Polygene assembling carrier system and its polygene assembling method

A vector system and multi-gene technology, applied in the field of multi-gene assembly vector system and its multi-gene assembly, can solve the problems of time-consuming, labor-intensive, difficult to use, low efficiency, etc.

Active Publication Date: 2017-09-19
SOUTH CHINA AGRI UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, the above methods are still difficult, time-consuming and labor-intensive to use in multi-gene assembly, and the efficiency is not high
For example, the MISSA multi-gene system requires the use of two recombination systems, Cre/loxP and Gateway, and the complex method of bacterial mating-assisted transfer to achieve gene transfer and fusion between two strains with a donor carrier and a recipient carrier, which is cumbersome and complicated; The multigene vector sys

Method used

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  • Polygene assembling carrier system and its polygene assembling method
  • Polygene assembling carrier system and its polygene assembling method
  • Polygene assembling carrier system and its polygene assembling method

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0097] Construction of acceptance vector

[0098] S1. Construction of acceptance vectors pYL0380 and pYL1300H

[0099] Such as Figure 5 As shown in A, the sequence (EcoR I / Sac I / Kpn I / I-Ceu I / I-Ceu I / BamH I / PI-Psp I / Sal I / Pst I / loxP / I-Sce I / loxP1R / I-Ppo I / Hind III, image 3 B, this sequence is as shown in SEQ ID NO.4), after EcoR I and Hind III double enzyme digestion, connect into pCAMBIA0380 and pCAMBIA1300 plasmid (Australian CAMBIA company) through EcoR I and Hind III double enzyme digestion, obtain accepting vector pYL0380 and acceptor vector pYL1300H.

[0100] S2. Construction of acceptance vector pYLTAC380

[0101] Such as Figure 5 As shown in B, the TAC vector pYLTAC747 plasmid (disclosed in the literature "Lin et al., 2003. Efficient linking and transfer of multiple genes by a multigene assembly and transformation vector system. Proc Natl Acad Sci., 100:5962-5967") is Template, carry out PCR amplification with primer P1 / P2 (primer 5' end contains XbaI site), ...

Embodiment 2

[0107] Construction of supply vector I and supply vector II

[0108] S1. Construction of supply vector I plasmid pYL322d1

[0109] Such as Image 6 As shown in A, use primers P7 / P8 (the 5' ends of the primers contain BssH II / EcoR V sites and Mlu I sites respectively) and P9 / P10 (the 5' ends of the primers contain BssHII and Mlu I sites respectively), and use Figure 5 The pYL1300H and pYLSV plasmids constructed in A (disclosed in the literature "Lin et al., 2003. Efficient linking and transfer of multiple genes by a multigene assembly and transformation vector system. Proc Natl Acad Sci., 100:5962-5967") were used as templates Perform PCR amplification to obtain BssHII / EcoR V / pBR322 replicon / Mlu I fragment and BssHII / Cm r / Mlu I fragment (insert fragment I). The intermediate vector d1-I was obtained by double digestion with BssH II and Mlu I and ligation; the commercially synthesized fragment containing BssH II site BssH II / loxP / PI-Sce I / loxP2R / MCS / loxP1L / I-Sce I / BssH II ...

Embodiment 3

[0113] Construction of marker-free supply plasmid

[0114] Such as Figure 7 As shown, use long primers P15 / P16 (the 5' end of the primers contain Xba I / Asc I / attB1 sites and HindIII / Xba I / attB2 sites respectively), and use the supply vector II plasmid pYL322d2 as a template for PCR amplification to obtain Xba I / Asc I / attB1 / pBR322 Replicon / Amp r The backbone fragment of / attB2 / HindIII / Xba I was cut and self-ligated with Xba I to obtain the intermediate vector pYLMF-0.

[0115] Using the DNA of rice variety Zhonghua 11 as a template, use primers P17 / P18 to amplify the promoter PV4 of the anther-specific expression gene Villin 4 (gene number Os04g0604000) as fragment 1, and use primers P19 / P20 to use Escherichia coli NS3529 genomic DNA as a template Amplify the Cre gene coding region (sequence is the same as GenBank No.DQ340306) to obtain fragment 2, use primers P21 / P22 to amplify the Nos terminator Tnos from plasmid pCAMBIA1305 (CAMBIA company) as fragment 3, and use the abov...

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Abstract

The invention discloses a polygene assembling carrier system and its polygene assembling method. The system comprises a 1-type accepting carrier, a 2-type supply carrier, and a supply plasmid capable of being selectively used and generating self-deletion of a selection marker. The system applies a Cre/loxP recombination system and irreversible recombination sites of two groups of mutant type loxP; under the function of Cre enzyme, the supply carrier is integrated to the accepting carrier through the recombination of a wild loxP site; then a framework of the supply carrier is automatically deleted through the irreversible recombination of one group of mutant type loxP, and only the target gene is left on the accepting carrier; by repeating the alternation of the 2-type supply carrier and the assembly of the accepting carrier, the rapid assembly of the polygene can be realized. The invention is the simplest and most high-efficient polygene carrier system at present. Therefore, the polygene assembling carrier system provides an operable technology platform for important and complex biosynthetic pathways and important agronomic trait polygenic inheritance engineering; the polygene assembling carrier system is of important application value.

Description

technical field [0001] The invention relates to the field of biotechnology, in particular to a multi-gene assembly carrier system and a multi-gene assembly method thereof. Background technique [0002] Important traits in plants (crops), such as many agronomic traits, complex metabolic synthesis pathways, important signal transduction pathways, and protein complexes with important functions, all involve the interaction of multiple genes and are controlled by multiple genes. Need to use the multi-gene transformation stacking technology (TransGeneStacking, TGS). However, the conventional transgenic technology can only complete the operation of a small number of (usually 1-3) genes. "Golden Rice" and "Purple Tomato" are two successful cases of multi-gene transformation crops reported so far, but they only use 2 genes. Therefore, multi-gene assembly and transformation technology is a hot and difficult point in genetic engineering research, and has important application prospec...

Claims

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Application Information

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IPC IPC(8): C12N15/63C12N15/66
CPCC12N15/63C12N15/66C12N2800/30
Inventor 刘耀光祝钦泷
Owner SOUTH CHINA AGRI UNIV
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