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991.
The spectral forms of the two chlorophyll species in higher plant Photosystem II antenna proteins have been experimentally determined within their protein environment. Recombinant CP29 and LHC II antenna proteins missing individual chromophores were obtained by over-expression in bacteria without any changing of the primary protein sequence and in vitro reconstitution. Difference absorption spectroscopy with respect to the corresponding proteins binding the complete pigment complement yielded the spectral shape and extinction of single chlorophyll a and b. A functional relation of their absorption was given by Gaussian subband decomposition covering the entire Qx and Qy optical region together with the absolute value of the molar extinction coefficient. With respect to analogous determinations reported in the literature for organic solvents, this information is valuable for further understanding the in-protein chlorophyll excited states and excited state dynamics: in particular, for the calculation of Förster transfer rates by means of chlorophyll–chlorophyll overlap integral employing the Stepanov relation for emission and single chromophore transition energies according to the results of mutational analysis of chlorophyll binding sites [Bassi et al. (1999) Proc Natl Acad Sci USA 96: 10056–10061; Remelli et al. (1999) J Biol Chem 274: 33510–33521]. 相似文献
992.
Although the existence of 0.2 μm filterable bacteria has been known since the early 80's, they are not taken into consideration when modeling microbial food webs, due to an overall lack of information concerning this specific size class. According to physiological studies on starvation forms and investigations on small bacterial cells in marine ecosystems, a 0.2 μm filtrate may consist of different phenotypes: starvation forms of typical marine bacteria, ultramicrobacteria or bacterial cells, even larger than 0.2 μm, but flexible enough to pass the nominal filter pore-size. In this pilot study we examined three filtered seawater fractions from the Western Mediterranean Sea (Bay of Calvi, Corsica/France) - the total bacterial population, the bacterial fraction above 0.2 μm and the 0.2 μm filtrate - to investigate the bacterial community structure of each of those fractions by the molecular approach of denaturing gradient gel electrophoresis (DGGE) of 16S rDNA fragments. The analysis of the resulting DGGE profiles revealed different patterns of dominant bands for the 0.2 μm filterable and the total bacterial populations within the samples. Additionally the 0.2 μm filterable bacterial compartment exhibited obvious differences in band patterns for winter and summer samples, which were not observed for the total bacterial fraction. According to the current knowledge concerning the status of 0.2 μm filterable bacteria, DGGE patterns indicate that most of the fragments representing 0.2 μm filterable bacteria were rather starvation forms of marine bacteria than ultramicrobacteria. The sequencing of excised and cloned DNA bands of the DGGE profiles characterized the phylogenetic affiliation of the corresponding 0.2 μm filterable bacteria, clustering mainly with known, typical marine isolates of both alpha-subclass and gamma-subclass of the Proteobacteria and the Cytophaga-Flavobacterium-Bacteroides branch. 相似文献
993.
Form of aluminium for uptake and translocation in buckwheat (Fagopyrum esculentum Moench) 总被引:5,自引:0,他引:5
The forms of Al for uptake by the roots and translocation from the root to the shoot were investigated in a buckwheat (Fagopyrum esculentum Moench, cv. Jianxi) that accumulates Al in its leaves. The Al concentration in the xylem sap was 15-fold higher in the plants
exposed to AlCl3 than in those exposed to an Al-oxalate (1:3) complex, suggesting that the roots take up Al in the ionic form. The Al concentration
in the xylem sap was 4-fold higher than that in the external solution after a 1-h exposure to AlCl3 solution and 10-fold higher after a 2-h exposure. The Al concentration in the xylem sap increased with increasing Al concentration
in the external solution. The Al uptake was not affected by a respiratory inhibitor, hydroxylamine, but significantly inhibited
by the addition of La. These results suggest that Al uptake by the root is a passive process, and La3+ competes for the binding sites for Al3+ on the plasma membrane. The form of Al in the xylem sap was identified by 27Al-nuclear magnetic resonance analysis. The chemical shift of 27Al in the xylem sap was around 10.9 ppm, which is consistent with that of the Al-citrate complex. Furthermore, the dominant
organic acid in the xylem sap was citric acid, indicating that Al was translocated in the form of Al-citrate complex. Because
Al is present as Al-oxalate (1:3) in the root, the present data show that ligand exchange from oxalate to citrate occurs before
Al is released to xylem.
