the flow of genetic information : dnarna protein transcription translation
TRANSCRIPT
The Flow of Genetic Information :
DNA RNA PROTEIN
Transcription Translation
Concept:
The ribonucleic acid (RNA) needed in protein synthesis :
◆ A. Messenger RNA(mRNA) 信使核糖核酸
Translation is RNA-directed polypeptide synthesis.
CytoplasmSite:
All members of this class function as messengers conveying the information in a gene to the protein-synthesizing machinery, where each serves as a template( 模板) on which a specific sequence of amino acids is polymerized (聚合) to form a specific protein molecule.
Codon( 密码子 ): A codon is a triplet( 三联体 )of three nucleotides in a messenger RNA.
Total: 64 specific codons
Stop codon( 终止密码 ):The codons UAA,UGA,and UAG are stop codons—codons that do not encode (编码) amino acids but instead cause translation to cease.
Start codon( 起始密码 ):The start codon is AUG,which codes for methionine( 甲硫氨酸 ).Translation starts at it in the mRNA.
Synonymous codon( 同义密码 ):The synonymous codons are multiple codons which decode the same amino acid.
Codon dictionary:
Properties: The genetic code (遗传密码) is degenerate( 简并 ), unambiguous, nonoverlapping, without punctuation, and universal ( 通用) .
Degeneracy( 简并性 ): Multiple codons can decode( 编码 ) t
he same amino acid.Unambiguous: Given a specific codon, only a single
amino acid is indicated.Nonoverlapping: The reading of the genetic code duri
ng the process of protein synthesis does not involve any overlap of codons.
mRNA:
GUAC A G A C U A AG AC UU
Triplet codon
三联体密码
Start codon
起始密码子
Stop codon
终止密码子Codon
氨基酸密码子
UAA UAG UGA
Reading frame( 阅读框 )
◆ B. Transfer RNA(tRNA) 转运核糖核酸
• The term tRNA refers to the kinds of RNA that bind covalently to amino acids and deliver them to the site of protein synthesis.
tRNA LeuAmino acid acceptor arm 氨基酸臂
Anticodon loop反密码子环
A G U Anticodon反密码子
Anticodon:• An anticodon is a “triplet” of nucleo
tides,in a tRNA molecule,that aligns( 排列 ) by complementary base pairing with an mRNA codon.
Codon and anticodon , their interaction is one of the key steps in translation.
tRNA tertiary structure
3’End
Amino acid acceptor arm
Anticodon
Wobble (摆动) :
Although the first two nucleotides of all codons base pair normally with their anticodon,the pairing of the third nucleotide and its anticodon partner demonstrates a number of specific exceptions. This phenomenon, called wobble.
密码子的第三个碱基与反密码子的相应碱基配对时,会出现不遵从碱基互补配对原则的情况 , 称为遗传密码的摆动现象。
eg:Inosine (肌苷) can wobble pair. One tRNA can be used to read three codons if inosine is used.(Inosine can wobble pair with U,C or A)
C C I
Gly
G G U (GGC,GGA)5’ 3’mRNA
eg. all three codons for isoleucine (异亮氨酸)(AUA,AUC,and AUU) can base pair with a single tRNA.
In fact,only 31 different tRNA are actually required to read all 61 sense codons (有意义密码) .
◆ C. Ribosomal RNA (rRNA) 核糖体核糖核酸
The term rRNA refers to the kinds of RNA that combine with specific proteins to form ribosomes( 核糖体 ),the site of protein synthesis in all organisms.
Ribosome
mRNA
Large subunit核糖体大亚基
Small subunit核糖体小亚基
rRNA结构
Peptidyl-tRNA binding site肽酰基 -tRNA
结合位点
Aminoacyl-tRNA binding site氨酰基 -tRNA
结合位点P A
Ribosmal tertiary structure
A. The activation and transportation of amino acid ( 氨基酸的活化与转运 )
Aminoacyl-tRNA synthetase( 氨基酰 - tRNA 合成酶 )
The processing of protein synthesis ( 蛋白质的合成过程 )
+Amino acid tRNA ATP+
+Aminoacyl-tRNA氨基酰 tRNA AMP PPi+
Transported form
Aminoacyl-tRNA synthetase
Met
Metenzyme
氨基酸的活化
Met His
Ala
Ser
Asp
TyrThr
His
Ala
B. The course of translation in ribosome( 核糖体 ):
Properties:◆This process involves tRNA,rRNA,mRNA, several
eukaryotic( 真核的 ) initiation factors(eIF)( 起始因子 ), GTP, and ATP.
◆The ribosome( 核糖体 ) must correctly identify the precise starting position in the mRNA for decoding( 解码 ).
◆The ribosome must be separated into its smaller components( 组成成分 ).
◆The initiation complex( 复合物 ) forms on the small subunits( 小亚基 ).
1.Initiation( 起始 ):forming an initiation complex( 起始复合物 ).
