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Sumanth Reddy CM

cell drogma and genetic code

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CENTRAL DOGMA &GENETIC CODE CELL BIOLOGY AND BIOCHEMISTRY Course code:BIT1004 Faculty:-- Gayathri M Submitted by: G.Ranga Manoj Kumar REG no. 17BCB0021 SUBMISSION DATE: 12/02/2018 12/03/2018 G.R.MANOJ KUMAR 17BCB0021 BIT1004 1
INTRODUCTION:- The ‘CENTRAL DOGMA’ is a process by which the instructions in the DNA are converted into a functional product..It was first proposed in 1958 by the discoverer of the DNA structure named Francis Crick. 1) The central dogma of molecular biology explains the flow of genetic information,actually from DNA to RNA,which makes a functional product protein. 2) The central dogma suggests that the DNA will contain the genetic information needed to make all our protiens and RNA is messenger which carry information to ribosomes. 3) Gene expression is the process by which DNA instructions are converted to functional protiens. 4) The ribosomes help by serving as the factories in the cell where information is translated to functional product from a code. •A DNA molecule is divided into functional units called genes. •Each gene is provided to give instructions on the functional product,that means a molecule need to perform a particular job in the cell.In many cases functional product of genes are varieties of protiens,accurately polypeptides. •Polypeptides are nothing but amino acids and genes that specify polypeptides are called protein coding genes. 12/03/2018 G.R.MANOJ KUMAR 17BCB0021 BIT1004 2
• Figure shows the basic idea of central dogma and its process • Many genes provide instructions for building polypeptides. How, exactly do you think that the DNA direct the construction of a polypeptide? This process involves two major steps: 1)transcription • In this process, the DNA sequence of a gene is copied to make an RNA molecule. This step is called transcription because it involves rewriting, or transcribing, the DNA sequence in a similar RNA "alphabet”. Similarly in eukaryotes the RNA molecule must undergo processing to become a messenger RNA also known as mRNA 2)translation • In this process, the sequence of the mRNA is decoded to specify the amino acid sequence of a polypeptide. The name translation refers to the nucleotide sequence of the mRNA sequence must be translated into the completely different language of amino acids. • Thus, during this expression of a protein-coding gene, the information will flow from DNA to RNA and then to protiens.This flow of information is known as cetral dogma. • And for the non protein-coding genes they are still transcribed in an RNA,but this RNA is not yet translated into polypeptides.The process of translation of DNA to functional product is called as or known as gene expression. 12/03/2018 G.R.MANOJ KUMAR 17BCB0021 BIT1004 3
• Three processes of the central dogma 1.REPLICATION 2.TRANSLATION 3.TRANSCRIPTION REPLICATION Genetic material in an organism needs to be duplicated during the S phase of cell-cycle. Duplication of DNA is done usually by replication, utilizing the sequence information of parent DNA. The enzyme used for this purpose is DNA dependent molecule known as DNA polymerase. 12/03/2018 G.R.MANOJ KUMAR 17BCB0021 BIT1004 4
• TRANSCRIPTION • In transcription, one strand of DNA which makes up the gene called as non-coding strand will act as template for synthesising of matching RNA strand by an enzyme known as RNA polymerase. This is known as primary transcript. • This primary transcript carrries the same information as that of non transcribed DNA strand. • However the primary transcript and the coding strand od DNA are not identical and the basic difference is RNA molecules do not have the base thymine. The RNA processing and transcription in eukaryotes and bacteria are as follows • In bacteria, the primary RNA transcript can directly serve as a mRNA. Messenger RNAs get their name because they will act as messenger between DNA and ribosomes. Ribosomes are RNA and protein structures in the cytosol where protiens are made actually. • In eukaryotes such as humans, a primary transcript has to go through some extra processing steps in order to become a mature mRNA. During processing of this, caps are added to the ends of RNA, and some pieces of it may be carefully removed by a process named splicing. All these steps will not happen in bacteria. • The location of transcription is different for prokaryotes and eukaryotes. Eukaryotic transcription will take place in the nucleus, where the DNA is stored, while protein synthesis takes place in the cytosol. Due to this reason, a eukaryotic mRNA must be exported from the nucleus before it can be translated into a polypeptide. Prokaryotic cells, on the other side, don't have a nucleus, so they carry out both the transcription and translation processes in the cytosol of the cell. 12/03/2018 G.R.MANOJ KUMAR 17BCB0021 BIT1004 5
