Larimichthys crocea interferon regulatory factor IRF7 starter, nucleic acid builder, cell and preparing method and application of the larimichthys crocea interferon regulatory factor IRF7 starter
A technology of nucleic acid constructs and regulators, applied in the field of genetic engineering, can solve problems such as lack of research
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Embodiment 1
[0036] Embodiment 1: the cloning of large yellow croaker interferon regulatory factor IRF7 gene promoter
[0037] Based on the following figure 1 process steps.
[0038] Using the large yellow croaker genome (extract the large yellow croaker genome DNA from the large yellow croaker on the market according to the normal genome extraction process) as a template, design primers, and the primer sequence is as follows;
[0039] Forward primer: 5′-CGG GGTACCGTCATCATCACATCAGGGGTCGG -3'SEQ ID NO:2; wherein the underlined straight line is the KpnI restriction site, and the underlined wavy line is SEQ ID NO:4;
[0040] Reverse primer: 5′-GA AGATCTCTGGCAAACTGAGGCTTGGGAGG -3' SEQ ID NO:3; where the underlined straight line is the Bgl II restriction site, and the underlined wavy line is SEQ ID NO:5.
[0041] Use TaKaRa ExTaq enzyme to PCR amplify the promoter of the large yellow croaker interferon regulatory factor IRF7 gene, and the PCR reaction system is as follows:
[0042]
...
Embodiment 2
[0048] Example 2: Construction of the large yellow croaker interferon regulatory factor IRF7 gene promoter recombinant vector pGL4-IRF7-pro
[0049] 1) Expand and cultivate the Top10 strain of the above-mentioned pMD19-T-IRF7-pro recombinant vector, extract the plasmid, and digest the recombinant plasmid with Kpn I / Bgl II, perform agarose gel electrophoresis, and cut the gel for recovery. Later IRF7 promoter;
[0050] 2) Digest the pGL4.17 luciferase reporter vector (promega company) with Kpn I / Bgl II double enzymes and recover the digested vector with a gel recovery kit;
[0051] 3) Use T4 DNA ligase from TaKaRa Company to connect the double-digested IRF7 promoter sequence fragment and the vector pGL4.17 to construct the recombinant vector pGL4-IRF7-pro. The connection system is as follows:
[0052]
[0053] Reaction conditions: Incubate overnight at 16°C;
[0054] 4) Transform the above ligation product into Escherichia coli Top10 competent cells, screen positive clones...
Embodiment 3
[0056] Example 3: Dual-luciferase reporter gene detection system analyzes the activity of the large yellow croaker interferon regulatory factor IRF7 gene promoter
[0057] 1. Inoculate EPC cells in a 24-well cell culture plate, 2×10 per well 5 Add 500 μl of MEM medium to each cell, and culture overnight in a biochemical incubator at 25°C;
[0058] 2. Use Invitrogen’s Lipofectamine for each well of EPC cells TM 3000 transfection reagent co-transfect 100ng of recombinant vector pGL4-IRF7-pro obtained in Example 2 and 10ng Renilla luciferase control reporter gene vector pRL-TK; at the same time, co-transfect 100ng empty vector pGL4.17 and 10ng sea Renal luciferase control The EPC cells of the reporter gene carrier pRL-TK were used as the control; 3 replicates were set for each treatment. The specific steps of cell transfection are as follows:
[0059] a) Mix the vector to be transfected (100ng pGL4-IRF7-pro+10ng pRL-TK or 100ng pGL4.17+10ng pRL-TK) with 25μl Opti-MEM medium (...
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