Pair of transcription activator-like effector nucleases (TALENs) and coding genes and application thereof
A transcriptional activation, one-to-one technology, applied in the field of genetic engineering, to achieve strong specificity, high accuracy, and high targeting efficiency
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Embodiment 1
[0053] The design of embodiment 1 TALENs target sequence
[0054] 1. Download goat and sheep PRNP genome sequences from NCBI (sheep Gene ID: 493887, goat PRNP gene sequence is the same as that of sheep)
[0055] 2. Design primers and PCR amplify the targeting site fragments on the genome, and sequence them. The PCR primers and sequencing primers are shown in Table 1;
[0056] Table 1
[0057]
[0058] 3. Design TALENs recognition sequence (target sequence):
[0059] According to the sequence obtained by sequencing, the recognition sequence of TALENs was determined according to the following principles:
[0060] (1) The 0th base is T (the base before the first in the recognition sequence is the 0th)
[0061] (2) The last base is T
[0062] (3) The length of the recognition sequence is between 13-19
[0063] (4) The length of the spacer sequence (Spacer) between the two recognition sequences is controlled between 13-21 (12 is also possible, but the efficiency may be lowe...
Embodiment 2
[0067] Example 2 Connection between TALENs recognition modules and construction of recombinant vector
[0068] 1. Acquisition of TALENs identification module (modular)
[0069] (1) Synthesize four recognition modules NI, NG, HD, and NK that recognize bases A, T, C, and G respectively. The sequences are shown in Table 3.
[0070] table 3
[0071]
[0072]
[0073] (2) Connect the four fragments into the pEASY-B vector (purchased from Beijing Quanshijin Company), the connection method is:
[0074] ①Take 3 μl of PCR product;
[0075] ② Add 1 μl pEASY-B vector;
[0076] ③25℃, 7min;
[0077] ④Transform DH5a competent cells and spread kanamycin plate;
[0078] ⑤Pick clones, extract plasmids in a small amount, digest, and sequence, and finally obtain the recognition modules NI, NG, HD, and NK connected to the vector pEASY-B.
[0079] 2. Identify connections between modules
[0080] Connection strategy: Take the connection of 19 identification modules as an example to ill...
Embodiment 3
[0152] The transfection of embodiment 3 plasmids
[0153] 1. Add 100 μl Matrigel to each well of a 6-well plate, shake it back and forth to make it cover the bottom of the entire well, and place it in 5% CO 2 30min in the incubator.
[0154] 2. Aspirate the culture medium in the T25 bottle for culturing IPS cells, and once in PBS, add 1mL of 0.25% trypsin, shake back and forth to make it evenly cover the bottom of the bottle, and place in 5% CO 2 5min in the incubator.
[0155] 3. After digestion, add 1ml 10% DMEM to neutralize trypsin, transfer the digested cells to a 15ml centrifuge tube, count the cells, and centrifuge at 1200rpm for 5min.
[0156] 4. Resuspend the cells with an appropriate amount of 4*Dox ES0, take 2 million IPS cells and place them in a 6-well plate that has been covered with Matrigel, and add 2ml of fresh 4*Dox ES0.
[0157] 5. Passage and transfect at the same time.
[0158] 6. Transfect the constructed PRNP-TALEN-L613, PRNP-TALEN-L614, PRNP-TALEN-L...
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