排序方式: 共有70条查询结果,搜索用时 31 毫秒
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Rodrigues TE Souza VE Monteiro RA Gerhardt EC Araújo LM Chubatsu LS Souza EM Pedrosa FO Huergo LF 《Biochimica et biophysica acta》2011,1814(9):1203-1209
The ammonium transport family Amt/Rh comprises ubiquitous integral membrane proteins that facilitate ammonium movement across biological membranes. Besides their role in transport, Amt proteins also play a role in sensing the levels of ammonium in the environment, a process that depends on complex formation with cytosolic proteins of the P(II) family. Trimeric P(II) proteins from a variety of organisms undergo a cycle of reversible posttranslational modification according to the prevailing nitrogen supply. In proteobacteria, P(II) proteins are subjected to reversible uridylylation of each monomer. In this study we used the purified proteins from Azospirillum brasilense to analyze the effect of P(II) uridylylation on the protein's ability to engage complex formation with AmtB in vitro. Our results show that partially uridylylated P(II) trimers can interact with AmtB in vitro, the implication of this finding in the regulation of nitrogen metabolism is discussed. We also report an improved expression and purification protocol for the A. brasilense AmtB protein that might be applicable to AmtB proteins from other organisms. 相似文献
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Lilian Noindorf Ana C Bonatto Rose A Monteiro Emanuel M Souza Liu U Rigo Fabio O Pedrosa Maria BR Steffens Leda S Chubatsu 《BMC microbiology》2011,11(1):8
Background
The PII protein family comprises homotrimeric proteins which act as transducers of the cellular nitrogen and carbon status in prokaryotes and plants. In Herbaspirillum seropedicae, two PII-like proteins (GlnB and GlnK), encoded by the genes glnB and glnK, were identified. The glnB gene is monocistronic and its expression is constitutive, while glnK is located in the nlmAglnKamtB operon and is expressed under nitrogen-limiting conditions. 相似文献44.
Shelley M. ALEXANDER 《动物学报》2009,55(1)
We compared probability surfaces derived using one set of environmental variables in three Geographic Information Systems (GIS) -based approaches: logistic regression and Akaike's Information Criterion (AIC),Multiple Criteria Evaluation (MCE),and Bayesian Analysis (specifically Dempster-Shafer theory). We used lynx Lynx canadensis as our focal species,and developed our environment relationship model using track data collected in Banff National Park,Alberta,Canada,during winters from 1997 to 2000. The accuracy of the three spatial models were compared using a contingency table method. We determined the percentage of cases in which both presence and absence points were correctly classified (overall accuracy),the failure to predict a species where it occurred (omission error) and the prediction of presence where there was absence (commission error). Our overall accuracy showed the logistic regression approach was the most accurate (74.51% ). The multiple criteria evaluation was intermediate (39.22%),while the Dempster-Shafer (D-S) theory model was the poorest (29.90%). However,omission and commission error tell us a different story: logistic regression had the lowest commission error,while D-S theory produced the lowest omission error. Our results provide evidence that habitat modellers should evaluate all three error measures when ascribing confidence in their model. We suggest that for our study area at least,the logistic regression model is optimal. However,where sample size is small or the species is very rare,it may also be useful to explore and/or use a more ecologically cautious modelling approach (e.g. Dempster-Shafer) that would over-predict,protect more sites,and thereby minimize the risk of missing critical habitat in conservation plans. 相似文献
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Rose Adele Monteiro Eduardo Balsanelli Roseli Wassem Anelis M. Marin Liziane C. C. Brusamarello-Santos Maria Augusta Schmidt Michelle Z. Tadra-Sfeir Vania C. S. Pankievicz Leonardo M. Cruz Leda S. Chubatsu Fabio O. Pedrosa Emanuel M. Souza 《Plant and Soil》2012,356(1-2):175-196
