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Yunyu Wu Ning Xiao Ling Yu Cunhong Pan Yuhong Li Xiaoxiang Zhang Guangqing Liu Zhengyuan Dai Xuebiao Pan Aihong Li 《PloS one》2015,10(6)
Rice blast caused by Magnaporthe oryzae is the most devastating disease of rice and poses a serious threat to world food security. In this study, the distribution and effectiveness of 18 R genes in 277 accessions were investigated based on pathogenicity assays and molecular markers. The results showed that most of the accessions exhibited some degree of resistance (resistance frequency, RF >50%). Accordingly, most of the accessions were observed to harbor two or more R genes, and the number of R genes harbored in accessions was significantly positively correlated with RF. Some R genes were demonstrated to be specifically distributed in the genomes of rice sub-species, such as Pigm, Pi9, Pi5 and Pi1, which were only detected in indica-type accessions, and Pik and Piz, which were just harbored in japonica-type accessions. By analyzing the relationship between R genes and RF using a multiple stepwise regression model, the R genes Pid3, Pi5, Pi9, Pi54, Pigm and Pit were found to show the main effects against M. oryzae in indica-type accessions, while Pita, Pb1, Pik, Pizt and Pia were indicated to exhibit the main effects against M. oryzae in japonica-type accessions. Principal component analysis (PCA) and cluster analysis revealed that combination patterns of major R genes were the main factors determining the resistance of rice varieties to M. oryzae, such as ‘Pi9+Pi54’, ‘Pid3+Pigm’, ‘Pi5+Pid3+Pigm’, ‘Pi5+Pi54+Pid3+Pigm’, ‘Pi5+Pid3’ and ‘Pi5+Pit+Pid3’ in indica-type accessions and ‘Pik+Pib’, ‘Pik+Pita’, ‘Pik+Pb1’, ‘Pizt+Pia’ and ‘Pizt+Pita’ in japonica-type accessions, which were able to confer effective resistance against M. oryzae. The above results provide good theoretical support for the rational utilization of combinations of major R genes in developing rice cultivars with broad-spectrum resistance. 相似文献
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Zheng Bao Gao Zhiyan Liang Liumei Lu Yunyu Kong Yongting Chen Wanting Lin Keying Chen Wanqi Mai Jingying Li Yanwen Ma Changling 《Molecular biology reports》2022,49(3):1895-1902
Molecular Biology Reports - Clonorchis sinensis was a food-borne zoonotic parasite in the worldwide and also an important risk factor of hepatic fibrosis. Excretory/secretion products of C.... 相似文献
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Zhonghua Liu Fudong Li Beibei Zhang Sai Li Jihui Wu Yunyu Shi 《The Journal of biological chemistry》2015,290(10):6630-6638
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Synthesis and structure-activity relationships of 1,2,4-triazoles as a novel class of potent tubulin polymerization inhibitors 总被引:1,自引:0,他引:1
Ouyang X Chen X Piatnitski EL Kiselyov AS He HY Mao Y Pattaropong V Yu Y Kim KH Kincaid J Smith L Wong WC Lee SP Milligan DL Malikzay A Fleming J Gerlak J Deevi D Doody JF Chiang HH Patel SN Wang Y Rolser RL Kussie P Labelle M Tuma MC 《Bioorganic & medicinal chemistry letters》2005,15(23):5154-5159
A novel triazole-containing chemical series was shown to inhibit tubulin polymerization and cause cell cycle arrest in A431 cancer cells with EC(50) values in the single digit nanomolar range. Binding experiments demonstrated that representative active compounds of this class compete with colchicine for its binding site on tubulin. The syntheses and structure-activity relationship studies for the triazole derivatives are described herein. 相似文献
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Kti11p is a small, highly conserved CSL zinc finger-containing protein found in many eukaryotes. It was first identified as one of the factors required for maintaining the sensitivity of Saccharomyces cerevisiae to Kluyveromyces lactis zymocin. Then, it was found to be identical to Dph3, a protein required for diphthamide biosynthesis on eEF-2, the target of diphtheria toxin and Pseudomonas exotoxin A, in both yeast and higher eukaryotes. Furthermore, Kti11p/Dph3 was found to physically interact with core-Elongator, ribosomal proteins, eEF-2, two other proteins required for diphthamide modification on