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131.
132.
133.
Dissection of the fusarium I2 gene cluster in tomato reveals six homologs and one active gene copy. 总被引:10,自引:0,他引:10 下载免费PDF全文
G Simons J Groenendijk J Wijbrandi M Reijans J Groenen P Diergaarde T Van der Lee M Bleeker J Onstenk M de Both M Haring J Mes B Cornelissen M Zabeau P Vos 《The Plant cell》1998,10(6):1055-1068
The I2 locus in tomato confers resistance to race 2 of the soil-borne fungus Fusarium oxysporum f sp lycopersici. The selective restriction fragment amplification (AFLP) positional cloning strategy was used to identify I2 in the tomato genome. A yeast artificial chromosome (YAC) clone covering approximately 750 kb encompassing the I2 locus was isolated, and the AFLP technique was used to derive tightly linked AFLP markers from this YAC clone. Genetic complementation analysis in transgenic R1 plants using a set of overlapping cosmids covering the I2 locus revealed three cosmids giving full resistance to F. o. lycopersici race 2. These cosmids shared a 7-kb DNA fragment containing an open reading frame encoding a protein with similarity to the nucleotide binding site leucine-rich repeat family of resistance genes. At the I2 locus, we identified six additional homologs that included the recently identified I2C-1 and I2C-2 genes. However, cosmids containing the I2C-1 or I2C-2 gene could not confer resistance to plants, indicating that these members are not the functional resistance genes. Alignments between the various members of the I2 gene family revealed two significant variable regions within the leucine-rich repeat region. They consisted of deletions or duplications of one or more leucine-rich repeats. We propose that one or both of these leucine-rich repeats are involved in Fusarium wilt resistance with I2 specificity. 相似文献
134.
Fernando A. O. Silveira Daniel Negreiros Newton P. U. Barbosa Elise Buisson Flávio F. Carmo Daniel W. Carstensen Abel A. Conceição Tatiana G. Cornelissen Lívia Echternacht G. Wilson Fernandes Queila S. Garcia Tadeu J. Guerra Claudia M. Jacobi José P. Lemos-Filho Soizig Le Stradic Leonor Patrícia C. Morellato Frederico S. Neves Rafael S. Oliveira Carlos E. Schaefer Pedro L. Viana Hans Lambers 《Plant and Soil》2016,403(1-2):129-152
135.
The 5' and 3' extremities of the satellite tobacco necrosis virus translational enhancer domain contribute differentially to stimulation of translation 下载免费PDF全文
van Lipzig R Gultyaev AP Pleij CW van Montagu M Cornelissen M Meulewaeter F 《RNA (New York, N.Y.)》2002,8(2):229-236
The translational enhancer domain (TED) of satellite tobacco necrosis virus (STNV) RNA stimulates translation of uncapped RNAs autonomously. Here we set out to identify the 5' and 3' extremities of TED and features of these sequences with respect to translation. We found that both in wheat germ extract and in tobacco protoplasts, the 5' border is confined to 3 nt. Mutational analysis revealed that the autonomous function of TED is sensitive to 5' flanking sequences. At the 3' end of TED, 23 nt have a cumulative, quantitative effect on translation in wheat germ extract, whereas in tobacco protoplasts, the most 3' 14 nt of these 23 nt do not enhance translation. The 5' and 3' sequence requirements triggered the development of a new secondary structure model. In this model, TED folds into a phylogenetically conserved stem-loop structure in which the essential 5' nucleotides base-pair with the 3' nucleotides that stimulate translation both in vitro and in vivo. Importantly, the 14 3' nucleotides in TED that stimulate translation in the wheat germ extract only do not require the predicted base-pairing in order to function. The discrepancy between in vitro and in vivo sequence requirements thus correlates with potential base-pairing requirements, opening the possibility that TED contains two functional domains. 相似文献
136.