Diazotrophic species in the genus Herbaspirillum (e.g. H. frisingense, H. rubrisubalbicans and H. seropedicae) associate with several economically important crops in the family Poaceae, such as maize (Zea mays), Miscanthus, rice (Oryza sativa), sorghum (Sorghum bicolor) and sugarcane (Saccharum sp.), and can increase their growth and productivity by a number of mechanisms, including nitrogen fixation. Hence, the improvement and use of these plant growth-promoting bacteria could provide economic and environmental benefits. We review the colonization processes of host plants by Herbaspirillum spp., including histological aspects and molecular mechanisms involved in these interactions, which may be epiphytic, endophytic, and even occasionally pathogenic. Herbaspirillum can recognize plant signals that modulate the expression of colonization traits and plant growth-promoting factors. Although a large proportion of herbaspirilla remain rhizospheric and epiphytic, plant-associated species in this genus are noted for their ability to colonize the plant internal tissues. Endophytic colonization by herbaspirilla begins with the attachment of the bacteria to root surfaces, followed by colonization at the emergence points of lateral roots and penetration through discontinuities of the epidermis; this appears to involve bacterial envelope structures, such as lipopolysaccharide (LPS), exopolysaccharide (EPS), adhesins and the type three secretion system (T3SS), but not necessarily the involvement of cell wall-degrading enzymes. Intercellular spaces are then rapidly occupied, proceeding to colonization of xylem and the aerial parts of the host plants. The response of the host plant includes both the recognition of the bacteria as non-pathogenic and the induction of systemic resistance to pathogens. Phytohormone signaling cascades are also activated, regulating the plant development. This complex molecular communication between some Herbaspirillum spp. and plant hosts can result in plant growth-promotion. 相似文献
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Monteiro RA Balsanelli E Tuleski T Faoro H Cruz LM Wassem R de Baura VA Tadra-Sfeir MZ Weiss V DaRocha WD Muller-Santos M Chubatsu LS Huergo LF Pedrosa FO de Souza EM 《FEMS microbiology ecology》2012,80(2):441-451
Herbaspirillum rubrisubalbicans M1 causes the mottled stripe disease in sugarcane cv. B-4362. Inoculation of this cultivar with Herbaspirillum seropedicae SmR1 does not produce disease symptoms. A comparison of the genomic sequences of these closely related species may permit a better understanding of contrasting phenotype such as endophytic association and pathogenic life style. To achieve this goal, we constructed suppressive subtractive hybridization (SSH) libraries to identify DNA fragments present in one species and absent in the other. In a parallel approach, partial genomic sequence from H.?rubrisubalbicans M1 was directly compared in silico with the H.?seropedicae SmR1 genome. The genomic differences between the two organisms revealed by SSH suggested that lipopolysaccharide and adhesins are potential molecular factors involved in the different phenotypic behavior. The cluster wss probably involved in cellulose biosynthesis was found in H.?rubrisubalbicans M1. Expression of this gene cluster was increased in H.?rubrisubalbicans M1 cells attached to the surface of maize root, and knockout of wssD gene led to decrease in maize root surface attachment and endophytic colonization. The production of cellulose could be responsible for the maize attachment pattern of H.?rubrisubalbicans M1 that is capable of outcompeting H.?seropedicae SmR1. 相似文献
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VA Weiss H Faoro MZ Tadra-Sfeir RT Raittz EM de Souza RA Monteiro RL Cardoso R Wassem LS Chubatsu LF Huergo M Müller-Santos MB Steffens LU Rigo Fde O Pedrosa LM Cruz 《Journal of bacteriology》2012,194(15):4136-4137
Herbaspirillum lusitanum strain P6-12 (DSM 17154) is, so far, the only species of Herbaspirillum isolated from plant root nodules. Here we report a draft genome sequence of this organism. 相似文献
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Araujo MS Baura VA Souza EM Benelli EM Rigo LU Steffens MB Pedrosa FO Chubatsu LS 《Protein expression and purification》2004,33(1):19-24
Azospirillum brasilense is a diazotroph which associates with important agricultural crops. The nitrogen fixation process in this organism is highly regulated by ammonium and oxygen, and involves several proteins including the two PII-like proteins, GlnB and GlnZ. Although these proteins are structurally very similar, they play different roles in the control of nitrogen fixation. In this work, we describe the expression, purification, and uridylylation of the GlnZ protein of A. brasilense strain FP2. The amplified glnZ gene was sub-cloned and expressed as a His-tagged fusion protein. After purification, we obtained 30-40 mg of purified GlnZ per liter of culture. This protein was purified to 99% purity and assayed for in vitro uridylylation using a partially purified Escherichia coli GlnD as a source of uridylylyl-transferase activity. Analyses of the uridylylation reactions in non-denaturing and denaturing polyacrylamide gel electrophoresis showed that up to 74% of GlnZ monomers were modified after 30 min reaction. This covalent modification is strictly dependent on ATP and 2-ketoglutarate, while glutamine acts as an inhibitor and promotes deuridylylation. 相似文献