第六章 rna 转录 ( rna transcription )
DESCRIPTION
第六章 RNA 转录 ( RNA transcription ). 6.1. 基本概念 6.2. 原核生物 RNA 转录的起始 6.3. 真核生物 RNA 转录的起始 6.4. 转录的延伸 6.5. 转录的终止 6.6. 原核生物转录产物的后加工 6.7. 真核生物转录产物的后加工 6.8. 真核生物转录产物中内元的去除 6.9. 不连续转录和反式拼接. 第一节 基本概念. 转录 (transcription): 是指以 DNA 为模板,在依赖于 DNA 的 - PowerPoint PPT PresentationTRANSCRIPT
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6.1. 6.2. RNA6.3. RNA6.4. 6.5. 6.6. 6.7. 6.8. 6.9.
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(transcription):DNADNA RNA4rNTPATP CTPGTPUTPRNA RNARNA Double Strand DNA ()
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(sense strand) [ coding strand]: DNA (antisense strand) [ template srand] : RNA (60) AU GC
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DNARNA AUCG RNA RNA53DNA 35 RNA 53 (DNA ,RNA )
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RNA promotion. elongation. terminaton (promoter)(terminator) (transcription unit) () polycistron in operon, monocistron, No operon 1
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RNA
(RNA Transcription promotion in prokaryots)
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: (operon):
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(promoter)DNARNA () RNA polymerase (E. coli)1 (Holo Enzyme)(Core Enzyme)
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(1) Holo Enzyme DNA ( ) DNA() 1014mol 107mol 1
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2 Core Enzyme DNA DNA DNA 1011mol 60
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2 1 RNApol Holo Enzyme Sextama Box(35), 2 2 2 23
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E.coli 70325428 11 2 RNApol DNA DNA DNA
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3 NMP Editing Rho RNA 3end
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E siteelongation site RifR:NTP Editing 4 RNAsense strand SSB Holoenzyme I siteinitiation site . Rifs: ATPGTP ATPGTP
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DNA DNA/RNA DNA DNA
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E. coli RNA polymerase36.5 KD36.5 KD151 KD155 KD11 KD70 KD
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promoter Prok.E.coli 1 1 CAP-cAMP CAPcatabolite gene Activator Protein cAMP 2 RNApol 35 ~ 10 R B
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2 RNA 1 Sextama Sextama Box -35RNA RNA R T82T84G78A65C54A45 : RNApol
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2 Pribonow Pribonow Box -10RNA B T80A95T45A60A50T96 TATPUAT 4 13TATA Box
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3 initiation site1 RNA NTPATPGTP
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a. R
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b RNApol10 ATPribnow 1217bp 10 RNApol DNA
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1217bp
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c. RNApolIE +1CAT,T 6~9 4 DNA
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1217bp
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3 CAP-cAMP CAP I lac
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I
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: E.coli CAP ATP cAMP cAMPCAP, RNApol cAMPCAPcAMP CAPRNApol RNApol
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,,, lac1CAP 70 40 70 50 IR 50 40 cooperativity
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2 CAPcAMPRNApol Sextama Box,10 CAPcAMP Sextama Box GCGC Pribnow Box
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:1RNApol2 RNApol
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4RNApol DNA DNase ----------40bp footprinting RNApolDNA DNA DNAKlenow3, 5 DNA
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DNA
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DNARNApol DNase DNase
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RNApol DNA +20 ~ 5040 60 ~ 70 bp .. 5 135 10 35 TTGACA 10 TATAAT
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a. b. c. : 35 10
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2 3510 17bp 17bp 17bp
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E.Coli
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RNApol 1 RNApol - RNApol RNApol RNApol 2 RNApol rRNA5.8S18S 28S
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RNApol hnRNAsnRNA hnRNAmRNA RNA heterogeneous nuclear RNA snRNA RNA small nulear RNA) RNApol tRNA5S rRNAAlu snRNA RNApol
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3 500KDa, 7~12 RNApol C (carboxy terminal domain CTD) CTD TyrSerProThrSerProSer C
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CTD Ser Thr RNApol A RNApol B CTD B A RNApol 10 RNApol
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1 RNApol , 1 cap site Prok.CAT 2 TATAHogness Goldberg-Hogness 30 T82A97T93A85A63T37A83A50T37
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Pribnow TATA3 CAATCAAT box 75bp GGC/TCAATCT G ()
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4 enhancer far upstream sequence 100 SV40DR -107~178 179 ~ 250 72bp TATA
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: 72bp 72bp 5 GC GC box 90 GGGCGG
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6 octamer element OCT ATTTGCAT KB GGGACTTTCC ATF GTGACGT 7 SV406GC
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,
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2 RNApol 1 a 5SRNA tRNA b snRNA
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2 5S rRNA 5S rRNA 5580 5580
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5S rRNA RNApol55bp3 AC 5S rRNA AB tRNAVARNA RNApol
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:1RNApolDNA23RNApol 4RNApol5RNApol
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RNApol (), DNA,RNApol
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RNApol
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RNApol
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RNApol TFA TFB TBPBRTB TFC 5
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TBP RNApol TBP RNApol,TBPSL1 RNApol RNApolTBPTATA TBP , positioning factor
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DNA 1Prok. DNA , , 2 Euk.
