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51.
The changes in electron transport within photosystem I (PSI) were studied in detached leaves of Cucumis sativus L. during the course of irradiation with moderate white light (300 mol photons m–2 s–1) at 4°C. When intact leaves were exposed to the combination of moderate light and low temperature, the amplitude of far-red light-induced P700 absorbance changes at 820 nm (A820), a relative measure of PSI, progressively decreased as the light treatment time increased. Almost no oxidation of P700 was noticeable after 5 h. Methyl viologen accelerated the oxidation of P700 to a steady-state level and also increased the magnitudes of A820 changes in photoinhibited leaves, reflecting the rapid removal of electrons from native carriers. Photoinhibition under moderate light and chilling temperature also accelerated the rate of P700+ reduction after far-red light excitation as the half-times of the two exponential components of P700+ decay curves decreased relative to the control ones. A detailed analysis of the kinetics of P700+ reduction using diuron alone or the combination of diuron and methyl viologen strongly favours an increased rate of electron donation from stromal reductants to PSI through the plastoquinone pool following photoinhibitory treatment. Importantly, the marked acceleration of P700+ re-reduction is the consequence of the irradiation of leaf segments at low temperature and not caused by chilling stress alone.Abbreviations
A
0
and A
1
Primary acceptor chlorophyll and secondary electron acceptor phylloquinone
-
FR
Far-red light
-
F
X
, F
A
, and F
B
Iron–sulfur centers
-
MT
Multiple-turnover flash
-
MV
Methyl viologen
-
Ndh
NAD(P)H-dehydrogenase
-
PQ
Plastoquinone
-
PS
Photosystem
-
P700
Reaction-center chlorophyll of PSI
-
ST
Single-turnover flash 相似文献
52.
53.
54.
We have developed a general route to the synthesis of novel amino linker and spacer phosphoramidites utilizing methoxyoxalamido (MOX) chemistry. The synthesis makes use of readily available and inexpensive primary aliphatic amino alcohols and diamines to produce a rich and diverse variety of phosphoramidites. Among these are monomers with exceptionally long (up to 56 atoms in length) amphipathic tethering arms. The chemistry bestows exceptional control over the physical characteristics within the tethers through the selection of appropriate building blocks. Furthermore, MOX chemistry enables fairly rapid assembly of these discrete-length tethers in a modular fashion. All novel phosphoramidites were successfully used in automated syntheses of 5'-modified oligonucleotides. 相似文献
55.
Bidirectional replication from an internal ori site of the linear N15 plasmid prophage 总被引:4,自引:0,他引:4 下载免费PDF全文
The prophage of coliphage N15 is not integrated into the chromosome but exists as a linear plasmid molecule with covalently closed hairpin ends (telomeres). Upon infection the injected phage DNA circularizes via its cohesive ends. Then, a phage-encoded enzyme, protelomerase, cuts the circle and forms the hairpin telomeres. N15 protelomerase acts as a telomere-resolving enzyme during prophage DNA replication. We characterized the N15 replicon and found that replication of circular N15 miniplasmids requires only the repA gene, which encodes a multidomain protein homologous to replication proteins of bacterial plasmids replicated by a theta-mechanism. Replication of a linear N15 miniplasmid also requires the protelomerase gene and telomere regions. N15 prophage replication is initiated at an internal ori site located within repA and proceeds bidirectionally. Electron microscopy data suggest that after duplication of the left telomere, protelomerase cuts this site generating Y-shaped molecules. Full replication of the molecule and subsequent resolution of the right telomere then results in two linear plasmid molecules. N15 prophage replication thus appears to follow a mechanism that is distinct from that employed by eukaryotic replicons with this type of telomere and suggests the possibility of evolutionarily independent appearances of prokaryotic and eukaryotic replicons with covalently closed telomeres. 相似文献
56.
