1、1/48In prokaryotes,transcription produces a nearly exact mRNA copy of the DNA,and the transcript is immediately translated into protein.In eukaryotes,a series of modifications occur to mRNA during and after transcription.在原核生物中,转录产在原核生物中,转录产生的生的mRNA几乎是几乎是DNA的准确拷贝,并且的准确拷贝,并且这一转录产物会立即被这一转录产物会立即被转译成蛋白质
2、。在真核转译成蛋白质。在真核生物中,转录时以及转生物中,转录时以及转录后会对录后会对mRNA进行进行一一系列修饰系列修饰。Chapter 5 mRNA Modifications in Eukaryotes第第5章章 真核生物真核生物mRNA的修饰的修饰2/485.1 Capping5.2 Polyadenylation5.3 Splicing5.4 mRNA Editing5.5 Experiments5.1 加帽加帽5.2 聚腺苷酸化聚腺苷酸化5.3 剪接剪接5.4 mRNA编辑编辑5.5 实验研究实验研究Chapter 5 mRNA Modifications in Eukaryotes
3、第第5章章 真核生物真核生物mRNA的修饰的修饰3/485.1 Capping /加帽加帽An mRNA that has been transcribed but is not yet ready for translation is called a pre-mRNA,or a primary transcript.Capping is the process of adding a derivative of guanine nucleotide to the 5 end of the pre-mRNA.一条已经转录出来但一条已经转录出来但还没有准备好用于转还没有准备好用于转译的译的mR
4、NA称为称为前体前体mRNA或或初级转录本初级转录本。加帽加帽是在前体是在前体mRNA的的5末端加上一个鸟末端加上一个鸟嘌呤核苷酸衍生物的嘌呤核苷酸衍生物的过程。过程。4/48Structure of the cap /帽的结构帽的结构5-3 phospho-diester bond5-5 triphosphate bond5/48RNA polymerase IIDiscussed in Chapter 46/48Capping takes place quite early.5-CapRNA polymerase IIRNADNA7/48Capping process /加帽过程加帽过程8
5、/48CTD:C-terminal domainRNA polymerase IIDNAMethyl transferaseGuanylyltransferaseRNA triphosphatase9/48Functions of the cap structure帽结构的功能帽结构的功能1.Helps prevent degradation 帮助防止降解帮助防止降解2.Helps transport into cytoplasm 帮助转运到细胞质中帮助转运到细胞质中3.Enhances translation/增强转译增强转译4.Helps remove the first intron 帮
6、助去除第一个内含子帮助去除第一个内含子10/481.Helps prevent degradation帮助防止降解帮助防止降解RNaseRNase5-5 triphosphate bond5-3 phosphodiester bond5-3 phosphodiester bond11/482.Helps transport into cytoplasm帮助转运到细胞质中帮助转运到细胞质中Discussed in Chapter 712/483.Enhances translation/增强转译增强转译Cap-binding proteinNo translation occurs.13/48R
7、NA polymerase IIRNADNA4.Helps remove the first intron帮助去除第一个内含子帮助去除第一个内含子The first intron14/48AAAAAAA-AAAA5.2 Polyadenylation /聚腺苷酸化聚腺苷酸化Poly(A)tailPolyadenylationPre-mRNAPolyadenylation is a modification process in which a string of about 250 adenine nucleotides is added to the 3 end of the transcr
8、ipt.15/48Polyadenylation does not occur at the natural end 16/48The polyadenylation signal /聚腺苷酸化信号聚腺苷酸化信号AAAAAAA-AAAAPoly(A)tailPolyadenylationPre-mRNAPolyadenylation signal has a typical sequence of AAUAAA.This sequence gives an instruction as“to cut the mRNA about 20 nucleotides downstream,near a
9、 GU-rich sequence”.AAUAAAGU17/48The cleavage complex /切割复合体切割复合体CleavagecomplexCPSF(cleavage andpolyadenylationspecificity factor)CstF(cleavagestimulation factor)CFI(cleavage factor I)CFII(cleavage factors II)Poly(A)-Binding Protein19/48CTD:C-terminal domainProteinsfor cappingat CTDProteins forpolya
