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In vitro membrane protein molecular evolutionary engineering technique

外国特許コード F170009184
整理番号 E102P05WO
掲載日 2017年9月12日
出願国 アメリカ合衆国
出願番号 201314411892
公報番号 20150176004
公報番号 9862942
出願日 平成25年6月17日(2013.6.17)
公報発行日 平成27年6月25日(2015.6.25)
公報発行日 平成30年1月9日(2018.1.9)
国際出願番号 JP2013003767
国際公開番号 WO2014002424
国際出願日 平成25年6月17日(2013.6.17)
国際公開日 平成26年1月3日(2014.1.3)
優先権データ
  • 特願2012-145795 (2012.6.28) JP
  • 2013WO-JP03767 (2013.6.17) WO
発明の名称 (英語) In vitro membrane protein molecular evolutionary engineering technique
発明の概要(英語) (US9862942)
The objective of the present invention is to improve the efficiency of screening/selection of a membrane protein in molecular evolutionary engineering (for example, an enzyme evolutionary method).
The above-described objective is achieved by providing a unilamellar liposome comprising: (a) a DNA comprising a promoter sequence, a translational initiation sequence, and a sequence encoding a membrane protein; (b) an RNA polymerase; (c) a ribonucleotide; and (d) a cell-free protein synthesis system.
In one aspect of the present invention, the membrane protein is a transporter, and the unilamellar liposome further comprises (e) a factor that binds to a ligand transported by the membrane protein.
特許請求の範囲(英語) [claim1]
1. A unilamellar liposome enclosing: (a) a DNA comprising a promoter sequence, a translational initiation sequence, and a sequence encoding a transporter protein;
(b) an RNA polymerase;
(c) a ribonucleotide;
(d) a cell-free protein synthesis system; and
(e) a factor that binds to a ligand transported by translated transporter protein,
wherein the unilamellar liposome is treated with a nuclease, and the nuclease is selected from the group consisting of a ribonuclease and a deoxyribonuclease.
[claim2]
2. The unilamellar liposome of claim 1, wherein the nuclease is a ribonuclease.
[claim3]
3. A library comprising a plurality of unilamellar liposomes of claim 1.
[claim4]
4. The library of claim 3, wherein the nuclease is a ribonuclease.
[claim5]
5. A unilamellar liposome enclosing: (a) an RNA comprising a translational initiation sequence, and a sequence encoding a transporter protein;
(b) a cell-free protein synthesis system; and
(c) a factor that binds to a ligand transported by translated transporter protein, and
wherein the unilamellar liposome is treated with a nuclease, and the nuclease is a ribonuclease.
[claim6]
6. A library comprising a plurality of unilamellar liposomes of claim 5.
[claim7]
7. A method of producing the unilamellar liposome of claim 1, comprising: (1) preparing a unilamellar liposome enclosing: (a) a DNA comprising a promoter sequence, a translational initiation sequence, and a sequence encoding a transporter protein;
(b) an RNA polymerase;
(c) a ribonucleotide;
(d) a cell-free protein synthesis system; and
(e) a factor that binds to a ligand transported by translated transporter protein, and
(2) treating the unilamellar liposome prepared in (1) with a nuclease,
wherein the nuclease is selected from the group consisting of a ribonuclease and a deoxyribonuclease.
[claim8]
8. The method of claim 7, wherein the nuclease is a ribonuclease.
[claim9]
9. A method of producing the unilamellar liposome of claim 5, comprising: (1) preparing a unilamellar liposome enclosing: (a) an RNA comprising a translational initiation sequence, and a sequence encoding a transporter protein;
(b) a cell-free protein synthesis system; and
(c) a factor that binds to a ligand transported by translated transporter protein, and
(2) treating the unilamellar liposome prepared in (1) with a nuclease,
wherein the nuclease is a ribonuclease.
[claim10]
10. A screening method using a library of unilamellar liposomes, comprising: (i) providing the library of claim 3 or 4;
(ii) selecting a unilamellar liposome having a desired feature from the library;
(iii) amplifying a DNA included in the unilamellar liposome to obtain an amplified DNA; and
(iv) isolating the amplified DNA of (iii).
[claim11]
11. A screening method using a library of unilamellar liposomes, comprising: providing the library of claim 6;
(ii) selecting a unilamellar liposome having a desired feature from the library;
(iii) generating a DNA by operating a reverse transcriptase on an RNA included in the unilamellar liposome to obtain a generated DNA;
(iv) amplifying the generated DNA of (iii) to obtain amplified DNA; and
(v) isolating the amplified DNA of (iv).
  • 発明者/出願人(英語)
  • YOMO TETSUYA
  • MATSUURA TOMOAKI
  • SOGA HARUKA
  • WATANABE HAJIME
  • FUJII SATOSHI
  • JAPAN SCIENCE AND TECHNOLOGY AGENCY
国際特許分類(IPC)
参考情報 (研究プロジェクト等) ERATO YOMO Dynamical Micro-scale Reaction Environment AREA
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