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H. G. Welz A. W. Schechert H. H. Geiger 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1999,98(6-7):1036-1045
Cultivars with quantitative resistance are widely used to control Setosphaeria turcica (Luttrell) Leonard & Suggs, the causal organism of northern corn leaf blight (NCLB). Here the effectiveness of quantitative
trait loci (QTLs) for NCLB resistance was investigated over the course of host plant development in inoculated field trials.
A population of 194–256 F2:3 lines derived from a cross between a susceptible Italian (Lo951) and a highly resistant African inbred line (CML202) was
tested in three environments in Kenya. The traits assessed were the incubation period (IP), the percentage disease severity
(DS 1 to 5, taken biweekly), and the area under the disease progress curve (AUDPC). Considering all resistance traits and
environments, a total of 19 putative QTLs were detected by composite interval mapping using a linkage map with 110 RFLP markers.
In the combined analysis across environments, nine QTLs were significant (LOD >3.0) for DS 3, recorded around flowering time,
explaining 71% of the genotypic variance. Four of these nine QTLs displayed significant (P<0.05) QTL×environment (QTL×E) interaction. Most QTLs were already significant in the juvenile stage (IP) and became less
effective after flowering. Across environments, three QTLs conditioned adult-plant resistance, in the sense that they were
only significant after flowering. Six QTL alleles on chromosomes 2, 4, 5, 8, and 9 of CML202 should be useful for marker-assisted
backcrossing.
Received: 24 August 1998 / Accepted: 29 September 1998 相似文献
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STK1基因是玉米大斑病菌调控分生孢子发育、渗透胁迫调节和致病性的重要MAPK基因。本文首先构建了含有增强型绿色荧光蛋白基因(EGFP)的毕赤酵母GSS115(Pichia pastoris GS115)表达载体p PIC3.5K-EGFP,再以玉米大班病菌模式菌株01-23的菌丝c DNA为模板,PCR扩增STK1基因,克隆到p PIC3.5K-EGFP,构建了STK1-EGFP融合基因的GS115表达载体p PIC3.5K-STK1-EGFP。利用电击转化法将该融合基因表达载体转化到GS115感受态细胞内,利用MD培养基筛选、PCR鉴定,获得了STK1-EGFP融合基因的毕赤酵母转化子。通过RT-PCR和荧光观察,发现STK1基因和EGFP基因均可以高效稳定地表达。另外,在试验中我们还发现,在STK1基因起始密码子前加入Kozak序列可以使STK1-EGFP融合基因的表达强度增强4.8倍。以上研究结果为STK1基因表达蛋白的亚细胞功能定位和抗体制备奠定了基础。 相似文献
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A. L. Dingerdissen H. H. Geiger M. Lee A. Schechert H. G. Welz 《Molecular breeding : new strategies in plant improvement》1996,2(2):143-156
Quantitative trait loci (QTL) involved in the resistance of maize to Setosphaeria turcica, the causal agent of northern leaf blight, were located by interval mapping analysis of 121 F2:3 lines derived from a cross between Mo17 (moderately resistant) and B52 (susceptible). A linkage map spanning 112 RFLP loci with 15 cM mean interval length was constructed, based on marker data recorded in a previous study. Field tests with artificial inoculation were conducted at three sites in tropical mid- to high-altitude regions of Kenya, East Africa. Host-plant response was measured in terms of incubation period, disease severity (five scoring dates), and the area under the disease progress curve (AUDPC). Heritability of all traits was high (around 0.75). QTL associated with the incubation period were located on chromosomes 2S and 8L. For disease severity and AUDPC, significant QTL were detected in the putative centromeric region of chromosome 1 and on 2S, 3L, 5S, 6L, 7L, 8L and 9S. On 2S the same marker interval which carried a gene enhancing latent period was also associated with reduced disease severity of juvenile plants. QTL on chromosomes 3L, 5S, 7L and 8L were significant across environments but all other QTL were affected by a large genotype x environment interaction. Partially dominant gene action for resistance as well as for susceptibility was prevailing. Single QTL explained 10 to 38% of the phenotypic variation of the traits. All but the QTL on chromosomes 1, 6 and 9 were contributed by the resistant parent Mo17. On chromosome 8L a QTL mapped to the same region as the major race-specific gene Ht2, supporting the hypothesis that some qualitative and quantitative resistance genes may be allelic.Abbreviations AUDPC
area under the disease progress curve
- CIMMYT
International Maize and Wheat Improvement Center
- KARI
Kenya Agricultural Research Institute
- NCLB
northern corn leaf blight
- QTL
quantitative trait locus/loci 相似文献
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p14ARF activates a Tip60-dependent and p53-independent ATM/ATR/CHK pathway in response to genotoxic stress 下载免费PDF全文
Eymin B Claverie P Salon C Leduc C Col E Brambilla E Khochbin S Gazzeri S 《Molecular and cellular biology》2006,26(11):4339-4350
p14ARF is a tumor suppressor that controls a well-described p53/Mdm2-dependent checkpoint in response to oncogenic signals. Here, new insights into the tumor-suppressive function of p14ARF are provided. We previously showed that p14ARF can induce a p53-independent G2 cell cycle arrest. In this study, we demonstrate that the activation of ATM/ATR/CHK signaling pathways contributes to this G2 checkpoint and highlight the interrelated roles of p14ARF and the Tip60 protein in the initiation of this DNA damage-signaling cascade. We show that Tip60 is a new direct p14ARF binding partner and that its expression is upregulated and required for ATM/CHK2 activation in response to p14ARF. Strikingly, both p14ARF and Tip60 products accumulate following a cell treatment with alkylating agents and are absolutely required for ATM/CHK2 activation in this setting. Moreover, and consistent with p14ARF being a determinant of CHK2 phosphorylation in lung carcinogenesis, a strong correlation between p14ARF and phospho-CHK2 (Thr68) protein expression is observed in human lung tumors (P < 0.00006). Overall, these data point to a novel regulatory pathway that mediates the p53-independent negative-cell-growth control of p14ARF. Inactivation of this pathway is likely to contribute to lung carcinogenesis. 相似文献