• TRANSLATION • During the translation process, the nucleotide sequence of an mRNA is translated into an amino acid sequence of a polypeptide. Especially, the nucleotides of the mRNA are read in triplets which means a group of three known as condons. There are 61 codons that specify the amino acids. One codon is a start codon which indicates where to start the translation. The start codon specifies the amino acid methionine, so most of the polypeptides begin with this amino acid. Three other stop codons signal at the end of a polypeptide.These relation between codons and amino acids are called genetic code. There are several steps involved in translation which are as follows • The process of translation takes place inside of structure called ribosomes. Ribosomes are molecular machines whose job is to build polypeptides. Once a ribosome lays hold onto an mRNA and finds the start codon, it will travel rapidly down the mRNA, single codon at a time. As it goes, it will gradually build up a chain of amino acids that will exactly mirror the sequence of codons in the mRNA. • You must be wandering that does the ribosomes know which amino acid to add for each codon. This matching is not done by the ribosome itself. Instead, it depends on a group of specialized RNA molecules known as transfer RNAS or shortly tRNA. Each tRNA has a three nucleotides sticking out at one end, which can recognize just one or a few particular codons. On the other side, the tRNA carries an amino acid – specifically, the amino acid that matches those codons. 12/03/2018 G.R.MANOJ KUMAR 17BCB0021 BIT1004 6
• There are many tRNAs floating around in a cell, but only a single tRNA that matches (basepairs with) the codon that's currently being read and can bind it and deliver its amino acid cargo. Once a tRNA is fit closely or bound to its matching codon in the ribosome, its amino acid will be added the end of polypeptide chain. • This process will repeat many times, with the ribosome moving to the mRNA with one codon at a time. A chain of amino acids is built up one by one, with the amino acid sequence that matches with the sequence of codons found in mRNA. Translation will end when the ribosome reaches a stop codon and releases the polypeptide. • After this process,the polypeptide which is completed it will be processed or modified, combine with other polypeptides, or be shipped to a specific destination inside or outside the cell. Finally, it will perform a specific job needed by the cell – perhaps as a signaling molecule or structural element, or enzyme 12/03/2018 G.R.MANOJ KUMAR 17BCB0021 BIT1004 7
• There are special transfers of biological sequential information such as • 1)Reverse transcription • Reverse transcription is the transfer of information from RNA to DNA basically the reverse of transcription. This is known to occur in the case of retroviruses, such as HIV as well as in eukaryotes , in the case of retrotranspons. It is the process in which the genetic information from RNA gets transcribed into a new DNA. • Figure depicts the flow of information under special circumstances in biological systems • 2)RNA replication • RNA replication is copying of one RNA to another. There are many viruses which replicate this way. • RNA has important role in central dogma such as • The central dogma explains DNA codes for RNA,which codes for certain protiens. • Inside of the cells,there are tiny molecular machines are constantly reading the information in DNA and using it to build proteins. In exploring the activity below, you will learn about the three types of RNA are essential to this process: messenger RNA (mRNA), transfer RNA (tRNA), and ribosomal RNA (rRNA). • 3)Direct translation from DNA to protiens • Direct translation from DNA to protein has been demonstrated in a cell-free system like in the case of test tube, using extracts from E.coli that contained ribosomes, but not intact cells. These cell fragments could synthesize proteins from single-stranded DNA templates isolated from other organisms , and neomycin was found only to enhance this effect. However, it was not clear whether this mechanism of translation corresponded specifically to only the genetic code 12/03/2018 G.R.MANOJ KUMAR 17BCB0021 BIT1004 8
• CONCLUSION • During translation, the nucleotides of mRNA are read in groups of three known as codons. Each codon specifies a particular amino acid or a stop signal. This set of relationships is called as genetic code. • Crick had written why he choosed the name as dogma and what are the problems it has caused • He called this idea the central dogma, for two reasons, One thing is he had already used the word hypothesis in the sequential hypothesis, and in extra to that he wanted to suggest that this new assumption was more central and more powerful. As it turned out, the use of the word dogma caused almost more trouble than it was worth. Many years later Jaques monond pointed out to him that he did not appear to understand the correct use of the word dogma, which is a belief that cannot be doubted. He did apprehend this in a vague sort of way but since he thought that all religious beliefs were without foundation, he used the word the way he himself thought about it, not as most of the world does, and simply applied it to a grand hypothesis that, however plausible, had little direct experimental support. 12/03/2018 G.R.MANOJ KUMAR 17BCB0021 BIT1004 9
• REFERENCES • Hellens, R. P., Moreau, C., Lin-Wang, K., Schwinn, K. E., Thomson, S. J., Fiers • Khan academy • Wikipedia • CyberBridge. (2007). RNA structure 12/03/2018 G.R.MANOJ KUMAR 17BCB0021 BIT1004 10

