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41.
Kevin Carvalho Jo?l Lemière Fahima Faqir John Manzi Laurent Blanchoin Julie Plastino Timo Betz Cécile Sykes 《Philosophical transactions of the Royal Society of London. Series B, Biological sciences》2013,368(1629)
Cells use complex biochemical pathways to drive shape changes for polarization and movement. One of these pathways is the self-assembly of actin filaments and myosin motors that together produce the forces and tensions that drive cell shape changes. Whereas the role of actin and myosin motors in cell polarization is clear, the exact mechanism of how the cortex, a thin shell of actin that is underneath the plasma membrane, can drive cell shape changes is still an open question. Here, we address this issue using biomimetic systems: the actin cortex is reconstituted on liposome membranes, in an ‘outside geometry’. The actin shell is either grown from an activator of actin polymerization immobilized at the membrane by a biotin–streptavidin link, or built by simple adsorption of biotinylated actin filaments to the membrane, in the presence or absence of myosin motors. We show that tension in the actin network can be induced either by active actin polymerization on the membrane via the Arp2/3 complex or by myosin II filament pulling activity. Symmetry breaking and spontaneous polarization occur above a critical tension that opens up a crack in the actin shell. We show that this critical tension is reached by growing branched networks, nucleated by the Arp2/3 complex, in a concentration window of capping protein that limits actin filament growth and by a sufficient number of motors that pull on actin filaments. Our study provides the groundwork to understanding the physical mechanisms at work during polarization prior to cell shape modifications. 相似文献
42.
Wheat is undoubtedly one of the world's major food sources since the dawn of Near Eastern agriculture and up to the present day. Morphological, physiological, and genetic modifications involved in domestication and subsequent evolution under domestication were investigated in a tetraploid recombinant inbred line population, derived from a cross between durum wheat and its immediate progenitor wild emmer wheat. Experimental data were used to test previous assumptions regarding a protracted domestication process. The brittle rachis (Br) spike, thought to be a primary characteristic of domestication, was mapped to chromosome 2A as a single gene, suggesting, in light of previously reported Br loci (homoeologous group 3), a complex genetic model involved in spike brittleness. Twenty-seven quantitative trait loci (QTLs) conferring threshability and yield components (kernel size and number of kernels per spike) were mapped. The large number of QTLs detected in this and other studies suggests that following domestication, wheat evolutionary processes involved many genomic changes. The Br gene did not show either genetic (co-localization with QTLs) or phenotypic association with threshability or yield components, suggesting independence of the respective loci. It is argued here that changes in spike threshability and agronomic traits (e.g. yield and its components) are the outcome of plant evolution under domestication, rather than the result of a protracted domestication process. Revealing the genomic basis of wheat domestication and evolution under domestication, and clarifying their inter-relationships, will improve our understanding of wheat biology and contribute to further crop improvement. 相似文献
43.
Rasheduzzaman Rashu Taufiqur Rahman Bhuiyan Mohammad Rubel Hoq Lazina Hossain Anik Paul Ashraful Islam Khan Fahima Chowdhury Jason B. Harris Edward T. Ryan Stephen B. Calderwood Ana A. Weil Firdausi Qadri 《Microbes and infection / Institut Pasteur》2019,21(3-4):176-183
Vibrio cholerae O1 can cause life threatening diarrheal disease if left untreated. T cells can play critical roles in inducing B cell mediated immunity. As the mechanism of T cell dependent B cell maturation is not well established, we hypothesized that a specific population of T (follicular helper T, Tfh) cells, are involved in B cell maturation following cholera. We found flowcytometrically that V. cholerae infection induces significant increases in circulating Tfh cells expressing B cell maturation associated protein CD40L early in disease. The increased Tfh cells expressing CD40L recognize cholera toxin most prominently, with lessened responses to V. cholerae membrane preparation (MP) and V. cholerae cytolysin (VCC). We further showed that early induction of Tfh cells and CD40L was associated with later memory B cell responses to same antigens. Lastly, we demonstrated in vitro that Tfh cells isolated after cholera can stimulate class switching of co-cultured, isolated B cells from patients with cholera, leading to production of the more durable IgG antibody isotype colorimetrically. These studies were conducted on circulating Tfh cells; future studies will be directed at examining role of Tfh cells during cholera directly in gut mucosa of biopsied samples, at the single cell level if feasible. 相似文献
44.
