Shuangfeng Shi scite author profile

Shuangfeng Shi

3Publications

22Citation Statements Received

32Citation Statements Given

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Affiliations

Annoroad Gene Technology (China), Chinese Academy of Agricultural Sciences, Biotechnology Research Institute

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Transcriptomic analysis of genes in soybean in response to Peronospora manshurica infection

et al. 2018

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BackgroundSoybean downy mildew (SDM), caused by Peronospora manshurica (Pm), is a major fungal disease in soybean. To date, little is known regarding the defense mechanism at molecular level and how soybean plants response to Pm infection. In this study, differential gene expression in SDM-resistant (HR) and SDM-susceptible (HS) genotype was analyzed by RNA-seq to identify differentially expressed genes (DEGs) following Pm infection.ResultsOf a total of 55,017 genes mapped to the soybean reference genome sequences, 2581 DEGs were identified. Clustering analysis of DEGs revealed that these genes could be grouped into 8 clusters with distinct expression patterns. Functional annotation based on gene ontology (GO) and KEGG analysis indicated they involved in diverse metabolism pathways. Of particular interest were the detected DEGs participating in SA/ROS and JA signalling transduction and plant/pathogen interaction.ConclusionTotally, 52 DEGs with P value < 0.001 and log2 fold change > 2 or < − 2 upon fungal inoculation were identified, suggesting they were SDM defense responsive genes. These findings have paved way in further functional characterization of candidate genes and subsequently can be used in breeding of elite soybean varieties with better SDM-resistance.Electronic supplementary materialThe online version of this article (10.1186/s12864-018-4741-7) contains supplementary material, which is available to authorized users.

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Design and Identification of a High Efficient Formic Acid Cleavage Site For Separation of Fusion Protein

Zhang

Shi

et al. 2014

Protein J

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The release of target protein with high efficiency and low cost from expressed fusion protein is a key requirement for commercial production of target proteins. To establish such a cleavage system, we have designed four formic acid (FA) cleavage sites C1 (DPDPDP), C2 (DPPDPP), C3 (DDDDPI) and C4 (IVDPNP), which was placed in between the E and G fusion protein. Four expression vectors were individually constructed and expressed in Escherichia coli. Purified proteins were reacted with a series of FA concentrations or under different temperatures followed by SDS-PAGE gel electrophoresis to verify the degree of cleavage efficiency. Results showed that the C2 was the most efficient site compared with the other three. After optimization of cleavage conditions for E-C2-G, the cleavage efficiently could reach as high as 87.3% within 2.5 h in 37% FA at 45 °C. Comparing with previous reports, a significant reduction (26%) of FA concentration at a lower temperature in a short duration of reaction (18 times less) was achieved. We believe the cleavage site of DPPDPP identified in this study can be used in the large-scale production of valuable fusion proteins to save the cost, time and energy.

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Cloning and Characterization of a GmSAGT1 Gene Whose Transcriptional Expression Is Associated with the Level of Resistance to Soybean Downy Mildew

Sun

Yin

et al. 2014

Plant Mol Biol Rep

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Shuangfeng Shi

Transcriptomic analysis of genes in soybean in response to Peronospora manshurica infection

Design and Identification of a High Efficient Formic Acid Cleavage Site For Separation of Fusion Protein

Cloning and Characterization of a GmSAGT1 Gene Whose Transcriptional Expression Is Associated with the Level of Resistance to Soybean Downy Mildew

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