eEF-2, and DelGEF. Here, we determined the solution structure of Kti11p using NMR, providing the first structure of the CSL-class zinc-binding protein family. We present the first experimental evidence that Kti11p can bind a single Zn(2+) ion by its four conserved cysteine residues. The major structure of Kti11p comprises a beta sandwich as well as an alpha helix. Moreover, a structure-based similarity search suggests that it represents a novel structure and may define a new family of the zinc ribbon fold group. Therefore, our work provides a molecular basis for further understanding the multiple functions of Kti11p/Dph3 in different biological processes. 相似文献
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Small ubiquitin-related modifier SUMO-3 is a member of a growing family of ubiquitin-like proteins (Ubls). So far, four isoforms of SUMO have been identified in humans. It is generally known that SUMO modification regulates protein localization and activity. Previous structure and function studies have been mainly focused on SUMO-1. The sequence of SUMO-3 is 46% identical with that of SUMO-1; nevertheless, functional heterogeneity has been found between the two homologues. Here we report the solution structure of SUMO-3 C47S (residues 14-92) featuring the beta-beta-alpha-beta-beta-alpha-beta ubiquitin fold. Structural comparison shows that SUMO-3 C47S resembles ubiquitin more than SUMO-1. On the helix-sheet interface, a strong hydrophobic interaction contributes to formation of the globular and compact fold. A Gly-Gly motif at the C-terminal tail, extending away from the core structure, is accessible to enzymes and substrates. In vivo, SUMO modification proceeds via a multistep pathway, and Ubc9 plays an indispensable role as the SUMO conjugating enzyme (E2) in this process. To develop a better understanding of SUMO-3 conjugation, the Ubc9 binding surface on SUMO-3 C47S has been detected by chemical shift perturbation using NMR spectroscopy. The binding site mainly resides on the hydrophilic side of the beta-sheet. Negatively charged and hydrophobic residues of this region are highly or moderately conserved among SUMO family members. Notably, the negatively charged surface of SUMO-3 C47S is highly complementary in its electrostatic potentials and hydrophobicity to the positively charged surface of Ubc9. This work indicates dissimilarities between SUMO-3 and SUMO-1 in tertiary structure and provides insight into the specific interactions of SUMO-3 with its modifying enzyme. 相似文献
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Dai H Huang W Xu J Yao B Xiong S Ding H Tang Y Liu H Wu J Shi Y 《Biochimica et biophysica acta》2006,1764(11):1688-1700
Human coactosin-like protein (CLP) is a small (MW approximately 17 kDa) evolutionarily conserved actin-binding protein. It can bind to actin filaments but not globular actin and belongs to the fourth class of ADF-H-domain-containing proteins. Human CLP can also bind to 5LO, which plays an important role in cellular leukotriene synthesis. Although the structure of hCLP has been determined by both NMR and X-ray experiments, how hCLP binds to the actin filament is still a controversial question. To obtain insights into the structure of the complex, we studied the three-dimensional structure and backbone dynamics of hCLP using multidimensional NMR spectroscopy. Guided by the solution structure of the protein, a series of site-directed mutants were generated and their F-actin-binding activities were measured by high-speed cosedimentation assays. Furthermore, the structure model of the hCLP-F-actin complex was proposed using computational docking with the docking results filtered by the mutation data. Several previously untested residues (including T66, L89, R91, K102, D116 and E119) in hCLP were found important for the F-actin-binding activity. The extended region of beta4-beta5 of hCLP (residue 66-75) was found very flexible and very important for F-actin binding. The C-terminal residues of hCLP were not involved in F-actin binding, which was different from UNC-60B. Based on our hCLP-F-actin-binding model, different affinities of the four classes of ADF-H domain containing proteins for F-actin were explained. 相似文献