Nordsborg N Mohr M Pedersen LD Nielsen JJ Langberg H Bangsbo J 《American journal of physiology. Regulatory, integrative and comparative physiology》2003,285(1):R143-R148
Interstitial K+ ([K+]i) was measured in human skeletal muscle by microdialysis during exhaustive leg exercise, with (AL) and without (L) previous intense arm exercise. In addition, the reproducibility of the [K+]i determinations was examined. Possible microdialysis-induced rupture of the sarcolemma was assessed by measurement of carnosine in the dialysate, because carnosine is only expected to be found intracellularly. Changes in [K+]i could be reproduced, when exhaustive leg exercise was performed on two different days, with a between-day difference of approximately 0.5 mM at rest and 1.5 mM at exhaustion. The time to exhaustion was shorter in AL than in L (2.7 +/- 0.3 vs. 4.0 +/- 0.3 min; P < 0.05). Furthermore, [K+]i was higher from 0 to 1.5 min of the intense leg exercise period in AL compared with L (9.2 +/- 0.7 vs. 6.4 +/- 0.9 mM; P < 0.001) and at exhaustion (11.9 +/- 0.5 vs. 10.3 +/- 0.6 mM; P < 0.05). The dialysate content of carnosine was elevated by exercise, but low-intensity exercise resulted in higher dialysate carnosine concentrations than subsequent intense exercise. Furthermore, no relationship was found between carnosine concentrations and [K+]i. Thus the present data suggest that microdialysis can be used to determine muscle [K+]i kinetics during intense exercise, when low-intensity exercise is performed before the intense exercise. The high [K+]i levels reached at exhaustion can be expected to cause fatigue, which is supported by the finding that a faster accumulation of interstitial K+, induced by prior arm exercise, was associated with a reduced time to fatigue. 相似文献
57.
Active partition of the F plasmid to dividing daughter cells is assured by interactions between proteins SopA and SopB, and a centromere, sopC. A close homologue of the sop operon is present in the linear prophage N15 and, together with sopC-like sequences, it ensures stability of this replicon. We have exploited this sequence similarity to construct hybrid sop operons with the aim of locating specific interaction determinants within the SopA and SopB proteins that are needed for partition function and for autoregulation of sopAB expression. Centromere binding was found to be specified entirely by a central 25 residue region of SopB strongly predicted to form a helix-turn-helix structure. SopB protein also carries a species-specific SopA-interaction determinant within its N-terminal 45 amino acids, and, as shown by Escherichia coli two-hybrid analysis, a dimerization domain within its C-terminal 75 (F) or 97 (N15) residues. Promoter-operator binding specificity was located within an N-terminal 66 residue region of SopA, which is predicted to contain a helix-turn-helix motif. Two other regions of SopA protein, one next to the ATPase Walker A-box, the other C-terminal, specify interaction with SopB. Yeast two-hybrid analysis indicated that these regions contact SopB directly. Evidence for the involvement of the SopA N terminus in autoinhibition of SopA function was obtained, revealing a possible new aspect of the role of SopB in SopA activation. 相似文献
58.
A novel gain-of-function mutation, R243Q, has been recently identified in the Candida elegans Gqalpha protein EGL-30. The position corresponding to Arg243 in EGL-30 is absolutely conserved among heterotrimeric G proteins. This mutation appears to be the first gain-of-function mutation in the switch III region of Galpha subunits. To investigate consequences of the R-->Q mutation we introduced the corresponding R238Q mutation into transducin-like Gtalpha* subunit. The mutant retained intact interactions with Gtbetagamma and rhodopsin but exhibited a twofold reduction in the kcat value for guanosine 5'-triphosphate (GTP) hydrolysis. The GTPase activity of R238Q was not accelerated by the RGS domain of the visual GTPase-activating protein, RGS9-1. In addition, R238Q displayed a significant impairment in the effector function. Our data and the crystal structures of transducin suggest that the major reason for the reduced intrinsic GTPase activity of R238Q and the lack of RGS9 function is the break of the conserved ionic contact between Arg238 and Glu39, which apparently stabilizes the transitional state for GTP hydrolysis. We hypothesize that the R243Q mutation in EGL-30 severs the ionic interaction of Arg243 with Glu43, leading to a defective inactivation of the mutant by the C. elegans RGS protein EAT-16. 相似文献
59.