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Marina A. González Besteiro Roman Ulm 《The Plant journal : for cell and molecular biology》2013,73(6):1034-1043
Ultraviolet‐B (UV‐B) stress activates MAP kinases (MAPKs) MPK3 and MPK6 in Arabidopsis. MAPK activity must be tightly controlled in order to ensure an appropriate cellular outcome. MAPK phosphatases (MKPs) effectively control MAPKs by dephosphorylation of phosphothreonine and phosphotyrosine in their activation loops. Arabidopsis MKP1 is an important regulator of MPK3 and MPK6, and mkp1 knockout mutants are hypersensitive to UV‐B stress, which is associated with reduced inactivation of MPK3 and MPK6. Here, we demonstrate that MPK3 and MPK6 are hyperactivated in response to UV‐B in plants that are deficient in photorepair, suggesting that UV‐damaged DNA is a trigger of MAPK signaling. This is not due to a block in replication, as, in contrast to atr, the mkp1 mutant is not hypersensitive to the replication‐inhibiting drug hydroxyurea, hydroxyurea does not activate MPK3 and MPK6, and atr is not impaired in MPK3 and MPK6 activation in response to UV‐B. We further show that mkp1 leaves and roots are UV‐B hypersensitive, whereas atr is mainly affected at the root level. Tolerance to UV‐B stress has been previously associated with stem cell removal and CYCB1;1 accumulation. Although UV‐B‐induced stem cell death and CYCB1;1 expression are not altered in mkp1 roots, CYCB1;1 expression is reduced in mkp1 leaves. We conclude that the MKP1 and ATR pathways operate in parallel, with primary roles for ATR in roots and MKP1 in leaves. 相似文献
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This study characterized the changes in proteinase activities in maize inbred line H60 and soybean cultivar Keller roots in response to anoxia. After 24 h of anoxia, crude protein extracts from both maize and soybean root tips (10 cm) were assayed for proteinase activities at pHs ranging from 4.5 to 10.2. In anoxic roots of both maize and soybean, activities of proteinases with alkaline pH optima increased, and activities of proteinases with acidic pH optima declined. Proteinases with neutral pH increased in anoxic maize roots, but declined in anoxic soybean roots. Whether the differences in proteinase activities in anaerobic maize and soybean roots contribute to the differental susceptibility of the two species requires further study.Journal Article No. 265-89. 相似文献
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Reactive oxygen species are toxic byproducts of aerobic respiration that are also important in mediating a diversity of cellular functions. Reactive oxygen species form an important component of plant defenses to inhibit microbial pathogens during pathogen–plant interactions. Tolerance to oxidative stress is likely to make a significant contribution to the viability and pathogenicity of plant pathogens, but the complex network of oxidative stress responses hinders identification of the genes contributing to this trait. Here, we employed a forward genetic approach to investigate the genetic architecture of oxidative stress tolerance in the fungal wheat pathogen Zymoseptoria tritici. We used quantitative trait locus (QTL) mapping of growth and melanization under axenic conditions in two cross-populations to identify genomic regions associated with tolerance to oxidative stress. We found that QTLs associated with growth under oxidative stress as well as inherent growth can affect oxidative stress tolerance, and we identified two uncharacterized genes in a major QTL associated with this trait. Our data suggest that melanization does not affect tolerance to oxidative stress, which differs from what was found for animal pathogens. This study provides a whole-genome perspective on the genetic basis of oxidative stress tolerance in a plant pathogen. 相似文献
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The transmembrane protein Sho1 cooperates with the mucin Msb2 to regulate invasive growth and plant infection in Fusarium oxysporum 下载免费PDF全文
In the vascular wilt pathogen Fusarium oxysporum, the mitogen‐activated protein kinase (MAPK) Fmk1 is essential for plant infection. The mucin‐like membrane protein Msb2 regulates a subset of Fmk1‐dependent functions. Here, we examined the role of the tetraspan transmembrane protein Sho1 as an additional regulator of the Fmk1 pathway and determined its genetic interaction with Msb2. Targeted Δsho1 mutants were generated in wild‐type and Δmsb2 backgrounds to test possible interactions between the two genes. The mutants were examined for hyphal growth under different stress conditions, phosphorylation of the MAPK Fmk1 and an array of Fmk1‐dependent virulence functions. Similar to Msb2, Sho1 was required for the activation of Fmk1 phosphorylation, as well as Fmk1‐dependent gene expression and invasive growth functions, including extracellular pectinolytic activity, cellophane penetration, plant tissue colonization and virulence on tomato plants. Δsho1 mutants were hypersensitive to the cell wall‐perturbing compound Calcofluor White, and this phenotype was exacerbated in the Δmsb2 Δsho1 double mutant. These results highlight that Sho1 and Msb2 have partially overlapping functions upstream of the Fmk1 MAPK cascade, to promote invasive growth and plant infection, as well as cell wall integrity, in F. oxysporum. 相似文献
