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Aliaksandr Kolbas Lilian Marchand Rolf Herzig Erika Nehnevajova Michel Mench 《Plant and Soil》2014,376(1-2):377-397
Background and aims
The potential use of a metal-tolerant sunflower mutant line for both biomonitoring and phytoremediating a Cu-contaminated soil series was investigated.Methods
The soil series (21–1,170 mg Cu kg?1) was sampled in field plots at control and wood preservation sites. Sunflowers were cultivated 1 month in potted soils under controlled conditions.Results
pH and dissolved organic matter influenced Cu concentration in the soil pore water. Leaf chlorophyll content and root growth decreased as Cu exposure rose. Their EC10 values corresponded to 104 and 118 μg Cu L?1 in the soil pore water, 138 and 155 mg Cu kg?1 for total soil Cu, and 16–18 mg Cu kg?1 DW shoot. Biomass of plant organs as well as leaf area, length and asymmetry were well correlated with Cu exposure, contrary to the maximum stem height and leaf water content.Conclusions
Physiological parameters were more sensitive to soil Cu exposure than the morphological ones. Bioconcentration and translocation factors and distribution of mineral masses for Cu highlighted this mutant as a secondary Cu accumulator. Free Cu2+ concentration in soil pore water best predicted Cu phytoavailability. The usefulness of this sunflower mutant line for biomonitoring and Cu phytoextraction was discussed. 相似文献2.
The photosynthetic charge separation in bacterial reaction centers occurs predominantly along one of two nearly symmetric branches of cofactors. Low-temperature EPR spectra of the triplet states of the chlorophyll and carotenoid pigments in the reaction center of Rhodobacter sphaeroides R-26.1, 2.4.1 and two double-mutants GD(M203)/AW(M260) and LH(M214)/AW(M260) have been recorded at 34 GHz to investigate the relative activities of the "A" and "B" branches. The triplet states are found to derive from radical pair and intersystem crossing mechanisms, and the rates of formation are anisotropic. The former mechanism is operative for Rb. sphaeroides R-26.1, 2.4.1, and mutant GD(M203)/AW(M260) and indicates that A-branch charge separation proceeds at temperatures down to 10 K. The latter mechanism, derived from the spin polarization and operative for mutant LH(M214)/AW(M260), indicates that no long-lived radical pairs are formed upon direct excitation of the primary donor and that virtually no charge separation at the B-branch occurs at low temperatures. When the temperature is raised above 30 K, B-branch charge separation is observed, which is at most 1% of A-branch charge separation. B-branch radical pair formation can be induced at 10 K with low yield by direct excitation of the bacteriopheophytin of the B-branch at 590 nm. The formation of a carotenoid triplet state is observed. The rate of formation depends on the orientation of the reaction center in the magnetic field and is caused by a magnetic field dependence of the oscillation frequency by which the singlet and triplet radical pair precursor states interchange. Combination of these findings with literature data provides strong evidence that the thermally activated transfer step on the B-branch occurs between the primary donor, P865, and the accessory bacteriochlorophyll, whereas this step is barrierless down to 10 K along the A-branch. 相似文献
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Primordial germ cell (PGC) development in Xenopus embryos relies on localised maternal determinants. We report on the identification and functional characterisation of such one novel activity, a germ plasm associated mRNA encoding for the Xenopus version of a kinesin termed KIF13B. Modulations of xKIF13B function result in germ cell mismigration and in reduced numbers of such cells. PGCs explanted from Xenopus embryos form bleb-like protrusions enriched in PIP3. Knockdown of xKIF13B results in inhibition of blebbing and PIP3 accumulation. Interference with PIP3 synthesis leads to PGC mismigration in vivo and in vitro. We propose that xKIF13B function is linked to polarized accumulation of PIP3 and directional migration of the PGCs in Xenopus embryos. 相似文献
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Aliaksandr Hubarevich Mikita Marus Weijun Fan Aliaksandr Smirnov Hong Wang 《Plasmonics (Norwell, Mass.)》2018,13(1):141-145
Nano-porous ultrathin plasmonic insulator-metal-insulator-metal (IMIM) solar cell with high power conversion efficiency up to 7% in broad wavelength range from 300 to 750 nm was theoretically studied. The proposed IMIM design allows to choose various bottom insulators with desired barrier height of metal-insulator interface due to independence of the total absorbance on the bottom insulator. IMIM structure shows 73.8% difference in the average absorbance between the top and bottom metal layers with 1-nm bottom insulator. Moreover, the incident light decreases the absorbance negligibly up to 35 degrees for both TE and TM modes and by 17.5% at 70 degrees. Furthermore, the absorption between TE and TM modes differs by less than 5%, which indicates the structure as polarization independent. Our results indicate IMIM design benefit in plasmonic solar cells demanding low thickness, flexibility, low-cost, and polarization independence. Moreover, this structure can be implemented for integrated optical circuits as well as for solar thermoelectric generator. 相似文献
