<i>A</i>. <i>persici</i>-conditioned diet enhances resistance to paraquat and <i>Pe</i> oral infection but susceptibility to starvation. by Taro Onuma (15195377)

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Data_Sheet_1_The OsMPK15 Negatively Regulates Magnaporthe oryza and Xoo Disease Resistance via SA and JA Signaling Pathway in Rice.docx by Yongbo Hong (596133)

“…However, the mechanisms by which various MAPK members regulate the plant immune response in rice remain elusive. In this article, to characterize the mechanisms, the knock-out and overexpression mutants of OsMPK15 were constructed and the disease resistance was investigated under the various fungal and bacterial inoculations. …”

<i>PsnWRKY95</i> transgenic plants selection and functional analysis of <i>PsnWRKY95</i> in cadmium resistance. by Yuzhao Ma (12840632)

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The effect of mycosubtilin homologue on plant growth, the expression of pathogen-associated genes, and resistance to verticillium wilt in cotton seedlings. by Rongrong Lin (3665548)

Image_3_Foliar Application of Silicon Enhances Resistance Against Phytophthora infestans Through the ET/JA- and NPR1- Dependent Signaling Pathways in Potato.JPEG by Xiaojing Xue (10044887)

“…Silicon (Si) has been used to enhance plant resistance against a broad range of bacterial and fungal pathogens; however, the enhanced LB resistance and the molecular mechanisms involving the plant hormone pathways remain unclear. …”

Image_1_Foliar Application of Silicon Enhances Resistance Against Phytophthora infestans Through the ET/JA- and NPR1- Dependent Signaling Pathways in Potato.JPEG by Xiaojing Xue (10044887)

“…Silicon (Si) has been used to enhance plant resistance against a broad range of bacterial and fungal pathogens; however, the enhanced LB resistance and the molecular mechanisms involving the plant hormone pathways remain unclear. …”

Image_5_Foliar Application of Silicon Enhances Resistance Against Phytophthora infestans Through the ET/JA- and NPR1- Dependent Signaling Pathways in Potato.JPEG by Xiaojing Xue (10044887)

“…Silicon (Si) has been used to enhance plant resistance against a broad range of bacterial and fungal pathogens; however, the enhanced LB resistance and the molecular mechanisms involving the plant hormone pathways remain unclear. …”

Table_1_Foliar Application of Silicon Enhances Resistance Against Phytophthora infestans Through the ET/JA- and NPR1- Dependent Signaling Pathways in Potato.doc by Xiaojing Xue (10044887)

“…Silicon (Si) has been used to enhance plant resistance against a broad range of bacterial and fungal pathogens; however, the enhanced LB resistance and the molecular mechanisms involving the plant hormone pathways remain unclear. …”

Image_4_Foliar Application of Silicon Enhances Resistance Against Phytophthora infestans Through the ET/JA- and NPR1- Dependent Signaling Pathways in Potato.JPEG by Xiaojing Xue (10044887)

“…Silicon (Si) has been used to enhance plant resistance against a broad range of bacterial and fungal pathogens; however, the enhanced LB resistance and the molecular mechanisms involving the plant hormone pathways remain unclear. …”

Image_2_Foliar Application of Silicon Enhances Resistance Against Phytophthora infestans Through the ET/JA- and NPR1- Dependent Signaling Pathways in Potato.JPEG by Xiaojing Xue (10044887)

“…Silicon (Si) has been used to enhance plant resistance against a broad range of bacterial and fungal pathogens; however, the enhanced LB resistance and the molecular mechanisms involving the plant hormone pathways remain unclear. …”

Table_2_Foliar Application of Silicon Enhances Resistance Against Phytophthora infestans Through the ET/JA- and NPR1- Dependent Signaling Pathways in Potato.doc by Xiaojing Xue (10044887)

“…Silicon (Si) has been used to enhance plant resistance against a broad range of bacterial and fungal pathogens; however, the enhanced LB resistance and the molecular mechanisms involving the plant hormone pathways remain unclear. …”

DataSheet_1_Phyllosphere bacterial community dynamics in response to bacterial wildfire disease: succession and interaction patterns.pdf by Deyuan Peng (18139009)

“…The M3 and M4 microbial communities have more intricate molecular ecological networks (MENs), bursting with interconnections within a densely networked bacterial population. The relative abundances of plant-beneficial and antagonistic microbes Clostridiales, Bacillales, Lactobacillales, and Sphingobacteriales, showed significant decrease in severally diseased sample (M3) compared to the pre-diseased samples (M1/M2). …”

DataSheet_1_Rice cellulose synthase-like protein OsCSLD4 coordinates the trade-off between plant growth and defense.docx by Xiong Liu (43564)

“…After inoculation with rice blast and bacterial blight, dnl19 displays an enhanced disease resistance. …”

Summary of growth parameters in eight treatments at the end of the growth experiment. by Razia Liaqat (17873634)

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Essential amino acids (EAA) and non-essential amino acids (NEAA) contents from fish muscles from eight treatments at the end of the growth experiment; expressed as %. by Razia Liaqat (17873634)

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Chemical composition of muscles in eight treatments at the end of the growth experiment. by Razia Liaqat (17873634)

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Histological changes in liver. by Razia Liaqat (17873634)

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Kaplan-Meier survival curves of striped catfish following infection by immersion challenge with <i>S</i>. by Razia Liaqat (17873634)

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Histological changes in gut. by Razia Liaqat (17873634)

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Profile of amino acids (% of complete diet) in experimental diets. by Razia Liaqat (17873634)

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