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101.
The temperature dependence of the partial reactions leading to turn-over of the UQH2:cyt c
2 oxidoreductase of Rhodobacter sphaeroides have been studied. The redox properties of the cytochrome components show a weak temperature dependence over the range 280–330 K, with coefficients of about 1 m V per degree; our results suggest that the other components show similar dependencies, so that no significant change in the gradient of standard free-energy between components occurs over this temperature range. The rates of the reactions of the high potential chain (the Rieske iron sulfur center, cytochromes c
1 and c
2, reaction center primary donor) show a weak temperature dependence, indicating an activation energy < 8 kJ per mole for electron transfer in this chain. The oxidation of ubiquinol at the Qz-site of the complex showed a strong temperature dependence, with an activation energy of about 32 kJ mole–1. The electron transfer from cytochrome b-566 to cytochrome b-561 was not rate determining at any temperature, and did not contribute to the energy barrier. The activation energy of 32 kJ mole–1 for quinol oxidation was the same for all states of the quinone pool (fully oxidized, partially reduced, or fully reduced before the flash). We suggest that the activation barrier is in the reaction by which ubiquinol at the catalytic site is oxidized to semiquinone. The most economical scheme for this reaction would have the semiquinone intermediate at the energy level indicated by the activation barrier. We discuss the plausibility of this simple model, and the values for rate constants, stability constant, the redox potentials of the intermediate couples, and the binding constant for the semiquinone, which are pertinent to the mechanism of the ubiquinol oxidizing site.Abbreviations (BChl)2
P870, primary donor of the photochemical reaction center
-
b/c
1 complex
ubiquinol: cytochrome c
2 oxidoreductase
- cyt b
H
cytochrome b-561 or higher potential cytochrome b
- cyt b
L
cytochrome b-566, or low potential cytochrome b
- cyt c
1, cyt c
2, cyt c
t
cytochromes c
1 and c
2, and total cytochrome c (cyt c
1 and cyt c
2)
- Fe.S
Rieske-type iron sulfur center, Q
- QH2
ubiquinone, ubiquinol
- Qz, QzH2, Qz
–
ubiquinone, ubiquinol, and semiquinone anion of ubiquinone, bound at quinol oxidizing site
- Qz-site
ubiquinol oxidizing site (also called Qo-(outside)
- Qo
(Oxidizing)
- QP
(Positive proton potential) site)
- Qc-site
uubiquinone reductase site (also called the Qi-(inside)
- QR
(Reducing), or
- QN
(Negative proton potential) site)
- UHDBT
5-(n-undecyl)-6-hydroxy-4,7-dioxobenzothiazol 相似文献
102.
A new Agrobacterium-mediated transformation system was developed for finger millet using shoot apex explants. The Agrobacterium strain LBA4404 harboring binary vector pCAMBIA1301, which contained hygromycin phosphotransferase (hptII) as selectable marker gene and β-glucuronidase (GUS) as reporter gene, was used for optimization of transformation conditions.
Two finger millet genotypes, GPU 45 and CO 14, were used in this study. The optimal conditions for the Agrobacterium-mediated transformation of finger millet were found to be the co-cultivation of explants obtained on the 16th day after callus
induction (DACI), exposure of explants for 30 min to agrobacterial inoculum and 3 days of co-cultivation on filter paper placed
on medium supplemented with 100 μM acetosyringone (AS). Addition of 100 μM l-cysteine in the selection medium enhanced the frequency of transformation and transgenic plant recovery. Both finger millet
genotypes were transformed by Agrobacterium. A frequency of 19% transient expression with 3.8% stable transformation was achieved in genotype GPU 45 using optimal conditions.
Five stably transformed plants were fully characterized by Southern blot analysis. A segregation analysis was also performed
in four R1 progenies, which showed normal Mendelian pattern of transgene segregation. The inheritance of transgenes in R1 progenies was also confirmed by Southern blot analysis. This is the first report on Agrobacterium-mediated transformation of finger millet. This study underpins the introduction of numerous agronomically important genes
into the genome of finger millet in the future. 相似文献
103.