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  • 1. CENTRAL DOGMA &GENETIC CODE CELL BIOLOGY AND BIOCHEMISTRY Course code:BIT1004 Faculty:-- Gayathri M Submitted by: G.Ranga Manoj Kumar REG no. 17BCB0021 SUBMISSION DATE: 12/02/2018 12/03/2018 G.R.MANOJ KUMAR 17BCB0021 BIT1004 1
  • 2. INTRODUCTION:- The ‘CENTRAL DOGMA’ is a process by which the instructions in the DNA are converted into a functional product..It was first proposed in 1958 by the discoverer of the DNA structure named Francis Crick. 1) The central dogma of molecular biology explains the flow of genetic information,actually from DNA to RNA,which makes a functional product protein. 2) The central dogma suggests that the DNA will contain the genetic information needed to make all our protiens and RNA is messenger which carry information to ribosomes. 3) Gene expression is the process by which DNA instructions are converted to functional protiens. 4) The ribosomes help by serving as the factories in the cell where information is translated to functional product from a code. •A DNA molecule is divided into functional units called genes. •Each gene is provided to give instructions on the functional product,that means a molecule need to perform a particular job in the cell.In many cases functional product of genes are varieties of protiens,accurately polypeptides. •Polypeptides are nothing but amino acids and genes that specify polypeptides are called protein coding genes. 12/03/2018 G.R.MANOJ KUMAR 17BCB0021 BIT1004 2
  • 3. • Figure shows the basic idea of central dogma and its process • Many genes provide instructions for building polypeptides. How, exactly do you think that the DNA direct the construction of a polypeptide? This process involves two major steps: 1)transcription • In this process, the DNA sequence of a gene is copied to make an RNA molecule. This step is called transcription because it involves rewriting, or transcribing, the DNA sequence in a similar RNA "alphabet”. Similarly in eukaryotes the RNA molecule must undergo processing to become a messenger RNA also known as mRNA 2)translation • In this process, the sequence of the mRNA is decoded to specify the amino acid sequence of a polypeptide. The name translation refers to the nucleotide sequence of the mRNA sequence must be translated into the completely different language of amino acids. • Thus, during this expression of a protein-coding gene, the information will flow from DNA to RNA and then to protiens.This flow of information is known as cetral dogma. • And for the non protein-coding genes they are still transcribed in an RNA,but this RNA is not yet translated into polypeptides.The process of translation of DNA to functional product is called as or known as gene expression. 12/03/2018 G.R.MANOJ KUMAR 17BCB0021 BIT1004 3
  • 4. • Three processes of the central dogma 1.REPLICATION 2.TRANSLATION 3.TRANSCRIPTION REPLICATION Genetic material in an organism needs to be duplicated during the S phase of cell-cycle. Duplication of DNA is done usually by replication, utilizing the sequence information of parent DNA. The enzyme used for this purpose is DNA dependent molecule known as DNA polymerase. 12/03/2018 G.R.MANOJ KUMAR 17BCB0021 BIT1004 4
  • 5. • TRANSCRIPTION • In transcription, one strand of DNA which makes up the gene called as non-coding strand will act as template for synthesising of matching RNA strand by an enzyme known as RNA polymerase. This is known as primary transcript. • This primary transcript carrries the same information as that of non transcribed DNA strand. • However the primary transcript and the coding strand od DNA are not identical and the basic difference is RNA molecules do not have the base thymine. The RNA processing and transcription in eukaryotes and bacteria are as follows • In bacteria, the primary RNA transcript can directly serve as a mRNA. Messenger RNAs get their name because they will act as messenger between DNA and ribosomes. Ribosomes are RNA and protein structures in the cytosol where protiens are made actually. • In eukaryotes such as humans, a primary transcript has to go through some extra processing steps in order to become a mature mRNA. During processing of this, caps are added to the ends of RNA, and some pieces of it may be carefully removed by a process named splicing. All these steps will not happen in bacteria. • The location of transcription is different for prokaryotes and eukaryotes. Eukaryotic transcription will take place in the nucleus, where the DNA is stored, while protein synthesis takes place in the cytosol. Due to this reason, a eukaryotic mRNA must be exported from the nucleus before it can be translated into a polypeptide. Prokaryotic cells, on the other side, don't have a nucleus, so they carry out both the transcription and translation processes in the cytosol of the cell. 12/03/2018 G.R.MANOJ KUMAR 17BCB0021 BIT1004 5