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Prok RNA NTPRNA 3-OH NTPRNA
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1 RNApol DNA17bp DNA RNAase______10bp
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2 RNA RNApol .. RNApol ..DNA DNA RNA-DNA
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3 1 RNA 30 ~ 50 , 15AAsec 2 DNAGC GC 8~10 RNA: ?
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RNA terminator RNA RNA Prok.Euk.
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1 1 2
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2 : . 7~20 bpIRG/C . 6 ~ 8 U
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GC
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3 1 IR GC 2
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UG/C
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1 1 RNA RNApol 60 2 RNApol 6 ~ 8U RNApol RNADNA rUdA RNA
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RNADNA RNApol 3 U4 IRU IRGC U5 DNAUAT AT
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2 1 read through RNApol IR RNApol 2 a NTPase
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b RNA50ntRNANTPase RNA3 aRNARNA5 bRNA53NTP c RNApol
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RNApol RNApol
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4 RNA DNA RNA RNApol AU
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5 Prok. Prok.
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* ------ * T7------RNApol *
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PMPLPRPR
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PNPQ
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(PL nutLtR1nutR nutPN utilization)nutRNApol RNApol,
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:12 3
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3 1 RNApolProk. RNApol SV40: U 2 RNApol U U
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Prok.mRNA rRNAtRNA 5
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rRNA 1 rRNA 5S16S23StRNA rrnE.coli rrn tRNA
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rRNA 16S rDNA tDNA.23S rDNA.5S rDNA tDNARNAse
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tRNA 1tRNA 1 tRNAtRNA rRNA 2 tRNA 3CCA 3CCA
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3 CCA Prok. tRNA CCA Phage Euk.
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2 tRNA 1 RNAaseP tRNA 5 tRNA 2 RNAaseD tRNACCA a RNAaseP RNAaseD b RNAaseQRNAaseYRNAaseP3
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3 tRNAtRNA nucleotidyl transferase ATPCTP tRNA3CCA a E.coli CCA b tRNA4 RNAase RNAaseORNAaseP2
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3E.coli tRNATyr1 350base
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tRNATyr1
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RNA m5C m6A CH3H3C Prok. Euk.
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tRNA
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Euk Pre-RNA processing in Eukaryotes
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rRNA rRNA5.8S18S28SrDNA47S45S a b c45SRNA
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: 18S rRNA5 18S rRNA5.8S rRNA28S rRNA 5.8S rRNA 28S rRNA Euk. 5S rRNA
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mRNA-------- 1 0Cap-0 m7GpppXpYp---------- m7G N7 1 Cap-1 m7GpppXmpYp---------- 2-O A N6 2Cap-2 m7GpppXmpYmp 2-O AGCU
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HNCH3m7G0
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: Cap0 Cap1 Cap2 2 SSAM RNA-----capping enzyme
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3 1 ------RNA Cap0 Cap1,2 2 mRNA 5 3 RNA Cap1 Cap2 Euk.mRNAm6A
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mRNA-------- A 1 3-----200bp (Euk.mRNA) poly(A)+ poly(A)- RNA3 poly(A) E.coli poly(A)+1962 2 poly(A) a RNApoly(A) ATP
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+ nATP Mg++ Mn++ (A)n + nPPi b (360KDa) poly(A) poly(A) 1320bp AAUAAA GUGUGUG Euk.