Antony J. Durston 《Genesis (New York, N.Y. : 2000)》2019,57(7-8)
This article is concerned with the roles of retinoids and other known anterior–posterior morphogens in setting up the embryonic vertebrate anterior–posterior axis. The discussion is restricted to the very earliest events in setting up the anterior–posterior axis (from blastula to tailbud stages in Xenopus embryos). In these earliest developmental stages, morphogen concentration gradients are not relevant for setting up this axis. It emerges that at these stages, the core patterning mechanism is timing: BMP‐anti BMP mediated time space translation that regulates Hox temporal and spatial collinearities and Hox‐Hox auto‐ and cross‐ regulation. The known anterior–posterior morphogens and signaling pathways––retinoids, FGF's, Cdx, Wnts, Gdf11 and others––interact with this core mechanism at and after space–time defined “decision points,” leading to the separation of distinct axial domains. There are also other roles for signaling pathways. Besides the Hox regulated hindbrain/trunk part of the axis, there is a rostral part (including the anterior part of the head and the extreme anterior domain [EAD]) that appears to be regulated by additional mechanisms. Key aspects of anterior–posterior axial patterning, including: the nature of different phases in early patterning and in the whole process; the specificities of Hox action and of intercellular signaling; and the mechanisms of Hox temporal and spatial collinearities, are discussed in relation to the facts and hypotheses proposed above. 相似文献
104.
(1) Current models for the mechanism of cyclic electron transport in Rhodopseudomonas sphaeroides and Rhodopseudomonas capsulata have been investigated by observing the kinetics of electron transport in the presence of inhibitors, or in photosynthetically incompetent mutant strains. (2) In addition to its well-characterized effect on the Rieske-type iron sulfur center, 5-(n-undecyl)-6-hydroxy-4,7-dioxobenzothiazole (UHDBT) inhibits both cytochrome b50 and cytochrome b?90 reduction induced by flash excitation in Rps. sphaeroides and Rps. capsulata. The concentration dependency of the inhibition in the presence of antimycin (approx. 2.7 mol UHDBT/mol reaction center for 50% inhibition of extent) is very similar to that of its inhibition of the antimycin-insensitive phase of ferricytochrome c re-reduction. UHDBT did not inhibit electron transfer between the reduced primary acceptor ubiquinone (Q?I) and the secondary acceptor ubiquinone (QII) of the reaction center acceptor complex. A mutant of Rps. capsulata, strain R126, lacked both the UHDBT and antimycin-sensitive phases of cytochrome c re-reduction, and ferricytochrome b50 reduction on flash excitation. (3) In the presence of antimycin, the initial rate of cytochrome b50 reduction increased about 10-fold as the Eh(7.0) was lowered below 180 mV. A plot of the rate at the fastest point in each trace against redox potential resembles the Nernst plot for a two-electron carrier with Em(7.0) ≈ 125 ± 15 mV. Following flash excitation there was a lag of 100–500 μs before cytochrome b50 reduction began. However, there was a considerably longer lag before significant reduction of cytochrome c by the antimycin-sensitive pathway occurred. (4) The herbicide ametryne inhibited electron transfer between Q?I and QII. It was an effective inhibitor of cytochrome b50 photoreduction at Eh(7.0) 390 mV, but not at Eh(7.0) 100 mV. At the latter Eh, low concentrations of ametryne inhibited turnover after one flash in only half of the photochemical reaction centers. By analogy with the response to o-phenanthroline, it is suggested that ametryne is ineffective at inhibiting electron transfer from Q?I to the secondary acceptor ubiquinone when the latter is reduced to the semiquinone form before excitation. (5) At Eh(7.0) > 200 mV, antimycin had a marked effect on the cytochrome b50 reduction-oxidation kinetics but not on the cytochrome c and reaction center changes or the slow phase III of the electrochromic carotenoid change on a 10-ms time scale. This observation appears to rule out a mechanism in which cytochrome b50 oxidation is obligatorily and kinetically linked to the antimycin-sensitive phase of cytochrome c reduction in a reaction involving transmembrane charge transfer at high Eh values. However, at lower redox potentials, cytochrome b50 oxidation is more rapid, and may be linked to the antimycin-sensitive reduction of cytochrome c. (6) It is concluded that neither a simple linear scheme nor a simple Q-cycle model can account adequately for all the observations. Future models will have to take account of a possible heterogeneity of redox chains resulting from the two-electron gate at the level of the secondary quinone, and of the involvement of cytochrome b?90 in the rapid reactions of the cyclic electron transfer chain 相似文献
105.
