三本鎖 DNA 形成による遺伝子発現の化学的制御(アンチジーン法)のための分子設計
スポンサーリンク
概要
- 論文の詳細を見る
The triplex formation between the duplex and a single strand DNA has been shown to inhibit transcription at the specific DNA site, and expected as a new biological tool and a new therapeutic method in the so-called antigene strategy. However, native oligonucleotides can form triplexes only within the major groove of the homopurine-homopyrimidine stretch of DNA, and the triplex is destabilized either at a TA or a CG interrupting site. Despite a number of methods have been attempted to expand the limitation of triplex formation, this problem has not been generally solved. This review describes (1) molecular design to stabilize triplex at a TA or a CG interrupting site, including new recognition molecules which have been recently shown by the reviewer and coworkers to be specific toward each base pair. And (2) some method to enhance stability of triplexes with use of DNA binding molecules such as intercalators, cross-linking agents, and groove binders are also discussed.
- 社団法人 有機合成化学協会の論文
- 1997-07-01
著者
-
SASAKI Shigeki
Graduate School of Pharmaceutical Sciences, Kyushu University
-
佐々木 茂貴
九州大学薬学部
-
佐々木 茂貴
九州大学薬学部製薬化学科
関連論文
- P088 ニトロフェナンスレン、アリストロキア酸によってC3H/Heマウスに誘発される8-Oh-dGの緑黄色野菜による抑制効果について(ポスターセッション)
- W3-5 ニトロフェナンスレン、アリストロキア酸によってC3H/Heマウスに誘発される8-OH-dGの緑黄色野菜による抑制効果について(ワークショップ(3) : 変異原とその作用機構)
- P1-009 緑黄色野菜抽出物による8-OH-dGの抑制効果(活性酸素種)
- 抗不整脈薬などによる薬剤性カタレプシー発現強度のレセプター占有率に基づいた定量的予測
- 抗不整脈薬などによる薬剤性パーキンソニズムの定量的予測
- Synthesis of ^C-Labelled Bis (phenylalkyl) amines and Their in Vitro and in Vivo Binding Properties in Rodent and Monkey Brains (Medicinal Chemistry)
- Synthesis and Brain Regional Distribution of [^C]NPS 1506 in Mice and Rat: an N-Methyl-D-aspartate (NMDA) Receptor Antagonist(Medicinal Chemistry)
- Development of Efficient Packaging Method of Oligodeoxynucleotides by a Condensed Nano Particle in Lipid Envelope Structure(Biopharmacy)
- NOVEL BICYCLIC CHIRAL CROWN ETHERS HAVING A p-XYLENEDIOXY UNIT WITH INPROVED COMPLEX STABILITY AND RATE-ENHANCEMENT IN THE INTRA-COMPLEX THIOLYSIS OF α-AMINO ACID ESTER SALTS
- 薬学会年会講演の電子メール受付 : その利点・問題点および将来展望
- Biomimetic Studies Using Artificial Systems. II. Enantioselective Thiolysis of D- or L-α-Amino Acid Ester Salts by Thiol-Bearing Chiral Crown Ethers as an Enzyme Model
- Peptide Library-Derived Inhibitors of Lipolytic Enzyme Phospholipase A_2
- 3本鎖DNA認識コード拡張のための人工ヌクレオシドの開発
- クラウンエーテルとクリプタンドの化学, R.M.Izatt, J.J.Christensen共編, 庄野利之, 柳田祥三, 木村恵一共訳, A5判, 331頁, 3800円, (化学同人)
- Biomimetic Studies Using Artificial Systems. IV. : Biomimetic Peptide Synthesis by Using Multi-Functionalized Crown Ethers as a Novel Enzyme Model. A New Concept in Mimicking of Enzyme-Catalyzed Bond-Forming Reactions
- 施光計
- クラウン化合物によるイオン認識 (分子の認識と機能の発現)
- Chemical Tools for Targeted Mutagenesis of DNA Based on Triple Helix Formation (Biological and Pharmaceutical Aspects of Nucleic Acids Chemistry)
- P-76 Selective Reaction to the Target Gene Using the Inducible Alkylating System of the Oligonucleotides in the Cell
- Synthesis of Reactive Oligonucleotides for Gene Targeting and Their Application to Gene Expression Regulation
- 20-[^F]Fluoroarachidonic Acid : Tissue Biodistribution and Incorporation into Phospholipids
- 遺伝子発現機構を標的とする核酸医薬品の新しい化学
- Reversible Fluorescence Derivatization of Amino Groups Using Dansylaminomethylmaleic Acid via Its Anhydride
- 三本鎖 DNA 形成による遺伝子発現の化学的制御(アンチジーン法)のための分子設計
- Synthesis of 1'-phenyl substituted nucleoside analogs
- 国際薬学連合(FIP)第69回年会参加報告
- 遺伝子発現の制御を目指した三重鎖形成人工塩基の新展開
- インテリジェント人工核酸の開発
- 奨励賞受賞 小比賀聡氏の業績
- 特定遺伝子の発現制御
- 遺伝子発現の化学的制御を目指した機能性認識分子の創製
- 遺伝子を標的とする細胞内DDSとしてのオリゴヌクレオチド
- テロメラーゼ阻害剤の開発
- ゲノム配列や立体構造を読み取る新しいくすりの創造(ヘッドライン:生命と化学の接点を探る)
- ゲノム標的化学で目指す新しい生物機能の創成(ヘッドライン:人工DNA)
- 三本鎖形成によるDNA認識のための人工塩基の開発
- The alkyl-connected 2-amino-6-vinylpurine (AVP) crosslinking agent for improved selectivity to the cytosine base in RNA
- The ODN probes conjugating the Cu(II) complex enhance the luminol chemiluminescence by assembling on the DNA template
- Synthesis of new derivatives of 8-oxoG-Clamp for better understanding the recognition mode and improvement of selective affinity