Natochin M Gasimov KG Moussaif M Artemyev NO 《The Journal of biological chemistry》2003,278(39):37574-37581
Three cytoplasmic loops in the G protein-coupled receptor rhodopsin, C2, C3, and C4, have been implicated as key sites for binding and activation of the visual G protein transducin. Non-helical portions of the C2- and C3-loops and the cytoplasmic helix-8 from the C4 loop were targeted for a "gain-of-function" mutagenesis to identify rhodopsin residues critical for transducin activation. Mutant opsins with residues 140-148 (C2-loop), 229-244 (C3-loop), or 310-320 (C4-loop) substituted by poly-Ala sequences of equivalent lengths served as templates for mutagenesis. The template mutants with poly-Ala substitutions in the C2- and C3-loops formed the 500-nm absorbing pigments but failed to activate transducin. Reverse substitutions of the Ala residues by rhodopsin residues have been generated in each of the templates. Significant ( approximately 50%) restoration of the rhodopsin/transducin coupling was achieved with re-introduction of residues Cys140/Lys141 and Arg147/Phe148 into the C2 template. The reverse substitutions of the C3-loop residues Thr229/Val230 and Ser240/Thr242/Thr243/Gln244 produced a pigment with a full capacity for transducin activation. The C4 template mutant was unable to bind 11-cis-retinal, and the presence of Asn310/Lys311 was required for correct folding of the protein. Subsequent mutagenesis of the C4-loop revealed the role of Phe313 and Met317. On the background of Asn310/Lys311, the inclusion of Phe313 and Met317 produced a mutant pigment with the potency of transducin activation equal to that of the wild-type rhodopsin. Overall, our data support the role of the three cytoplasmic loops of rhodopsin and suggest that residues adjacent to the transmembrane helices are most important for transducin activation. 相似文献
60.
Light modulation of the ability of three artificial quinones, 2,5-dibromo-3-methyl-6-isopropyl-p-benzoquinone (DBMIB), 2,6-dichloro-p-benzoquinone (DCBQ), and tetramethyl-p-benzoquinone (duroquinone), to quench chlorophyll (Chl) fluorescence photochemically or non-photochemically was studied to simulate the functions of endogenous plastoquinones during the thermal phase of fast Chl fluorescence induction kinetics. DBMIB was found to suppress by severalfold the basal level of Chl fluorescence (F(o)) and to markedly retard the light-induced rise of variable fluorescence (F(v)). After irradiation with actinic light, Chl fluorescence rapidly dropped down to the level corresponding to F(o) level in untreated thylakoids and then slowly declined to the initial level. DBMIB was found to be an efficient photochemical quencher of energy in Photosystem II (PSII) in the dark, but not after prolonged irradiation. Those events were owing to DBMIB reduction under light and its oxidation in the dark. At high concentrations, DCBQ exhibited quenching behaviours similar to those of DBMIB. In contrast, duroquinone demonstrated the ability to quench F(v) at low concentration, while F(o) was declined only at high concentrations of this artificial quinone. Unlike for DBMIB and DCBQ, quenched F(o) level was attained rapidly after actinic light had been turned off in the presence of high duroquinone concentrations. That finding evidenced that the capacity of duroquinone to non-photochemically quench excitation energy in PSII was maintained during irradiation, which is likely owing to the rapid electron transfer from duroquinol to Photosystem I (PSI). It was suggested that DBMIB and DCBQ at high concentration, on the one hand, and duroquinone, on the other hand, mimic the properties of plastoquinones as photochemical and non-photochemical quenchers of energy in PSII under different conditions. The first model corresponds to the conditions under which the plastoquinone pool can be largely reduced (weak electron release from PSII to PSI compared to PSII-driven electron flow from water under strong light and weak PSI photochemical capacity because of inactive electron transport on its reducing side), while the second one mimics the behaviour of the plastoquinone pool when it cannot be filled up with electrons (weak or moderate light and high photochemical competence of PSI). 相似文献