developed, and vitamin C levels were compared to those in untransformed controls. Wild-type plants transformed with the construct showed up to a 2-fold increase in vitamin C leaf content compared to controls. All five vtc mutant lines expressing GLOase had a rescued vitamin C leaf content equal or higher (up to 3-fold) than wt leaves. These data and the current knowledge about the identity of genes mutated in the vtc lines suggest that an alternative pathway is present in plants, which can bypass the deficiency of GDP-mannose production of the vtc1-1 mutant and possibly circumvent other steps in the D-mannose pathway to synthesize vitamin C. 相似文献
205.
The last step for biosynthesis of c type cytochromes, indispensable for photosynthesis in cyanobacteria and plants, involves heme transport across the membrane and its covalent attachment to the apoprotein. In cyanobacteria, heme attachment occurs in the thylakoid lumen and probably also in the periplasm and requires at least four proteins, believed to be organized in intrinsic membrane protein complex. To allow isolation and identification of such complex, CcsB protein was tagged with 6xHis tag on its N terminus and expressed under the strong psbAII promoter in the cyanobacterium Synechocystis sp. PCC 6803. Similarly, CcsA protein was tagged with FLAG tag under the control of the same promoter. Although expression of both proteins under strong cyanobacterial promoter did not increase steady state contents of the CcsB protein, the fusion tags did not influence properties of the CcsB and CcsA proteins and the resulting mutants had the same phenotype as the wild type. Protein fraction containing CcsBHis protein was partially isolated from the solubilised membranes under native conditions. 相似文献
206.
Mutations in the rhodopsin gene are the most common cause of retinitis pigmentosa (RP) among human patients. The nature of
the rhodopsin mutations has critical implications for the design of strategies for gene therapy. Nearly all rhodopsin mutations
are dominant. Although dominance does not arise because of haploinsufficiency, it is unclear whether it is caused by gain-of-function
or dominant-negative mutations. Current strategies for gene therapy have been devised to deal with toxic, gain-of-function
mutations. However, analysis of results of transgenic and targeted expression of various rhodopsin genes in mice suggests
that dominance may arise as a result of dominant-negative mutations. This has important consequences for gene therapy. The
effects of dominant-negative mutations can be alleviated, in principle, by supplementation with additional wild-type rhodopsin.
If added wild-type rhodopsin could slow retinal degeneration in human patients, as it does in mice, it would represent a valuable
new strategy for gene therapy of RP caused by dominant rhodopsin mutations. 相似文献
207.
Pseudomonas fluorescens strain GRS1, PRS9 and their cold tolerant mutants were examined for their tricalcium phosphate (TCP) solubilizing activity in NBRIP (broth) media at 10°C and 25°C. Invariably, all the cold tolerant mutants of GRS1 and PRS9 were found more efficient than their respective wild type counterparts for ‘P’ solubilization activity at 10°C as compared to 25°C. ‘P’ solubilization potential of CRM was found maximum among all the strains followed by CRPF6 and CRPF4. To the best of out knowledge, this is the first report regarding low temperature ‘P’ solubilization activity. 相似文献
208.
209.
Classification and identification of Arabidopsis cell wall mutants using Fourier-Transform InfraRed (FT-IR) microspectroscopy 总被引:10,自引:0,他引:10
Mouille G Robin S Lecomte M Pagant S Höfte H 《The Plant journal : for cell and molecular biology》2003,35(3):393-404
We have developed a novel procedure for the rapid classification and identification of Arabidopsis mutants with altered cell wall architecture based on Fourier-Transform Infrared (FT-IR) microspectroscopy. FT-IR transmission spectra were sampled from native 4-day-old dark-grown hypocotyls of 46 mutants and the wild type treated with various drugs. The Mahalanobis distance between mutants, calculated from the spectral information after compression with the Discriminant Variables Selection procedure, was used for alpha hierarchical cluster analysis. Despite the completely unsupervised nature of the classification procedure, we show that all mutants with cellulose defects appeared in the same cluster. In addition, mutant alleles of similar strength for several unrelated loci were also clustered, which demonstrates the sensitivity of the method to detect a wide array of cell wall defects. Comparing the cellulose-deficient cluster with the cluster that contained wild-type controls led to the identification of wave numbers that were diagnostic for altered cellulose content in the context of an intact cell wall. The results show that FT-IR spectra can be used to identify different classes of mutants and to characterize cell wall changes at a microscopic level in unknown mutants. This procedure significantly accelerates the identification and classification of cell wall mutants, which makes cell wall polysaccharides more accessible to functional genomics approaches. 相似文献
210.
Ligand-gated ion channels contain a conserved leucine at position 9′ (L9′) in the M2 transmembrane domain. We used multiple
substitutions at this position in the γ subunit of the mouse acetylcholine receptor (AChR) (γL9′) to examine the role of residue
polarity at this position in the gating process at both the macroscopic and single-channel levels. The midpoint of the macroscopic
dose-response relationship (EC50) and the channel closing rate constant, α, decreased as the polarity of the residue at that position increased, suggesting
a stabilization of the open state of the channel. Both parameters showed similar dependencies on the polarity of the substituted
residue. These data support the notion that during AChR gating, the amino acid at the 9′ position moves into a polar environment,
and that interactions between this residue and the polar environment determine the stability of the open state. Since this
residue is conserved in all other members of the ligand-gated ion channel family, we suggest that a similar mechanism applies
to the other members of the family.
Received: 17 September 1999/Revised: 15 December 1999 相似文献