I. Scheurwater C. Cornelissen F. Dictus R. Welschen & H. Lambers 《Plant, cell & environment》1998,21(10):995-1005
Herbaceous plants grown with free access to nutrients exhibit inherent differences in maximum relative growth rate (RGR) and rate of nutrient uptake. Measured rates of root respiration are higher in fast-growing species than in slow-growing ones. Fast-growing herbaceous species, however, exhibit lower rates of respiration than would be expected from their high rates of growth and nitrate uptake. We investigated why the difference in root O2 uptake between fast- and slow-growing species is relatively small. Inhibition of respiration by the build-up of CO2 in closed cuvettes, diurnal variation in respiration rates or an increasing ratio of respiratory CO2 release to O2 uptake (RQ) with increasing RGR failed to explain the relatively low root respiration rates in fast-growing grasses. Furthermore, differences in alternative pathway activity can at most only partly explain why the difference in root respiration between fast- and slow-growing grasses is relatively small. Although specific respiratory costs for maintenance of biomass are slightly higher in the fast-growing Dactylis glomerata L. than those in the slow-growing Festuca ovina L., they account for 50% of total root respiration in both species. The specific respiratory costs for ion uptake in the fast-growing grass are one-third of those in the slow-growing grass [0·41 versus 1·22 mol O2 mol (NO3 – )–1 ]. We conclude that this is the major cause of the relatively low rates of root respiration in fast-growing grasses. 相似文献
137.
Ramajayam Govindan Venkatachalam Sivabalan Shazia Fathima JH Umaphathy Vidhya Rekha Senthilkumar Kalimuthu Selvaraj Jayaraman Kirubhanand Chandrasekaran 《Bioinformation》2020,16(11):937
The MUC1 oncoprotein is known to be linked with different types of cancer. Therefore, it is of interest to document the molecular docking analysis of compounds from Justica adhatoda L with the MUC1 oncoprotein. We report the structure based molecular binding features compounds such as amrinone, ethambutol, pyrazinamide and vasicoline the MUC1 oncoprotein for further consideration in drug discovery. 相似文献
138.
Erik JM Toonen Pilar Barrera Jaap Fransen Arjan PM de Brouwer Agnes M Eijsbouts Pierre Miossec Hubert Marotte Hans Scheffer Piet LCM van Riel Barbara Franke Marieke JH Coenen 《Arthritis research & therapy》2012,14(6):R264
Introduction
The goal of this study is to investigate whether the -308G > A promoter polymorphism in the tumor necrosis factor alpha (TNFA) gene is associated with disease severity and radiologic joint damage in a large cohort of patients with rheumatoid arthritis (RA).Methods
A long-term observational early RA inception cohort (n = 208) with detailed information about disease activity and radiologic damage after 3, 6 and 9 years of disease was genotyped for the TNFA -308G > A promoter polymorphism (rs1800629). A longitudinal regression analysis was performed to assess the effect of genotype on RA disease severity and joint damage. Subsequently, a meta-analysis, including all publically available data, was performed to further test the association between joint erosions and the TNFA polymorphism. To learn more about the mechanism behind the effect of the polymorphism, RNA isolated from peripheral blood from RA patients (n = 66) was used for TNFA gene expression analysis by quantitative PCR.Results
Longitudinal regression analysis with correction for gender and disease activity showed a significant difference in total joint damage between GG and GA+AA genotype groups (P = 0.002), which was stable over time. The meta-analysis, which included 2,053 patients, confirmed an association of the genetic variant with the development of erosions (odds ratio 0.78, 95% CI 0.62, 0.98). No significant differences in TNFA gene expression were observed for the different genotypes, confirming earlier findings in healthy individuals.Conclusions
Our data confirm that the TNFA -308G > A promoter polymorphism is associated with joint damage in patients with RA. This is not mediated by differences in TNFA gene expression between genotypes. 相似文献139.
