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Multi-module DNA (deoxyribonucleic acid) library and method for constructing transcription activator like effector nuclease plasmid

A transcription activation and effector technology, applied in the field of genetic engineering, can solve the problems of material cost, time cost, high sequencing cost, unfavorable TALEN specificity, cumbersome operation, etc.

Active Publication Date: 2014-04-02
上海煦顼技术有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

But they all have their own defects, because the chemical synthesis of highly repetitive sequences of DNA to be synthesized is very difficult and the cost is very high; the two-step method requires two steps of connection, so the material cost, time cost, and sequencing cost are all high; the now public The only method that can be connected in one step can only connect up to 14 recognition modules, and the length of common recognition modules in nature is 12-23. The limitation not only affects the application of this method, but also is not conducive to the improvement of TALEN specificity, and because of the need for enzyme digestion, purification, and re-ligation, the operation is cumbersome, the process is complicated, and the DNA after enzyme digestion and purification is difficult to store, especially single-stranded DNA. tail easily degrades
[0006] In the past, some researchers connected TALEN with a single module, such as connecting 18 recognition modules. It is very difficult to connect 18 fragments in one reaction, and no one in the world has been able to achieve it; Can connect 14 identification modules

Method used

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  • Multi-module DNA (deoxyribonucleic acid) library and method for constructing transcription activator like effector nuclease plasmid
  • Multi-module DNA (deoxyribonucleic acid) library and method for constructing transcription activator like effector nuclease plasmid
  • Multi-module DNA (deoxyribonucleic acid) library and method for constructing transcription activator like effector nuclease plasmid

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0071] Example 1 Connection between TALENs recognition modules and construction of recombinant vector

[0072] In a preferred mode of the present invention, n=12, m=7, p=4; in the multi-module unit library, the number of double-base linking units is 12, which are divided into two groups, numbered 1-4 and 6-13 , the base sequences of the first cohesive end and the second cohesive end are respectively shown in the 9th-12th bases of SEQ ID No.45-52 and SEQ ID No.55-70. There are 7 single-base linking units in each group, and the coded amino acid sequences are, for example, the base sequences of the first sticky end and the second sticky end of the single-base linking units numbered 1 to 7, respectively, such as SEQ ID No.45-58 Bases 9-12 are indicated. The first sticky end of the single-base linking unit numbered 5 is complementary to the second sticky end of the double-base linking unit numbered 4, and the second sticky end is complementary to the first sticky end of the double...

Embodiment 2

[0143] Ligate TALENs that recognize the following bases.

[0144] Fragment 1: CGCGCGCGCGCGCGCGCGCGCGCGCT,

[0145] Fragment 2: CGCGCGCGCGCGCGCGCGCGCGCT,

[0146] Fragment 3: CCCACTCGTCCCATCCAGTA;

[0147] (1) First select the required recognition module from the PCR library:

[0148] CGCGCGCGCGCGCGCGCGCGCGCGCGCT selection modules CG-1, CG-2, CG-3, CG-4, C-5, GC-6, GC-7, GC-8, GC-9, GC-10, GC-11, GC-12 , GC-13; the connection vector is pEF1a-NLS-TALE backbone-Fok1(R)–pA (with a T recognition module on the vector).

[0149] CGCGCGCGCGCGCGCGCGCGCGCT selection modules C-1, G-2, C-3, G-4, C-5, GC-6, GC-7, GC-8, GC-9, GC-10, GC-11, GC-12 , GC-13. The connection vector is pEF1a-NLS-TALE backbone-Fok1(R)-pA (with a T recognition module on the vector).

[0150] CCCACTCGTCCCATCCAGTA select modules C-1, C-2, C-3, A-4, C-5, T-6, C-7, GT-8, CC-9, CA-10, TC-11, CA-12 , GT-13. The connection vector is pEF1a-NLS-TALE backbone-Fok1(R)-pA (with an A recognition module on the vector).

...

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Abstract

The invention discloses a DNA (deoxyribonucleic acid) library and a method for constructing a transcription activator like effector nuclease plasmid. A transcription activator like effector connection unit library comprises 16 groups*n double-basic group identification modules and 4 groups*m single-basic group identification modules, wherein two tail ends of each double-basic group identification module or single-basic group identification module are both formed into a first cohesive tail end and a second cohesive tail end by being subjected to enzyme digestion through a second class restriction enzyme; n expresses the quantity of each group of double-basic group identification modules, and m expresses the quantity of each group of single-basic group identification modules. The DNA library comprises plasmids, wherein the plasmids are the same as the connection units of the Tale connection unit library in quantity, each plasmid comprises a connection unit with basic group sequences mutually different, the connecting positions of the two tail ends of the connection unit and an original carrier are provided with BsaI enzyme digestion sites. The DNA library disclosed by the invention is used for constructing the transcription activator like effector nuclease plasmid, can realize that 19-26 identification modules are connected for one step by identifying the enzyme digestion of the modules and connecting in same reaction, and has the advantages of high speed, high efficiency, easiness for operation, easiness for material preservation and low cost.

Description

technical field [0001] The invention relates to the field of genetic engineering, in particular to a TALE junction unit library, a DNA library comprising all TALE junction units in the TALE junction unit library, and a method for constructing a transcription activator-like effector nuclease plasmid. Background technique [0002] It has always been the dream of many scientists to modify the genome according to human wishes. Specifically delete or add the sequences we need on the endogenous genome. On the one hand, various animal models can be constructed for basic biological research and disease mechanism research. On the other hand, animal reactors can be produced to produce what we need cheaply. Biological components that are difficult to obtain from other sources. People have not found a simple and efficient method for genome-targeted modification of the genome. Traditional gene targeting technology relies on the random exchange of homologous chromosomes naturally occurr...

Claims

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Application Information

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IPC IPC(8): C12N15/66C40B40/08C40B50/06
Inventor 吴昭孙文页
Owner 上海煦顼技术有限公司
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