Daniel T. Leung Taufiqur R. Bhuiyan Naoshin S. Nishat Mohammad Rubel Hoq Amena Aktar M. Arifur Rahman Taher Uddin Ashraful I. Khan Fahima Chowdhury Richelle C. Charles Jason B. Harris Stephen B. Calderwood Firdausi Qadri Edward T. Ryan 《PLoS neglected tropical diseases》2014,8(8)
Background
Mucosal Associated Invariant T (MAIT) cells are innate-like T cells found in abundance in the intestinal mucosa, and are thought to play a role in bridging the innate-adaptive interface.Methods
We measured MAIT cell frequencies and antibody responses in blood from patients presenting with culture-confirmed severe cholera to a hospital in Dhaka, Bangladesh at days 2, 7, 30, and 90 of illness.Results
We found that MAIT (CD3+CD4−CD161hiVα7.2+) cells were maximally activated at day 7 after onset of cholera. In adult patients, MAIT frequencies did not change over time, whereas in child patients, MAITs were significantly decreased at day 7, and this decrease persisted to day 90. Fold changes in MAIT frequency correlated with increases in LPS IgA and IgG, but not LPS IgM nor antibody responses to cholera toxin B subunit.Conclusions
In the acute phase of cholera, MAIT cells are activated, depleted from the periphery, and as part of the innate response against V. cholerae infection, are possibly involved in mechanisms underlying class switching of antibody responses to T cell-independent antigens. 相似文献45.
Isolation of microsatellite and RAPD markers flanking the Yr15 gene of wheat using NILs and bulked segregant analysis. 总被引:7,自引:0,他引:7
V Chagué T Fahima A Dahan G L Sun A B Korol Y I Ronin A Grama M S R?der E Nevo 《Génome》1999,42(6):1050-1056
Microsatellite and random amplified polymorphic DNA (RAPD) primers were used to identify molecular markers linked to the Yr15 gene which confer resistance to stripe rust (Puccina striiformis Westend) in wheat. By using near isogenic lines (NILs) for the Yr15 gene and a F2 mapping population derived from crosses of these lines and phenotyped for resistance, we identified one microsatellite marker (GWM33) and one RAPD marker (OPA19(800)) linked to Yr15. Then, bulked segregant analysis was used in addition to the NILs to identify RAPD markers linked to the target gene. Using this approach, two RAPD markers linked to Yr15 were identified, one in coupling (UBC199(700)) and one in repulsion phase (UBC212(1200)). After MAPMAKER linkage analysis on the F2 population, the two closest markers were shown to be linked to Yr15 within a distance of about 12 cM. The recombination rates were recalculated using the maximum likelihood technique to take into account putative escaped individuals from the stripe rust resistance test and obtain unbiased distance estimates. As a result of this study, the stripe rust resistance gene Yr15 is surrounded by two flanking PCR markers, UBC199(700) and GWM33, at about 5 cM from each side. 相似文献
46.
Yan Jun Wang Fang Qin Haibo Chen Guoxiong Nevo Eviatar Tzion Fahima Cheng Jianping 《Biological trace element research》2011,142(3):773-786
Wild barley (Hordeum spontaneum), the progenitor of cultivated barley, is an important genetic resource for cereal improvement. Selenium (Se) is an essential
trace mineral for humans and animals with antioxidant, anticancer, antiarthropathy, and antiviral effects. In the current
study, the grain Se concentration (GSeC) of 92 H. spontaneum genotypes collected from nine populations representing different habitats in Israel was investigated in the central area
of Guizhou Province, China. Remarkable variations in GSeC were found between and within populations, ranging from 0 to 0.387 mg kg−1 among the 92 genotypes with an average of 0.047 mg kg−1. Genotype 20_C from the Sede Boqer population had the highest GSeC, while genotype 25_1 from the Atlit population had the
lowest. The mean value of GSeC in each population varied from 0.010 to 0.105 mg kg−1. The coefficient of variation for each population ranged from 12% to 163%. Significant correlations were found between GSeC
and 12 ecogeographical factors out of 14 studied. Habitat soil type also significantly affected GSeC. The wild barley exhibited
wider GSeC ranges and greater diversity than its cultivated counterparts. The higher Se grain concentrations found in H. spontaneum populations suggest that wild barley germplasm confer higher abilities for Se uptake and accumulation, which can be used
for genetic studies of barley nutritional value and for further improvement of domesticated cereals. 相似文献
47.
Regeneration of Gossypium hirsutum and G. barbadense from shoot apex tissues for transformation 总被引:1,自引:0,他引:1
Jean Gould Sharon Banister Osamu Hasegawa Michal Fahima Roberta H. Smith 《Plant cell reports》1991,10(1):12-16
A method of regenerating cotton plants from the shoot apical meristem of seedlings was developed for use with particle gun and Agrobacterium-mediated transformation. This method was developed to circumvent the problems of genotype restriction and chromosomal damage frequently encountered in cotton regeneration in tissue culture through somatic embryogenesis. In this procedure, the cells of the shoot meristem are targeted for transformation. Normal and fertile plants of Gossypium barbadense Pima S-6, and 19 cultivars of G. hirsutum were regenerated using this method. Shoot regeneration from these tissues was direct and relatively rapid. A MS based, hormone-free medium could be used with all the varieties tested.This project was funded by grants from Cotton Incorporated, Nisshinbo Industries, and a grant from the Texas Agricultural Experiment Station to RHS. Texas Agricultural Experiment Station Technical Article TA-25667. 相似文献
48.
