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861.
Artificial leaf aids analysis of chlorophyll fluorescence and P700 absorbance in studies involving microalgae
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Hongjin Qiao Xiao Fan Dong Xu Naihao Ye Jiying Wang Shaona Cao 《Phycological Research》2015,63(1):72-76
Measuring chlorophyll fluorescence and P700 absorbance has been widely used to study photosynthesis in both terrestrial plants and algae. However, in order to apply these measurement techniques to study microalgae, a concentrated suspension of algae, which is usually prepared by centrifugation, is required. In this study, instead of using centrifugation, we concentrated microalgae on a nitrocellulose membrane using filtration to create an ‘artificial leaf’ before analysis. Overall, we were able to generate values of the appropriate photosynthetic parameters that were comparable to those obtained when chlorophyll fluorescence and P700 absorbance were measured following centrifugation. There were no statistically significant differences (P > 0.05) between the artificial leaf method and the traditional cuvette method for determining chlorophyll fluorescence or P700 absorbance at appropriate chlorophyll concentrations. We were also able to reduce background noise by using a filter membrane as a carrier. Therefore, an artificial leaf has the potential to be a valuable tool for phycologists interested in studying microalgal photosynthesis by enabling them to eliminate tedious centrifugation steps. In addition, fluorometers commonly used for studying the leaves of higher plants will also be suitable for studying microalgae. 相似文献
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PsMPK7, a stress‐associated mitogen‐activated protein kinase (MAPK) in Phytophthora sojae,is required for stress tolerance,reactive oxygenated species detoxification,cyst germination,sexual reproduction and infection of soybean
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868.
Host‐induced gene silencing of an essential chitin synthase gene confers durable resistance to Fusarium head blight and seedling blight in wheat
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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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Xiangyang Wu Yong Wu Ruijuan Zheng Fen Tang Lianhua Qin Detian Lai Lu Zhang Lingming Chen Bo Yan Hua Yang Yang Wang Feifei Li Jinyu Zhang Fei Wang Lin Wang Yajuan Cao Mingtong Ma Zhonghua Liu Jianxia Chen Xiaochen Huang Jie Wang Ruiliang Jin Peng Wang Qin Sun Wei Sha Liangdong Lyu Pedro MouraAlves Anca Dorhoi Gang Pei Peng Zhang Jiayu Chen Shaorong Gao Felix Randow Gucheng Zeng Chang Chen XinShan Ye Stefan H E Kaufmann Haipeng Liu Baoxue Ge 《EMBO reports》2021,22(7)
Mycobacterial arabinogalactan (AG) is an essential cell wall component of mycobacteria and a frequent structural and bio‐synthetical target for anti‐tuberculosis (TB) drug development. Here, we report that mycobacterial AG is recognized by galectin‐9 and exacerbates mycobacterial infection. Administration of AG‐specific aptamers inhibits cellular infiltration caused by Mycobacterium tuberculosis (Mtb) or Mycobacterium bovis BCG, and moderately increases survival of Mtb‐infected mice or Mycobacterium marinum‐infected zebrafish. AG interacts with carbohydrate recognition domain (CRD) 2 of galectin‐9 with high affinity, and galectin‐9 associates with transforming growth factor β‐activated kinase 1 (TAK1) via CRD2 to trigger subsequent activation of extracellular signal‐regulated kinase (ERK) as well as induction of the expression of matrix metalloproteinases (MMPs). Moreover, deletion of galectin‐9 or inhibition of MMPs blocks AG‐induced pathological impairments in the lung, and the AG‐galectin‐9 axis aggravates the process of Mtb infection in mice. These results demonstrate that AG is an important virulence factor of mycobacteria and galectin‐9 is a novel receptor for Mtb and other mycobacteria, paving the way for the development of novel effective TB immune modulators. 相似文献