Received: 10 December 1999 / Accepted: 3 February 2000 相似文献
994.
Human thioredoxin reductase (hTrxR) is a homodimeric flavoprotein crucially involved in the regulation of cellular redox reactions, growth and differentiation. The enzyme contains a selenocysteine residue at its C-terminal active site that is essential for catalysis. This redox center is located on a flexible arm, solvent-exposed and reactive towards electrophilic inhibitors, thus representing a target for antitumor drug development. During catalysis reducing equivalents are transferred from the cofactor NADPH to FAD, then to the N-terminal active site cysteine residues and from there to the flexible C-terminal part of the other subunit to be finally delivered to a variety of second substrates at the molecule's surface. Here we report the first crystal structure of hTrxR1 (Sec-->Cys) in complex with FAD and NADP(+) at a resolution of 2.8 A. From the crystals three different conformations of the carboxy-terminal arm could be deduced. The predicted movement of the arm is facilitated by the concerted action of the three side-chain residues of N418, N419 and W407, which act as a guiding bar for the C-terminal sliding process. As supported by previous kinetic data, the three visualized conformations might reflect different stages in enzymatic catalysis. Comparison with other disulfide reductases including human glutathione reductase revealed specific inhibitor binding sites in the intersubunit cavity of hTrxR that can be exploited for structure-based inhibitor development. 相似文献
995.
Coudevylle N Antoine M Bouguet-Bonnet S Mutzenhardt P Boschi-Muller S Branlant G Cung MT 《Journal of molecular biology》2007,366(1):193-206
Methionine sulfoxide reductases (Msr) reduce methionine sulfoxide (MetSO)-containing proteins, back to methionine (Met). MsrAs are stereospecific for the S epimer whereas MsrBs reduce the R epimer of MetSO. Although structurally unrelated, the Msrs characterized so far display a similar catalytic mechanism with formation of a sulfenic intermediate on the catalytic cysteine and a concomitant release of Met, followed by formation of at least one intramolecular disulfide bond (between the catalytic and a recycling cysteine), which is then reduced by thioredoxin. In the case of the MsrA from Escherichia coli, two disulfide bonds are formed, i.e. first between the catalytic Cys51 and the recycling Cys198 and then between Cys198 and the second recycling Cys206. Three crystal structures including E. coli and Mycobacterium tuberculosis MsrAs, which, for the latter, possesses only the unique recycling Cys198, have been solved so far. In these structures, the distances between the cysteine residues involved in the catalytic mechanism are too large to allow formation of the intramolecular disulfide bonds. Here structural and dynamical NMR studies of the reduced wild-type and the oxidized (Cys51-Cys198) forms of C86S/C206S MsrA from E. coli have been carried out. The mapping of MetSO substrate-bound C51A MsrA has also been performed. The data support (1) a conformational switch occurring subsequently to sulfenic acid formation and/or Met release that would be a prerequisite to form the Cys51-Cys198 bond and, (2) a high mobility of the C-terminal part of the Cys51-Cys198 oxidized form that would favor formation of the second Cys198-Cys206 disulfide bond. 相似文献
996.
997.
998.