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Aliaksandr A. Halavatyi Petr V. Nazarov Ziad Al Tanoury Vladimir V. Apanasovich Mikalai Yatskou Evelyne Friederich 《European biophysics journal : EBJ》2010,39(4):669-677
A novel mathematical model of the actin dynamics in living cells under steady-state conditions has been developed for fluorescence
recovery after photobleaching (FRAP) experiments. As opposed to other FRAP fitting models, which use the average lifetime
of actins in filaments and the actin turnover rate as fitting parameters, our model operates with unbiased actin association/dissociation
rate constants and accounts for the filament length. The mathematical formalism is based on a system of stochastic differential
equations. The derived equations were validated on synthetic theoretical data generated by a stochastic simulation algorithm
adapted for the simulation of FRAP experiments. Consistent with experimental findings, the results of this work showed that
(1) fluorescence recovery is a function of the average filament length, (2) the F-actin turnover and the FRAP are accelerated
in the presence of actin nucleating proteins, (3) the FRAP curves may exhibit both a linear and non-linear behaviour depending
on the parameters of actin polymerisation, and (4) our model resulted in more accurate parameter estimations of actin dynamics
as compared with other FRAP fitting models. Additionally, we provide a computational tool that integrates the model and that
can be used for interpretation of FRAP data on actin cytoskeleton. 相似文献
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Tongqing Zhou Jiang Zhu Yongping Yang Jason Gorman Gilad Ofek Sanjay Srivatsan Aliaksandr Druz Christopher R. Lees Gabriel Lu Cinque Soto Jonathan Stuckey Dennis R. Burton Wayne C. Koff Mark Connors Peter D. Kwon 《PloS one》2014,9(7)
One strategy for isolating or eliciting antibodies against a specific target region on the envelope glycoprotein trimer (Env) of the human immunodeficiency virus type 1 (HIV-1) involves the creation of site transplants, which present the target region on a heterologous protein scaffold with preserved antibody-binding properties. If the target region is a supersite of HIV-1 vulnerability, recognized by a collection of broadly neutralizing antibodies, this strategy affords the creation of “supersite transplants”, capable of binding (and potentially eliciting) antibodies similar to the template collection of effective antibodies. Here we transplant three supersites of HIV-1 vulnerability, each targeted by effective neutralizing antibodies from multiple donors. To implement our strategy, we chose a single representative antibody against each of the target supersites: antibody 10E8, which recognizes the membrane-proximal external region (MPER) on the HIV-1 gp41 glycoprotein; antibody PG9, which recognizes variable regions one and two (V1V2) on the HIV-1 gp120 glycoprotein; and antibody PGT128 which recognizes a glycopeptide supersite in variable region 3 (glycan V3) on gp120. We used a structural alignment algorithm to identify suitable acceptor proteins, and then designed, expressed, and tested antigenically over 100-supersite transplants in a 96-well microtiter-plate format. The majority of the supersite transplants failed to maintain the antigenic properties of their respective template supersite. However, seven of the glycan V3-supersite transplants exhibited nanomolar affinity to effective neutralizing antibodies from at least three donors and recapitulated the mannose9-N-linked glycan requirement of the template supersite. The binding of these transplants could be further enhanced by placement into self-assembling nanoparticles. Essential elements of the glycan V3 supersite, embodied by as few as 3 N-linked glycans and ∼25 Env residues, can be segregated into acceptor scaffolds away from the immune-evading capabilities of the rest of HIV-1 Env, thereby providing a means to focus the immune response on the scaffolded supersite. 相似文献
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Members of the gamma2-herpesvirus family encode cyclin-like proteins that have the ability to deregulate mammalian cell cycle control. Here we report the key features of the viral cyclin encoded by Murine Herpesvirus 68, M cyclin. M cyclin preferentially associated with and activated cdk2; the M cyclin/cdk2 holoenzyme displayed a strong reliance on phosphorylation of the cdk T loop for activity. cdk2 associated with M cyclin exhibited substantial resistance to the cdk inhibitor proteins p21(Cip) and p27(Kip). Furthermore, M cyclin directed cdk2 to phosphorylate p27(Kip1) on threonine 187 (T187) and cellular expression of M cyclin led to down-regulation of p27(Kip1) and the partial subversion of the associated G1 arrest. Mutation of T187 to a non-phosphorylatable alanine rendered the p27(Kip1)-imposed G1 arrest resistant to M cyclin expression. Unlike the related K cyclin, M cyclin was unable to circumvent the G1 arrest associated with p21(Cip1) and was unable to direct its associated catalytic subunit to phosphorylate this cdk inhibitor. These results imply that M cyclin has properties that are distinct from other viral cyclins and that M cyclin expression alone is insufficient for S phase entry. 相似文献