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第 31 章 DNA 的重组

第 31 章 DNA 的重组. DNA 分子内或分子间遗传信息的重新组合 重组的形式多种多样: 真核生物减数分裂时染色体的交换 原核生物不同亲代两组 DNA 遗传重组 重组是进化的动力 遗传多样性的基础 将有利突变固定遗传. Recombination. Homologous recombination Site-specific recombination Transposition. Mutation Relevance

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第 31 章 DNA 的重组

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  1. 第31章 DNA的重组 DNA分子内或分子间遗传信息的重新组合 重组的形式多种多样: 真核生物减数分裂时染色体的交换 原核生物不同亲代两组DNA遗传重组 重组是进化的动力 遗传多样性的基础 将有利突变固定遗传

  2. Recombination Homologous recombination Site-specific recombination Transposition Mutation Relevance An important reason for variable DNA sequences among different populations of the same species

  3. 1.同源重组:一般性重组,最基本的重组方式 两条同源DNA分子经过配对、断裂和再连接,而产生片段交换 主要发生在减数分裂时期染色体交叉,四分体形成 重点:Holiday中间体 过程:断裂、交叉、分支移动、弯曲、旋转、切开 2.位点特异性重组 3.转座重组

  4. Homologous recombination ( 同源重组) The exchange of homologous regions between two DNA moleculs Diploid eukaryotes: crossing over Haploid prokaryotes: recA-dependent, Holliday model DNA repair in replication fork

  5. occur between Homo-chromosome / Homo-seq. sister & non-sister chromatids transformation, transduction conjugation, transfection… Homologous Recombination • large fragment exchange • Recombination site is in hotspot mostly • Recombinase be needed (RecA, BCD)

  6. 核酸外切酶活性 具有解链酶活性(ATPase)& 同源重组可产生异源双链和同源双链 重组十分精确 两DNA分子具有75bp以上的同源区 并不要求完全同源 重组与复制、重组修复密切相关 需要多种酶的参与 Rec A蛋白:促进单链同化及SOS反应,最重要的重组蛋白 Rec A蛋白结合在单链上,与同源双链交换,置换出另一条单链 Rec BCD蛋白:产生参与重组的DNA单链

  7. Rec BCD蛋白:三种酶活,移到chi位点时,切成具有游离3,端的单链,GCTGGTGG Ruv A 和Ruv B促进异源双链的形成 Ruv C拆分Holiday中间体 细菌的基因转移与重组: 接合: 性因子,F质粒 转化: 感受态 转导: 噬菌体为媒介 融合:

  8. nick release S.S. DNA(被RecA-p结合) • 使D.S. DNA 使crossover point 沿D.S.DNA 解旋的方向移端(migration) 使heteroduplex region 重新形成螺旋 • RecBCD-p特异识别GCTGGTGGT序列 • 并在其下游4-6bp处切断S.S.DNA χ(chi)—sequence 交换热点

  9. Diploid eukaryotes: crossing over • Homologous chromosomes line up in meiosis (when) • The nonsister chromatids exchange equivalent sections (what)

  10. Holliday Intermediate structure

  11. Haploid prokaryotes recombination Between the two homologous DNA duplex (where) • between the replicated portions of a partially duplicated DNA • between the chromosomal DNA and acquired “foreign” DNA Holliday model(How)

  12. recA-dependent bacterial homologous recombination • Homologous DNA pairs 2. Nicks made near Chi (GCTGGTGG) sites by a nuclease. 3’ 5’ 3’ 5’ 3’ 5’ 3’ 5’ 3. ssDNA carrying the 5’ ends of the nicks is coated byRecA to form RecA-ssDNA dilaments.

  13. 3. RecA-ssDNA filaments search the opposite DNA duplex for corresponding sequence (invasion). 4. form a four-branched Holliday structure 5. Branch migration

  14. 6. Resolving Holliday junction

  15. RuvAB is an asymmetric complex that promotes branch migration of a Holliday junction.

  16. Recombination based DNA repair at replication fork a. Replication encounter a DNA lesion b. Skip the lesion & re-initiate on the side of the lesion c. Fill the daughter strand gap by replacing it with the corresponding section from the parental sister strand d. post-replication repair of the left lesion

  17. Rec.A-p Hydrogen bond reform heterodulpex

  18. χ(chi)—sequence 具有物种,基因和genome seq.的特异性 chi RecBCD DNA解旋 再螺旋 OH 4-6bp RecA-p in E.coli genome 1000 chi-seq.

  19. 2.位点特异性重组 重组发生在特异的重组位点上 可以是分子内,也可以是分子间 都是四条单链 同一DNA分子同向:切除 同一DNA分子反向:倒位 不同DNA分子:整合 Ig的基因重排

  20. Site-specific recombination ( 位点专一重组) • Exchange of non-homologous but specific pieces of DNA (what) • Mediated by proteins that recognize specific DNA sequences. (how)

  21. Site-Dependent Specific Recombination • Integrase • (Int-ase be needed & not need RecA-p ) • Conservative recombination

  22. Site-specific recombination: bacteriophagel insertion • l-encoded integrase (Int): makes staggered cuts in the specific sites • Int and IHF (integration host factor encoded by bacteria): recombination and insertion • l-encoded excisionase (XIS): excision of the phage DNA

  23. p O p’ attP of λ attB of E.coli B O B’ Int (Integrase) Xis (Excisionase) IHF (Integration host factor) FIS (factor of inversion stimulation) B O P’ P O B’

  24. Site-specific recombination: Antibody diversity H and L are all encoded by three gene segments: V, D, J Enormous number (>108) of different H and L gene sequences can be produced by such a recombination

  25. 3.转座重组 转座因子:可以从染色体的一个位置移到另一个位置 插入序列 转座子 非复制转座与复制转座 都具有反向重复的序列

  26. Transposition ( 转座作用) • Requires no homology between sequences nor site-specific • Relatively inefficient • Require Transposase encoded by the transposon ( 转座 子)

  27. Various transposons: • In E. coli: • IS elements/insertion sequence, 1-2 kb, comprise a transposase gene flanked by a short inverted terminal repeats • Tn transposon seriescarry transposition elements and b-lactamase (penicillin resistance) • Eukaryotic transposons, many are retrotransposons: • Yeast Ty elementencodes protein similar to RT (reverse transcriptase)

  28. Simplified Transposition process

  29. Specific tansposable genetic element • Independent on homo-sequence between • Tn & target site • Transpotase be needed • Leads to insertion, deletion, inversion, • rearrangement… Transposition Recombination (replication recombination)

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