Initiation complex( in eukaryoticcell ( 真核细胞 ) ) :
1A 3 2
Met
AUG
2
Met
Initiation complex
1A
3 2
1A
3 2
1A2
fMet
AUG
Met
AUG
1A3
Met
AUG
1A 3 2
Met
P A GTP →GDP+Pi
2..Elongation ( 肽链延长 )
( 3 ) Translocation( 移位 )—is the shifting of ribosome( 核糖
体 ) relative to the mRNA and the new peptidyl- tRNA( 肽酰 - tRNA). 核糖体与 mRNA 和新的肽酰 - tRNA 之间的位置发生相对移动 .
( 1 ) Binding( 进位 )—The charged aminoacyl-tRNA( 氨基酰 tRNA ) joints the A site,binding the appropriate codon( 密码子 ).
( 2 ) Transpeptidation( 转肽 )—The formation of a peptide bond (肽键) to the next added amino acid residue. This reaction is catalyzed( 催化 ) by a peptidyltransferase( 转肽酶 ), a component of the large ribosomal subunit( 大亚基 ).
Elongation( 延长 ) 1
AUG
Met
Met
AP
Transpeptidation转肽
AUG
Binding( 进位 )
1 GTP1 GDP
1 GDP
1 GDP
Elongation 2
APMet
AUG
Translocation移位
AUG
AP
AUG
Met AP
AUG
MetMet
The elongation factor( 延长因子 ) 2(eEF-2) and GTP are responsible for the translocation( 移位 ).
Elongation3
APMet
AUG
Met
The elongation cycle continues until the stop codon( 终止密码 ) in the mRNA is detected.
3. Termination 终止
Thus, a water molecule, rather than an amino acid( 氨基酸 ), is added. This hydrolysis ( 水解 )releases the protein( 蛋白质 ) and the tRNA from the P site.
The nonsense( 无义 ) or stop codon of mRNA (UUA, UAG, UGA) appears in the A site.
Releasing factors( 释放因子 ) (eRF) are capable of recognizing that a termination( 终止 ) signal resides in the A site .
The releasing factor, in conjunction ( 联合 )with GTP and the peptidyl transferase( 转肽酶 ), promotes( 启动 ) the hydrolysis( 水解 ) of the bond( 键 ) between the peptide and the tRNA occupying the P site.
The mRNA is then released from the ribosome( 核糖体 ), which dissociates( 分离 ) into its component small and large subunits( 亚基 ), and another cycle can be repeated.
Chain termiation 1
AP
UAA
eRFGTP
Termination 2
AP
eRFGTP
UAA
eRFGDP
UAA
Preinitiation complex:
1A 3 2
Met
AUG
Initiation complex
1A
3 2
1A
3 2
1A2
fMet
AUG
Met
AUG
1A3
Met
AUG
1A 3 2
Met
P A GTP →GDP+Pi
Elongation 1
AUG
Met
Met
AP
Transpeptidation
AUG
Binding
1 GTP1 GDP
1 GDP
1 GDP
Elongation 2
APMet
AUG
Translocation
AUG
AP
AUG
Met AP
AUG
MetMet
Elongation3
APMet
AUG
Met
The elongation cycle continues until the stop codon in the mRNA is detected.
Chain termiation 1
AP
UAA
eRFGTP
Termination 2
AP
eRFGDP
UAA
eRFGDP
UAA
★The properties of translation( 翻译的特点 ) :
1. Template( 模板 ) : mRNA ,阅读方向: 5`→ 3`
2. 原料:氨基酸 3. 肽链延长方向: N 端 → C 端
4. Post translational processing( 翻译后加工 )
Many other peptides are synthesized as proproteins( 蛋白原 ) that require modifications( 修饰 ) before attaining biologic activity. Many of the posttranslational modifications involve the removal of amino terminal amino acid residues by specific aminopeptidases ( 氨肽酶 ).
Covalent( 共价的 ) modification by acetylation( 乙酰化 ), phosphorylation( 磷酸化 ), and glycosylation( 糖基化 )is common, for example.
Question:
• Basis of the sickle-cell Mutation:
Sickle-cell( 镰刀型细胞 ) hemoglobin ( 血红蛋白 )has a Val ( 缬氨酸 )residue at position 6 of the -globin ( 珠蛋白 )chain,instead of the Glu (谷氨酸) residue found in normal hemoglobin A.Can you predict what change took place in the DNA codon for glutamate( 谷氨酸 )to account for its replacement by valine?
MANY ANTIBIOTICS WORK BECAUSETHEY SELECTIVELY INHIBIT PROTEIN SYNTHESIS IN BACTERIA
eg:Tetracycline( 四环素 )prevents the binding of aminoacyl-tRNAs to the A site.
Chloromycetin( 氯霉素 )and the macrolide( 大环内酯物 )class of antibiotics work by binding to 23S rRNA, which is interesting in view of the newly appreciated role of rRNA in peptide bond formation .
Cycloheximide( 放线菌酮 )inhibits peptidyltransferase( 肽基转移酶 )in the large ribosomal subunit in eukaryotes, presumably by binding to an rRNA component.