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Daoud Ali Phool Gend Kumar Sudhir Kumar Mukhtar Ahmed 《Chemical Speciation and Bioavailability》2013,25(2):111-118
AbstractDimethoate is one of the organophosphate insecticides widely used in agriculture throughout the world and is an inhibitor of cholinesterase in animals. The objective of the present study was to detect oxidative stress and DNA damage induced by dimethoate in the freshwater fish Channa punctatus (C. punctatus). The LC50-96 h value of technical grade dimethoate was estimated at 19.10 μg L-1 in a semi-static system and, on the basis of the LC50 value, three concentrations were determined. The fish were exposed to these concentrations of dimethoate for 96 h and samplings were done at 24 and 96 h for assessment of oxidative stress and DNA damage. After exposure to dimethoate, the level of superoxide dismutase declined while lipid peroxidation, glutathione, induction of micronucleus and DNA damage were increased in C. punctatus as the concentration and exposure time increased. Thus our results suggest that dimethoate induces genotoxic effects which invariably accompanied and correlated with oxidative stress. 相似文献
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Natural variation in life history strategy of Arabidopsis thaliana determines stress responses to drought and insects of different feeding guilds 下载免费PDF全文
Nelson H. Davila Olivas Enric Frago Manus P. M. Thoen Karen J. Kloth Frank F. M. Becker Joop J. A. van Loon Gerrit Gort Joost J. B. Keurentjes Joost van Heerwaarden Marcel Dicke 《Molecular ecology》2017,26(11):2959-2977
Plants are sessile organisms and, consequently, are exposed to a plethora of stresses in their local habitat. As a result, different populations of a species are subject to different selection pressures leading to adaptation to local conditions and intraspecific divergence. The annual brassicaceous plant Arabidopsis thaliana is an attractive model for ecologists and evolutionary biologists due to the availability of a large collection of resequenced natural accessions. Accessions of A. thaliana display one of two different life cycle strategies: summer and winter annuals. We exposed a collection of 308 European Arabidopsis accessions, that have been genotyped for 250K SNPs, to a range of stresses: one abiotic stress (drought), four biotic stresses (Pieris rapae caterpillars, Plutella xylostella caterpillars, Frankliniella occidentalis thrips and Myzus persicae aphids) and two combined stresses (drought plus P. rapae and Botrytis cinerea fungus plus P. rapae). We identified heritable genetic variation for responses to the different stresses, estimated by narrow‐sense heritability. We found that accessions displaying different life cycle strategies differ in their response to stresses. Winter annuals are more resistant to drought, aphids and thrips and summer annuals are more resistant to P. rapae and P. xylostella caterpillars. Summer annuals are also more resistant to the combined stresses of drought plus P. rapae and infection by the fungus Botryris cinerea plus herbivory by P. rapae. Adaptation to drought displayed a longitudinal gradient. Finally, trade‐offs were recorded between the response to drought and responses to herbivory by caterpillars of the specialist herbivore P. rapae. 相似文献
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Sapir SchlamBabayov Ariel Bensimon Michal Harel Tamar Geiger Ruedi Aebersold Yael Ziv Yosef Shiloh 《The EMBO journal》2021,40(2)
The DNA damage response (DDR) is a complex signaling network that relies on cascades of protein phosphorylation, which are initiated by three protein kinases of the family of PI3‐kinase‐related protein kinases (PIKKs): ATM, ATR, and DNA‐PK. ATM is missing or inactivated in the genome instability syndrome, ataxia‐telangiectasia (A‐T). The relative shares of these PIKKs in the response to genotoxic stress and the functional relationships among them are central questions in the genome stability field. We conducted a comprehensive phosphoproteomic analysis in human wild‐type and A‐T cells treated with the double‐strand break‐inducing chemical, neocarzinostatin, and validated the results with the targeted proteomic technique, selected reaction monitoring. We also matched our results with 34 published screens for DDR factors, creating a valuable resource for identifying strong candidates for novel DDR players. We uncovered fine‐tuned dynamics between the PIKKs following genotoxic stress, such as DNA‐PK‐dependent attenuation of ATM. In A‐T cells, partial compensation for ATM absence was provided by ATR and DNA‐PK, with distinct roles and kinetics. The results highlight intricate relationships between these PIKKs in the DDR. 相似文献