Yong Liang Yuexing Chen Dong Liu Jianping Cheng Gang Zhao Tzion Fahima Jun Yan 《Phyton》2020,89(2):423-435
Mineral nutrient malnutrition, especially deficiency in selenium (Se),
affects the health of approximately 1 billion people worldwide. Wheat, a staple
food crop, plays an important role in producing Se-enriched foodstuffs to increase
the Se intake of humans. This study aimed to evaluate the effects of different Se
application methods on grain yield and nutritional quality, grain Se absorption and
accumulation, as well as 14 other trace elements concentrations in wheat grains.
A sand culture experiment was conducted via a completely randomized 3 × 2 × 1
factorial scheme (three Se levels × two methods of Se application, foliar or soil ×
one Se sources, selenite), with two wheat cultivars (Guizi No.1, Chinese Spring).
The results showed that both foliar Se and soil Se application methods had effects
on wheat pollination. Foliar Se application resulted in early flowering of wheat,
while soil Se application caused early flowering of wheat at low Se levels
(5 mg kg−1
) and delayed wheat flowering at high selenium levels (10 mg kg−1
),
respectively. For trace elements, human essential trace elements (Fe, Zn, Mn, Cu,
Cr, Mo, Co and Ni) concentrations in wheat grains were dependent of Se application methods and wheat cultivars. However, toxic trace elements (Cd, Pb, Hg, As,
Li and Al) concentrations can be decreased by both methods, indicating a possible
antagonistic effect. Moreover, both methods increased Se concentrations, and
improved grain yield and nutritional quality, while the foliar application was better than soil. Accordingly, this study provided useful information concerning
nutritional biofortification of wheat, indicating that it is feasible to apply Se to
conduct Se biofortification, inhibit the heavy metal elements concentrations and
improve yield and quality in crops, which caused human health benefits. 相似文献
49.
Due to their particle size in the submicrometer range, lipid nanoparticles are suitable for parenteral administration. In order to obtain information on their potential in vivo performance, a simple and effective in vitro assay to evaluate the drug release behavior of such particles is required. This study compares the use of different experimental setups for this purpose. Lipid nanoparticles from trimyristin which were loaded with fluorescent lipophilic drug models (a temoporfin and Nile red) were used as donor particles. The transfer of the two drug models to multilamellar vesicles (MLV) and emulsion droplets as lipophilic acceptor compartments was examined. The determination of the transferred substance was performed either after separation by centrifugation or by an in situ flow cytometric technique. The transfer of temoporfin was slow to the acceptor MLV and very rapid to the acceptor emulsion. With both acceptors, the transfer of temoporfin stopped at a concentration much lower than the theoretical equilibrium values. The transfer of the less lipophilic drug Nile red was very rapid to both acceptors with equilibrium concentrations close to the expected values. The transfer results of temoporfin especially to the acceptor MLV obtained with the two detection techniques were comparable while the centrifugation technique indicated an apparently higher Nile red transfer rate than the flow cytometric technique. Both techniques are equally suitable to study the transfer of temoporfin, while the flow cytometric technique is advantageous to measure the very rapid transfer of Nile red.Key words: drug transfer, flow cytometry, lipid nanoparticles, liposomes, ultracentrifugation 相似文献
50.
Genqiao Li Tilin Fang Hongtao Zhang Chaojie Xie Hongjie Li Tsomin Yang Eviatar Nevo Tzion Fahima Qixin Sun Zhiyong Liu 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2009,119(3):531-539
Powdery mildew caused by Blumeria graminis f. sp. tritici is an important wheat disease in China and other parts of the world. Wild emmer (Triticum turgidum var. dicoccoides) is the immediate progenitor of cultivated tetraploid and hexaploid wheats and thus an important resource for wheat improvement.
Wild emmer accession IW2 collected from Mount Hermon, Israel, is highly resistant to powdery mildew at the seedling and adult
plant stages. Genetic analysis using an F2 segregating population and F2:3 families, derived from a cross between susceptible durum cultivar Langdon and wild emmer accession IW2, indicated that a
single dominant gene was responsible for the resistance of IW2. Bulked segregant and molecular marker analyses detected that
six polymorphic SSR, one ISBP, and three EST-STS markers on chromosome 3BL bin 0.63–1.00 were linked to the resistance gene.
Allelic variations of resistance-linked EST-STS marker BE489472 revealed that the allele was present only in wild emmer but absent in common wheat. Segregation distortion was observed for
the powdery mildew resistance allele and its linked SSR markers with preferential transmission of Langdon alleles over IW2
alleles. The resistance gene was introgressed into common wheat by backcrossing and marker-assisted selection. Since no designated
powdery mildew resistance gene has been found on chromosome 3BL, the resistance gene derived from wild emmer accession IW2
appears to be new one and was consequently designated Pm41.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献