Ruis MA de Groot J te Brake JH Dinand Ekkel E van de Burgwal JA Erkens JH Engel B Buist WG Blokhuis HJ Koolhaas JM 《Applied animal behaviour science》2001,70(3):201-225
Endocrine, behavioural and immunologic processes, together with body growth, were evaluated in gilts that were defeated at 10 weeks of age in resident-intruder tests. Immediately after defeat, gilts were either separated from or reunited with a familiar conspecific (litter-mate; always a barrow). Gilts were assigned to one of four treatments: (a) DI: defeat, followed by isolation (separation from original litter-mate; n=8); (b) I: no defeat, isolation (control group; n=9); (c) DP; defeat, followed by pair-housing (reunion with original litter-mate; n=8); and (d) P: no defeat, pair-housing (control group; n=8). The following general conclusions were derived: (1) social defeat caused pronounced short-term elevations in hypothalamic-pituitary-adrenal (HPA) and sympathetic-adrenal medullary activities, and of prolactin levels. Moreover, as soon as 1h after defeat, percentages of blood lymphocytes and neutrophilic granulocytes were, respectively, decreased and increased; (2) social defeat had some long-lasting influence on behaviour and physiology, but isolation predominantly determined responses in the longer term. Defeat, as well as isolation, resulted in increased cardiovascular activities compared to P controls, as observed in a novel object test (NOT: +7 days) and an aversion test (AVT: +14 days). Moreover, defeated as well as isolated gilts did not habituate to a repeated novel environment test (NET: -7, +2 and +7 days) in terms of frequencies of vocalising, whereas P controls did. Isolation, through the separation from any other pig, was responsible for the other observed long-term characteristics, which developed progressively. Isolated gilts showed high mobilities and high cortisol responses in the repeated NET (+7 days), not being habituated. This contrasted the reactions of pair-housed gilts, which were much reduced. In addition to their high cardiovascular activities in the NOT and the AVT, isolated gilts also displayed higher heart rates in the repeated NET and during human presence following the NOT, compared to pair-housed gilts. Finally, isolated gilts were more inhibited to approach a novel object (in the NOT) than pair-housed pigs; and (3) stress responses of defeated gilts were modulated by the subsequent social environment. Stimulation of the HPA-axis (plasma- and salivary cortisol) was prolonged in those defeated gilts which were isolated (observed in the first hour). Changes in leucocyte subsets were still observed after 3 days in DI, but were 'normalised' within 1 day in DP gilts. Two days after defeat, habituation to the repeated NET in terms of mobility and salivary cortisol responses occurred in control and DP gilts, but not in DI gilts. We argue that these effects of the social environment shortly after defeat were related to a stress-reducing effect of a stable social relationship, i.e. social support. 相似文献
140.
Climate change has only a minor impact on nutrient resorption parameters in a high-latitude peatland 总被引:8,自引:0,他引:8
Nutrient resorption from senescing plant tissues is an important determinant of the fitness of plant populations in nutrient-poor
ecosystems, because it makes plants less dependent on current nutrient uptake. Moreover, it can have significant “afterlife”
effects through its impact on litter chemistry and litter decomposability. Little is known about the effects of climate change
on nutrient resorption. We studied the effects of climate change treatments (including winter snow addition, and spring and/or
summer warming) on nutrient resorption of four dominant species in a nutrient-poor subarctic peatland. These species were
Betula nana (woody deciduous), Vaccinium uliginosum (woody deciduous), Calamagrostis lapponica (graminoid) and Rubus chamaemorus (forb). After five years of treatments both mature and senesced leaf N concentrations showed a small but significant overall
reduction in response to the climate treatments. However, the effects were species-specific. For example, in the controls
the N concentration in senesced leaves of Calamagrostis (3.0±0.2 mg N g−1) was about four times lower than for Rubus (11.2±0.2 mg N g−1). There were no significant treatment effects on N resorption efficiency (% of the N pool in mature leaves that is resorbed
during senescence). The nitrogen resorption efficiency of Calamagrostis (about 80%) was higher than in the other three species (about 60%). Thus, climate change has only a minor impact on nutrient
resorption parameters. However, given the substantial interspecific differences in these parameters, substantial changes in
plant–soil feedbacks may be expected as a result of the observed changes in the species composition of high-latitude vegetation.
These changes are species-specific and thus difficult to predict. 相似文献