UNIT-I. Protein Synthesis R.KAVITHA,M.PHARM LECTURER DEPARTMENT OF PHARMACEUTICS SRM COLLEGE OF PHARMACY SRM UNIVERSIYT KATTANKULATUR
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1 UNIT-I Protein Synthesis R.KAVITHA,M.PHARM LECTURER DEPARTMENT OF PHARMACEUTICS SRM COLLEGE OF PHARMACY SRM UNIVERSIYT KATTANKULATUR
2 Why Protein is so important? It is the essential structural part of every cell It controls every biological process in the form of enzymes How they are synthesised???
3 The production of a protein molecule by a cell is the result of a two part process. Transcription Translation
4 The transfer of genetic information from DNA to mrna is known as transcription.
5 DNA is transcribed to mrna in the nucleus and mrna is translated into Protein in the cytoplasm
6
7 Transcription The first part of the process, called transcription, occurs in the nucleus and involves messenger RNA (mrna) being produced that is complementary to a specific DNA sequence
8 Translation The second part of the process, called translation, occurs in the cytoplasm and results in the synthesis of a specific protein molecule from the genetic information carried by the mrna.
9
10 Transcription Components 1. A template 2. Activated precursors 3. RNA polymerase
11 A template Usually a double stranded DNA out of the two strands, only one strand is transcribed.
12
13 Activated precursors Four ribonucleoside triphosphates
14 RNA polymerase The robonucleoside triphosphates are joined together by the enzyme RNA polymerase with the elimination of pyrophosphate (PPi)
15 RNA polymerase RNA Polymerase consists of a core enzyme and a σ (sigma factor). The core enzyme consists of four peptide chains, α, β, β, ώ The enzyme itself is ineffective in transcribing DNA strands. When combines with σ factor it is enable to transcribe the sense strand
16 RNA polymerase
17 RNA Polymerase
18 The Process 1. Initiation 2. Elongation 3. Termination
19 Initiation The start signals on DNA are called promoters. All promoters are AT rich regions, situated about 10 bases before the initiation site. This region has a common sequence of TATAATG and commonly known as TATA Box. The σ factor recognizes the start signal on DNA and it directs the binding of the enzyme to the promoter region of DNA.
20
21 Initiation The start of transcription takes place at the initiation site which consists of one to two bases. The binding of RNA polymerase to DNA results in local unwinding of DNA double helix. A short segment of DNA now opens up. Synthesis of mrna begins on one of the two strands of ds DNA. The first base in RNA is always a purine either G or A.
22 INITIATION
23 Elongation Chain elongation takes place by addition of activated ribonucleoside triphosphates. ( ATP, UTP,GTP, CTP). For each nucleotide added to the growing RNA chain, a pyrophosphate is given off. This is rapidly hydrolysed to inorganic phosphate (Pi). Elongation takes place in 5 3 direction.
24 Elongation
25 Elongation Elongation of RNA chains takes place by means of the core enzyme, which moves along the DNA template. After commencement of chain elongation, the sigma factor dissociates from the core enzyme and can be reused.
26 Termination RNA synthesis can be terminated by two types of mechanisms. In the first type RNA polymerase reads an extended poly(a) sequence on DNA, resulting in an RNA transcript with a terminal poly U sequence. In the second type termination factor or rho factor causes the release of transcribed RNA molecules
27 Rho independent termination
28 Termination
29 Connecting Concepts The Basic Rules of Transcription let s pause to summarize some of the general principles of bacterial transcription.
30 The Basic Rules of Transcription 1. Transcription is a selective process; only certain parts of the DNA are transcribed. 2. RNA is transcribed from single-stranded DNA.Normally, only one of the two DNA strands the template strand is copied into RNA.
31 The Basic Rules of Transcription 3. Ribonucleoside triphosphates are used as the substrates in RNA synthesis. Two phosphates are cleaved from a ribonucleoside triphosphate, and the resulting nucleotide is joined to the 3 -OH group of the growing RNA strand.
32 The Basic Rules of Transcription 4. RNA molecules are antiparallel and complementary to the DNA template strand. Transcription is always in the 5 3 direction, meaning that the RNA molecule grows at the 3 end.
33 The Basic Rules of Transcription 5. Transcription depends on RNA polymerase a complex, multimeric enzyme. RNA polymerase consists of a core enzyme, which is capable of synthesizing RNA, and other subunits that may join transiently to perform additional functions.
34 The Basic Rules of Transcription 6. The core enzyme of RNA polymerase requires a sigma factor in order to bind to a promoter and initiate transcription.
35 The Basic Rules of Transcription 7. Promoters contain short sequences crucial in the binding of RNA polymerase to DNA; these consensus sequences are interspersed with nucleotides that play no known role in transcription.
36 The Basic Rules of Transcription 8. RNA polymerase binds to DNA at a promoter, begins transcribing at the start site of the gene, and ends transcription after a terminator has been transcribed.
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