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:1Prok. rRNA tRNA2Euk.rRNA
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3 poly(A) c poly(A) mRNA poly(A) 1 2 mRNA 3 a b poly(A) mRNA poly(A)
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4 poly(A) a oligo (dT) RNA mRNAb dToligo (dT) cDNA
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1 split geneRNA RNARNA intronRNA RNARNA DNA excon
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RNARNA splicing RNA 5 3
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2 1982 Davies central core structure: 4 10 ~ 20bp4
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group : group : group : GUAG mRNA tRNA tRNA
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3 mRNA RNA tRNA
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tRNA 1 2tRNA3 Nt40400 14~16bp tRNA 3
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tRNAphe
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4 ..tRNA tRNAtRNAtRNA()
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RNA 5OH 33 23 OH
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a3OH 3 OH 2 b 5 2 tRNA
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RNAtRNA
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1 1 5 3 -------U G
5 exonUintronGexon3
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2 a 5 PQRS3 10~12bp PQRS
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b interal guide sequence IGS #
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2 rRNA 1 rRNA35S26SrRNA 5 U G 3 rRNA rRNA26S 2 35SRNA GTP GDP GMP 3 G414base 5
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4 G G 3-OH 5 G- 3OH
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3-OH 3 ,RNA
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5 -------- . ,G () :
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Cech
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:1pol(A) 2Euk.tRNA
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3 35SRNA414base 1
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2 C15: UUU 5 : RNA 3 L19 Cech L19 polyC
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L19
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L19
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4 a 35SRNA --- RNARNA rearrangease RNARNA isomerase
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bL19 polyC L19 RNA---- ribozyme R
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1 7 Branch Site 3 6bp ~ 12bp
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Branch Site 10-50Nt IR,(A IR, 5--GUGCG--------------------PyPuPyPyUAPy-----PyAU3
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2Splicing mechanism
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mRNA 1 Euk.100 ~ 300 RNA, 105~106 snRNA snRNP scRNA scRNP 2mRNA
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Breathnach-Chambon rule GUAG
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3Splicing mehanism ) SnRNA (or ScRNA) , ( spliceosome) Spliceosome SnRNAU1U2U5 U4U6 U1 5 U2 A U1U2 5 3 U1 3 U1U2mRNA U4U5U6
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lariat exons spliceosome lariat
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Discontinuoustranscription and Trans-splicing
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RNA cis-splicing RNAtrans-spling 1982 Vander Ploeg mRNA 535 bases mRNA 35bases leader sequence
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1 200 copies 3100base mRNA mRNA
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5 GU mRNA mRNA 3 AG, A
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mRNA mRNA 1986 W. J. Marphy R. E. Sutton 1 3 mRNA 5 2 Y
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RNA 1RNApol2E.coliProk.3Prok.45Prok.6E.coli
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7 8 tRNA9 tRNA 10poly(A)11Prok.12Euk.mRNA13rRNA
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1516 14mRNA3poly(A)
AUCG RNADNA (RNADNA)
Proximal--- distal DNA107mol R,B site 1014mol RNA
rifamycin rifampinIstreptollydiginE
Consensus ,RNApol
RNA
DNase 40bpfootprinting
DNA RNApol RNApol
17bp,DNA12 ~ 17bp
DEAERANTyr Thr B A10A GC TATATATACAAT G ,72bpH2BOTC2CAAT1TATAsnRNA
5SrRNADNA RNApol
RNADNA
17Transcription: the synthesis of a single-stranded RNA from a double-stranded DNA templateDNA
15AAsec RNA
RNA 3OHRNARNA
6 ~ 8 U
RNApolb RNApol 1:10 ,c RNA50ntRNANTPaseRNApol
PmRNApolRNARNAse
tRNA 5()RNAaseD tRNACCACCAa E.coli CCA b ATPCTPtRNA c tRNA
45S11045SRNAEuk.5S rRNA tRNA5S rRNA
Klug,RNARNA4 Euk.mRNAm6AmRNA,poly(A)PABPPABPSepharosetRNA340400, 14~16bp-----------tRNA3
tRNA5OH3tRNAtRNA
c
a G3OH 5U 35 b 5 3OH 3G
3 L19 Cech L19 polyC
mRNA
U1U2 5 3U1 3A 2 OH 5G 3-OH3G lariat exons
2001986 W. J. Marphy R. E. Sutton