10、denylationat CTD20/48Functions of the poly(A)tailpoly(A)尾的功能尾的功能AAAAAAA-AAAAAAAAAAA-AAAAAAThe main function of poly(A)tail is to protect the mRNA from degradation by ribonucleases.21/48Functions of the poly(A)tailpoly(A)尾的功能尾的功能AAAAAAA-AAAAThere is also some evidence that the poly-A tail is involved
11、 in splicing and enhances translation of mRNAs.22/485.3 Splicing /剪接剪接Exons:Parts of a gene that are expressed as protein.Introns:Sequences that do not code for protein and interrupt the coding regions.Splicing:The process of removing introns from a pre-mRNA.23/485.3.1 The Basic Splicing Reaction基本的
12、剪接反应基本的剪接反应5 AG/GUAUGUbody of intronUACUAAC-YAG/3Splice sites in yeastSplice sites:Sequences that mark the beginning and ends of introns and exons.24/48The basic splicing reaction25/485.3.2 Proteins involved in Splicing在剪接中发挥作用的蛋白质在剪接中发挥作用的蛋白质Spliceosome:The collection of factors,especially snRNPs,t
13、hat help with the splicing of introns.26/48snRNPs:small nuclear ribonucleoproteinssnRNPs are small particles found in the nucleus and contain both protein and RNA.snRNPs functioning in splicing:U1,U2,U4,U5 and U6.29/485.3.3 Self-Splicing /自我剪接自我剪接Tetrahymena thermophilia嗜热四膜虫嗜热四膜虫 Splicing that occu
14、rs without the help of proteins or snRNPs is called self-splicing.tetr haimn :mfaili 30/48Self-splicing of group I intron31/48Self-splicing of group II intronII 类内含子类内含子的自我剪接的自我剪接With helpof proteinsWithout helpof proteinsSelf-splicingNormalsplicing32/485.3.4 Trans-Splicing /反式剪接反式剪接Mature mRNAProte
15、inRNA piece ofseparate origin DNA33/48Trans-Splicing /反式剪接反式剪接34/485.3.5 Reasons for Introns内含子存在的原因内含子存在的原因Introns-early theoryIntrons-late theoryIntron:“Why am I here?”35/48Intron-early theory /内含子早现说内含子早现说E.coli“I heard somebody say E.coli once had introns.Is that true?”“Couldbe.Who knows?!”36/48
16、Intron-late theory /内含子后现说内含子后现说E.coli“We are the oneshaving introns!We are proud of it.”37/48Alternative splicing /可变剪接可变剪接Alternative splicing:a kind of splicing that can produce various proteins from one gene.38/48Drosophila Dscam geneExon 3Exon 54.1 4.2 4.3 4.4 4.5 4.6 4.7 4.8 4.9 4.10 4.11 4.12
17、Exon 4 Exon 6 Exon 9Alternative Splicing Goes Mainstream可变剪接成为主流可变剪接成为主流The Scientist,Volume 17(24):28,Dec.15,2003 drusfil 39/48Alternative splicing /可变剪接可变剪接40/485.4 mRNA Editing /mRNA编辑编辑Sleeping sickness is one of the most neglected human diseases,and mainly affects the most deprived peoples of s
18、ome African countries.Trypanosome 锥虫锥虫41/48RNA editing in trypanosome42/48CU editing /CU 编辑编辑43/48In the liver /在肝脏中在肝脏中44/48In the small intenstine 45/485.5 Experiments /实验研究实验研究Hybridization between mRNA with DNAmRNA与与DNA之间的杂交之间的杂交46/48Detection of introns with DNase 47/48Hybridization between pre-mRNA and DNA前体前体mRNA与与DNA之间的杂交之间的杂交