Shiwei Guo Qirong Shen Holger Brueckt 《植物学报(英文版)》2007,49(4):472-480
To study the effects of local nitrogen supply on water and nutrient absorption, French bean (Phaseolus vulgaris L.) plants were grown in a split root system. Five treatments supplied with different nitrogen forms were compared: homogeneous nitrate (NN) and homogenous ammonium (AA) supply, spatially separated supply of nitrate and ammonium (NA), half of the root system supplied with N-free nutrient solution, the other half with either nitrate (NO) or ammonium (AO). The results showed that 10 d after onset of treatments, root dry matter (DM) in the nitratesupplied vessels treated with NA was more than two times higher than that in the ammonium-supplied vessels. Water uptake from the nitrate-supplied vessels treated with NA was 281% higher than under ammonium supply. In treatments NO and AO, the local supply of N resulted in clearly higher root DM, and water uptake from the nitratesupplied vessels was 82% higher than in the -N vessels. However, in AO plants, water uptake from the -N nutrient solution was 129% higher than from the ammonium-supplied vessels. This indicates a compensatory effect, which resulted in almost identical rates of total water uptake of treatments AA and AO, which had comparable shoot DM and leaf area. Ammonium supply reduced potassium and magnesium absorption. Water uptake was positively correlated with N, Mg and K uptake. 相似文献
999.
Benjamin C. Haller Jared Galloway Jerome Kelleher Philipp W. Messer Peter L. Ralph 《Molecular ecology resources》2019,19(2):552-566
There is an increasing demand for evolutionary models to incorporate relatively realistic dynamics, ranging from selection at many genomic sites to complex demography, population structure, and ecological interactions. Such models can generally be implemented as individual‐based forward simulations, but the large computational overhead of these models often makes simulation of whole chromosome sequences in large populations infeasible. This situation presents an important obstacle to the field that requires conceptual advances to overcome. The recently developed tree‐sequence recording method (Kelleher, Thornton, Ashander, & Ralph, 2018), which stores the genealogical history of all genomes in the simulated population, could provide such an advance. This method has several benefits: (1) it allows neutral mutations to be omitted entirely from forward‐time simulations and added later, thereby dramatically improving computational efficiency; (2) it allows neutral burn‐in to be constructed extremely efficiently after the fact, using “recapitation”; (3) it allows direct examination and analysis of the genealogical trees along the genome; and (4) it provides a compact representation of a population's genealogy that can be analysed in Python using the msprime package. We have implemented the tree‐sequence recording method in SLiM 3 (a free, open‐source evolutionary simulation software package) and extended it to allow the recording of non‐neutral mutations, greatly broadening the utility of this method. To demonstrate the versatility and performance of this approach, we showcase several practical applications that would have been beyond the reach of previously existing methods, opening up new horizons for the modelling and exploration of evolutionary processes. 相似文献
1000.
Whole‐genome resequencing uncovers molecular signatures of natural and sexual selection in wild bighorn sheep 下载免费PDF全文
Marty Kardos Gordon Luikart Rowan Bunch Sarah Dewey William Edwards Sean McWilliam John Stephenson Fred W. Allendorf John T. Hogg James Kijas 《Molecular ecology》2015,24(22):5616-5632
The identification of genes influencing fitness is central to our understanding of the genetic basis of adaptation and how it shapes phenotypic variation in wild populations. Here, we used whole‐genome resequencing of wild Rocky Mountain bighorn sheep (Ovis canadensis) to >50‐fold coverage to identify 2.8 million single nucleotide polymorphisms (SNPs) and genomic regions bearing signatures of directional selection (i.e. selective sweeps). A comparison of SNP diversity between the X chromosome and the autosomes indicated that bighorn males had a dramatically reduced long‐term effective population size compared to females. This probably reflects a long history of intense sexual selection mediated by male–male competition for mates. Selective sweep scans based on heterozygosity and nucleotide diversity revealed evidence for a selective sweep shared across multiple populations at RXFP2, a gene that strongly affects horn size in domestic ungulates. The massive horns carried by bighorn rams appear to have evolved in part via strong positive selection at RXFP2. We identified evidence for selection within individual populations at genes affecting early body growth and cellular response to hypoxia; however, these must be interpreted more cautiously as genetic drift is strong within local populations and may have caused false positives. These results represent a rare example of strong genomic signatures of selection identified at genes with known function in wild populations of a nonmodel species. Our results also showcase the value of reference genome assemblies from agricultural or model species for studies of the genomic basis of adaptation in closely related wild taxa. 相似文献