  • 6. • TRANSLATION • During the translation process, the nucleotide sequence of an mRNA is translated into an amino acid sequence of a polypeptide. Especially, the nucleotides of the mRNA are read in triplets which means a group of three known as condons. There are 61 codons that specify the amino acids. One codon is a start codon which indicates where to start the translation. The start codon specifies the amino acid methionine, so most of the polypeptides begin with this amino acid. Three other stop codons signal at the end of a polypeptide.These relation between codons and amino acids are called genetic code. There are several steps involved in translation which are as follows • The process of translation takes place inside of structure called ribosomes. Ribosomes are molecular machines whose job is to build polypeptides. Once a ribosome lays hold onto an mRNA and finds the start codon, it will travel rapidly down the mRNA, single codon at a time. As it goes, it will gradually build up a chain of amino acids that will exactly mirror the sequence of codons in the mRNA. • You must be wandering that does the ribosomes know which amino acid to add for each codon. This matching is not done by the ribosome itself. Instead, it depends on a group of specialized RNA molecules known as transfer RNAS or shortly tRNA. Each tRNA has a three nucleotides sticking out at one end, which can recognize just one or a few particular codons. On the other side, the tRNA carries an amino acid – specifically, the amino acid that matches those codons. 12/03/2018 G.R.MANOJ KUMAR 17BCB0021 BIT1004 6
  • 7. • There are many tRNAs floating around in a cell, but only a single tRNA that matches (basepairs with) the codon that's currently being read and can bind it and deliver its amino acid cargo. Once a tRNA is fit closely or bound to its matching codon in the ribosome, its amino acid will be added the end of polypeptide chain. • This process will repeat many times, with the ribosome moving to the mRNA with one codon at a time. A chain of amino acids is built up one by one, with the amino acid sequence that matches with the sequence of codons found in mRNA. Translation will end when the ribosome reaches a stop codon and releases the polypeptide. • After this process,the polypeptide which is completed it will be processed or modified, combine with other polypeptides, or be shipped to a specific destination inside or outside the cell. Finally, it will perform a specific job needed by the cell – perhaps as a signaling molecule or structural element, or enzyme 12/03/2018 G.R.MANOJ KUMAR 17BCB0021 BIT1004 7
  • 8. • There are special transfers of biological sequential information such as • 1)Reverse transcription • Reverse transcription is the transfer of information from RNA to DNA basically the reverse of transcription. This is known to occur in the case of retroviruses, such as HIV as well as in eukaryotes , in the case of retrotranspons. It is the process in which the genetic information from RNA gets transcribed into a new DNA. • Figure depicts the flow of information under special circumstances in biological systems • 2)RNA replication • RNA replication is copying of one RNA to another. There are many viruses which replicate this way. • RNA has important role in central dogma such as • The central dogma explains DNA codes for RNA,which codes for certain protiens. • Inside of the cells,there are tiny molecular machines are constantly reading the information in DNA and using it to build proteins. In exploring the activity below, you will learn about the three types of RNA are essential to this process: messenger RNA (mRNA), transfer RNA (tRNA), and ribosomal RNA (rRNA). • 3)Direct translation from DNA to protiens • Direct translation from DNA to protein has been demonstrated in a cell-free system like in the case of test tube, using extracts from E.coli that contained ribosomes, but not intact cells. These cell fragments could synthesize proteins from single-stranded DNA templates isolated from other organisms , and neomycin was found only to enhance this effect. However, it was not clear whether this mechanism of translation corresponded specifically to only the genetic code 12/03/2018 G.R.MANOJ KUMAR 17BCB0021 BIT1004 8
  • 9. • CONCLUSION • During translation, the nucleotides of mRNA are read in groups of three known as codons. Each codon specifies a particular amino acid or a stop signal. This set of relationships is called as genetic code. • Crick had written why he choosed the name as dogma and what are the problems it has caused • He called this idea the central dogma, for two reasons, One thing is he had already used the word hypothesis in the sequential hypothesis, and in extra to that he wanted to suggest that this new assumption was more central and more powerful. As it turned out, the use of the word dogma caused almost more trouble than it was worth. Many years later Jaques monond pointed out to him that he did not appear to understand the correct use of the word dogma, which is a belief that cannot be doubted. He did apprehend this in a vague sort of way but since he thought that all religious beliefs were without foundation, he used the word the way he himself thought about it, not as most of the world does, and simply applied it to a grand hypothesis that, however plausible, had little direct experimental support. 12/03/2018 G.R.MANOJ KUMAR 17BCB0021 BIT1004 9
  • 10. • REFERENCES • Hellens, R. P., Moreau, C., Lin-Wang, K., Schwinn, K. E., Thomson, S. J., Fiers • Khan academy • Wikipedia • CyberBridge. (2007). RNA structure 12/03/2018 G.R.MANOJ KUMAR 17BCB0021 BIT1004 10