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951.
Bone marrow mesenchymal stem cells protect alveolar macrophages from lipopolysaccharide‐induced apoptosis partially by inhibiting the Wnt/β‐catenin pathway 下载免费PDF全文
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Host‐induced gene silencing of an essential chitin synthase gene confers durable resistance to Fusarium head blight and seedling blight in wheat 下载免费PDF全文
Wei Cheng Xiu‐Shi Song He‐Ping Li Le‐Hui Cao Ke Sun Xiao‐Li Qiu Yu‐Bin Xu Peng Yang Tao Huang Jing‐Bo Zhang Bo Qu Yu‐Cai Liao 《Plant biotechnology journal》2015,13(9):1335-1345
Fusarium head blight (FHB) and Fusarium seedling blight (FSB) of wheat, caused by Fusarium pathogens, are devastating diseases worldwide. We report the expression of RNA interference (RNAi) sequences derived from an essential Fusarium graminearum (Fg) virulence gene, chitin synthase (Chs) 3b, as a method to enhance resistance of wheat plants to fungal pathogens. Deletion of Chs3b was lethal to Fg; disruption of the other Chs gene family members generated knockout mutants with diverse impacts on Fg. Comparative expression analyses revealed that among the Chs gene family members, Chs3b had the highest expression levels during Fg colonization of wheat. Three hairpin RNAi constructs corresponding to the different regions of Chs3b were found to silence Chs3b in transgenic Fg strains. Co‐expression of these three RNAi constructs in two independent elite wheat cultivar transgenic lines conferred high levels of stable, consistent resistance (combined type I and II resistance) to both FHB and FSB throughout the T3 to T5 generations. Confocal microscopy revealed profoundly restricted mycelia in Fg‐infected transgenic wheat plants. Presence of the three specific short interfering RNAs in transgenic wheat plants was confirmed by Northern blotting, and these RNAs efficiently down‐regulated Chs3b in the colonizing Fusarium pathogens on wheat seedlings and spikes. Our results demonstrate that host‐induced gene silencing of an essential fungal chitin synthase gene is an effective strategy for enhancing resistance in crop plants under field test conditions. 相似文献
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Xiang Luo Chaozhi Ma Yao Yue Kaining Hu Yaya Li Zhiqiang Duan Ming Wu Jinxing Tu Jinxiong Shen Bin Yi Tingdong Fu 《BMC genomics》2015,16(1)
Background
Harvest index (HI), the ratio of grain yield to total biomass, is considered as a measure of biological success in partitioning assimilated photosynthate to the harvestable product. While crop production can be dramatically improved by increasing HI, the underlying molecular genetic mechanism of HI in rapeseed remains to be shown.Results
In this study, we examined the genetic architecture of HI using 35,791 high-throughput single nucleotide polymorphisms (SNPs) genotyped by the Illumina BrassicaSNP60 Bead Chip in an association panel with 155 accessions. Five traits including plant height (PH), branch number (BN), biomass yield per plant (BY), harvest index (HI) and seed yield per plant (SY), were phenotyped in four environments. HI was found to be strongly positively correlated with SY, but negatively or not strongly correlated with PH. Model comparisons revealed that the A–D test (ADGWAS model) could perfectly balance false positives and statistical power for HI and associated traits. A total of nine SNPs on the C genome were identified to be significantly associated with HI, and five of them were identified to be simultaneously associated with HI and SY. These nine SNPs explained 3.42 % of the phenotypic variance in HI.Conclusions
Our results showed that HI is a complex polygenic phenomenon that is strongly influenced by both environmental and genotype factors. The implications of these results are that HI can be increased by decreasing PH or reducing inefficient transport from pods to seeds in rapeseed. The results from this association mapping study can contribute to a better understanding of natural variations of HI, and facilitate marker-based breeding for HI.Electronic supplementary material
The online version of this article (doi:10.1186/s12864-015-1607-0) contains supplementary material, which is available to authorized users. 相似文献960.
Canying Liu Huajun Zheng Minjun Yang Zhuofei Xu Xiangru Wang Liuya Wei Biao Tang Feng Liu Yanyan Zhang Yi Ding Xibiao Tang Bin Wu Timothy J. Johnson Huanchun Chen Chen Tan 《BMC genomics》2015,16(1)