Previous analyses of both Thermus aquaticus MutS homodimer and Saccharomyces cerevisiae Msh2-Msh6 heterodimer have revealed that the subunits in these protein complexes bind and hydrolyze ATP asymmetrically, emulating their asymmetric DNA binding properties. In the MutS homodimer, one subunit (S1) binds ATP with high affinity and hydrolyzes it rapidly, while the other subunit (S2) binds ATP with lower affinity and hydrolyzes it at an apparently slower rate. Interaction of MutS with mismatched DNA results in suppression of ATP hydrolysis at S1-but which of these subunits, S1 or S2, makes specific contact with the mismatch (e.g., base stacking by a conserved phenylalanine residue) remains unknown. In order to answer this question and to clarify the links between the DNA binding and ATPase activities of each subunit in the dimer, we made mutations in the ATPase sites of Msh2 and Msh6 and assessed their impact on the activity of the Msh2-Msh6 heterodimer (in Msh2-Msh6, only Msh6 makes base specific contact with the mismatch). The key findings are: (a) Msh6 hydrolyzes ATP rapidly, and thus resembles the S1 subunit of the MutS homodimer, (b) Msh2 hydrolyzes ATP at a slower rate, and thus resembles the S2 subunit of MutS, (c) though itself an apparently weak ATPase, Msh2 has a strong influence on the ATPase activity of Msh6, (d) Msh6 binding to mismatched DNA results in suppression of rapid ATP hydrolysis, revealing a "cis" linkage between its mismatch recognition and ATPase activities, (e) the resultant Msh2-Msh6 complex, with both subunits in the ATP-bound state, exhibits altered interactions with the mismatch. 相似文献
106.
Natera SH Ford KL Cassin AM Patterson JH Newbigin EJ Bacic A 《Journal of proteome research》2008,7(3):1159-1187
To identify integral and peripheral plasma membrane (PM) proteins from Oryza sativa (rice), highly enriched PM fractions from rice suspension cultured cells were analyzed using two complementary approaches. The PM was enriched using aqueous two-phase partitioning and high pH carbonate washing to remove soluble, contaminating proteins and characterized using enzymatic and immunological analyses. Proteins from the carbonate-washed PM (WPM) were analyzed by either one-dimensional gel electrophoresis (1D-SDS-PAGE) followed by tryptic proteolysis or proteolysis followed by strong cation exchange liquid chromatography (LC) with subsequent analysis of the tryptic peptides by LC-MS/MS (termed Gel-LC-MS/MS and 2D-LC-MS/MS, respectively). Combining the results of these two approaches, 438 proteins were identified on the basis of two or more matching peptides, and a further 367 proteins were identified on the basis of single peptide matches after data analysis with two independent search algorithms. Of these 805 proteins, 350 were predicted to be PM or PM-associated proteins. Four hundred and twenty-five proteins (53%) were predicted to be integrally associated with a membrane, via either one or many (up to 16) transmembrane domains, a GPI-anchor, or membrane-spanning beta-barrels. Approximately 80% of the 805 identified proteins were assigned a predicted function, based on similarity to proteins of known function or the presence of functional domains. Proteins involved in PM-related activities such as signaling (21% of the 805 proteins), transporters and ATPases (14%), and cellular trafficking (8%), such as via vesicles involved in endo- and exocytosis, were identified. Proteins that are involved in cell wall biosynthesis were also identified (5%) and included three cellulose synthase (CESA) proteins, a cellulose synthase-like D (CSLD) protein, cellulases, and several callose synthases. Approximately 20% of the proteins identified in this study remained functionally unclassified despite being predicted to be membrane proteins. 相似文献
107.
