Chapter 5 Messenger RNA 莘大
Chapter 5 Messenger RNA
5.1 Introduction 5.2 Transfer RNa is the adapter 5.3 Messenger RNa is translated by ribosomes 5. 4 The life cycle of bacterial messenger RNA 5.5 Translation of eukaryotic mRNA 5.6 The 5' end of eukaryotic mRNA is capped 5. The 3 terminus is polyadenylated 5.8 Bacterial mRNA degradation involves multiple enzymes 5. 9 mRNa degradation involves multiple activities 5. 10 Sequence elements may destabilize mRNA 5. 11 Nonsense mutations trigger a surveillance system 消当
5.1 Introduction 5.2 Transfer RNA is the adapter 5.3 Messenger RNA is translated by ribosomes 5.4 The life cycle of bacterial messenger RNA 5.5 Translation of eukaryotic mRNA 5.6 The 5 end of eukaryotic mRNA is capped 5.7 The 3 terminus is polyadenylated 5.8 Bacterial mRNA degradation involves multiple enzymes 5.9 mRNA degradation involves multiple activities 5.10 Sequence elements may destabilize mRNA 5.11 Nonsense mutations trigger a surveillance system
5.1Introduction Coding region is a part of the gene that represents a protein sequence Coding strand of dna has the same sequence as mRNA template strand of double-stranded dna is the one that is used to specify the sequence of a complementary single strand of RNA. (The non-template strand is identical in sequence to the RNa product. Transcription is synthesis of RNa on a dNa template Translation is synthesis of protein on the mrNA template 请莘大
Coding region is a part of the gene that represents a protein sequence. Coding strand of DNA has the same sequence as mRNA. template strand of double-stranded DNA is the one that is used to specify the sequence of a complementary single strand of RNA. (The non-template strand is identical in sequence to the RNA product.) Transcription is synthesis of RNA on a DNA template. Translation is synthesis of protein on the mRNA template. 5.1 Introduction
Cod ing strand sense 5.1 Introduction A⑤⑤ Figure 5.1 Transcription plate strand antisens generates an rna which is complementary to the dna Transc ription template strand and has the same sequence as the dna coding strand. Translation reads each triplet of bases into one amino acid Three Translation turns of the dna double helix contain 30 bp, which cide for 10 amino acids 222 消当
Figure 5.1 Transcription generates an RNA which is complementary to the DNA template strand and has the same sequence as the DNA coding strand. Translation reads each triplet of bases into one amino acid. Three turns of the DNA double helix contain 30 bp, which cide for 10 amino acids. 5.1 Introduction
5.2 Transfer RNA is the adapter Aminoacyl-tRNA is transfer RNa carrying an amino acid; the covalent linkage is between the NH2 group of the amino acid and either the 3 or 2-OH group of the terminal base of the tRNA Aminoacyl-tRNA synthetases are enzymes responsible for covalently linking amino acids to the 2 -or 3-oH position of trNA Anticodon is a trinucleotide sequence in trNa which is complementary to the codon in mRNa and enables the trna to place the appropriate amino acid in response to the codon oop is a single-stranded region at the end of a hairpin in rna(or single-stranded DNA); corresponds to the sequence between inverted repeats in duplex dna Stem is the base-paired segment of a hairpin 消当
Aminoacyl-tRNA is transfer RNA carrying an amino acid; the covalent linkage is between the NH2 group of the amino acid and either the 3′- or 2′-OH group of the terminal base of the tRNA. Aminoacyl-tRNA synthetases are enzymes responsible for covalently linking amino acids to the 2′- or 3′-OH position of tRNA. Anticodon is a trinucleotide sequence in tRNA which is complementary to the codon in mRNA and enables the tRNA to place the appropriate amino acid in response to the codon. Loop is a single-stranded region at the end of a hairpin in RNA (or single-stranded DNA); corresponds to the sequence between inverted repeats in duplex DNA. Stem is the base-paired segment of a hairpin. 5.2 Transfer RNA is the adapter
5.2 Transfer rna R-C-H Amino Amino acid linked c=o to 3 end of tRNA is the adapter Figure 5.2 A tRNA has the Amin cid dual properties of an adaptor that recognizes both the amino acid and Arm consists of codon. The 3 adenosine Base-paired stem is covalently linked to an TTT飞农 amino acid. The anticodon base pairs with the codon SIngle. on mRNA stranded loop E anticodon codon pairing r 消当 小暴』mRNA
Figure 5.2 A tRNA has the dual properties of an adaptor that recognizes both the amino acid and codon. The 3 adenosine is covalently linked to an amino acid. The anticodon base pairs with the codon on mRNA. 5.2 Transfer RNA is the adapter
A 5.2 Transfer rna is the adapter Acceptor arm cc727 2:71 4:B9 D arm TyC arm 6:67 U大7B Py59 Figure 5.3 The tRNA 65646362C 17A1312Py10 P 49505152 cloverleaf has 20A2223Pu25 y invariant and semi 434445 invariant bases and a 30-40 Extra arm conserved set of base 39 38 pairing interactions Anticodon 消当