Metabolism of D- and L-glyceraldehyde in adipose tissue: a stereochemical probe for glycerokinase activity 总被引:2,自引:0,他引:2
Distributions of (14)C have been determined in free glycerol, in glycerol from triglycerides, in glucose from glycogen, and in lactate after incubation of d-glyceraldehyde-3-(14)C and l-glyceraldehyde-3-(14)C with rat adipose tissue. The distributions are interpreted in terms of presently accepted possible reactions for the initial metabolism of glyceraldehyde. Formation of glycerol-1-(14)C from d-glyceraldehyde-3-(14)C indicates that in adipose tissue glyceraldehyde is reduced to glycerol. Incorporation of (14)C from d-glyceraldehyde-3-(14)C into carbon 3 of the glycerol of triglyceride indicates that d-glyceraldehyde is either phosphorylated or oxidized to d-glyceric acid, or both, in its initial metabolism. Incorporation of (14)C from l-glyceraldehyde-3-(14)C into carbon 3 of glycerol indicates that l-glyceraldehyde is reduced to glycerol, which is phosphorylated and (or) converted to d-glyceric acid via l-glyceric acid. Some (14)C from l-glyceraldehyde-3-(14)C is incorporated into carbon 1 of glycerol of triglycerides and carbon 4 of glycogen; the explanation for this incorporation is uncertain. 相似文献
108.
Antony Croxatto Guy Prod'hom Christian Durussel Gilbert Greub 《Journal of visualized experiments : JoVE》2014,(92)
Bloodstream infections and sepsis are a major cause of morbidity and mortality. The successful outcome of patients suffering from bacteremia depends on a rapid identification of the infectious agent to guide optimal antibiotic treatment. The analysis of Gram stains from positive blood culture can be rapidly conducted and already significantly impact the antibiotic regimen. However, the accurate identification of the infectious agent is still required to establish the optimal targeted treatment. We present here a simple and fast bacterial pellet preparation from a positive blood culture that can be used as a sample for several essential downstream applications such as identification by MALDI-TOF MS, antibiotic susceptibility testing (AST) by disc diffusion assay or automated AST systems and by automated PCR-based diagnostic testing. The performance of these different identification and AST systems applied directly on the blood culture bacterial pellets is very similar to the performance normally obtained from isolated colonies grown on agar plates. Compared to conventional approaches, the rapid acquisition of a bacterial pellet significantly reduces the time to report both identification and AST. Thus, following blood culture positivity, identification by MALDI-TOF can be reported within less than 1 hr whereas results of AST by automated AST systems or disc diffusion assays within 8 to 18 hr, respectively. Similarly, the results of a rapid PCR-based assay can be communicated to the clinicians less than 2 hr following the report of a bacteremia. Together, these results demonstrate that the rapid preparation of a blood culture bacterial pellet has a significant impact on the identification and AST turnaround time and thus on the successful outcome of patients suffering from bloodstream infections. 相似文献
109.
Gaffney PM Pierce JC Mackinley AG Titchen DA Glenn WK 《Journal of molecular evolution》2003,56(3):308-316
Abstract
While genome sequencing projects have discovered numerous types of transposable elements in diverse eukaryotes, there are
many taxa of ecological and evolutionary significance that have received little attention, such as the molluscan class Bivalvia.
Examination of a 0.7-MB genomic sequence database from the cupped oyster Crassostrea virginica revealed the presence of a common interspersed element, CvA. CvA possesses subterminal inverted repeats, a tandemly repeated
core element, a tetranucleotide microsatellite region, and the ability to form stable secondary structures. Three other less
abundant repetitive elements with a similar structure but little sequence similarity were also found in C. virginica. Ana-1, a repetitive element with similar features, was discovered in the blood ark Anadara trapezia by probing a genomic library with a dimeric repeat element contained in intron 2 of a minor globin gene in that species.
All of these elements are flanked by the dinucleotide AA, a putative target-site duplication. They exhibit structural similarity
to the sea urchin Tsp family and Drosophila
SGM insertion sequences; in addition, they possess regions of sequence similarity to satellite DNA from several bivalve species.
We suggest that the Crassostrea repetitive elements and Ana-1 are members of a new MITE-like family of nonautonomous transposable elements, named pearl. Pearl is the first putative nonautonomous DNA transposon to be identified in the phylum Mollusca. 相似文献
110.