Difference Between Prokaryotic and Eukaryotic Transcription

Difference Between Prokaryotic and Eukaryotic Transcription SUMMARY Biosynthesis of proteins is under direct control of DNA in most cases or else under the control of genetic RNA where DNA is absent. Information for structure of a polypeptide is stored in a polynucleotide chain (Gupta, 2007). Sequences of bases in a particular segment of a polypeptide chain will determine the sequence of amino acids in a particular polypeptide (Gupta, 2007). The relationship popularly known as central dogma explains how protein synthesis is controlled by nucleic acids. There are two major steps involved in protein synthesis (1) transcription and (2) Translation. Transcription involves transfer of genetic information from DNA to mRNA and Translation involves translation of language of nucleic acids in to that of proteins (Gupta, 2007). Transcription will be discussed in detail in the present topic. TEXT Transcription is the synthesis of RNA which carries the genetic information present in DNA (Fig. 1). The DNA is double stranded and can theoretically code for two separate RNA molecules (Jain, 2000). However, it has been found that only one of the two strands of the gene is transcribed (Jain, 2000). Only in a few exceptional cases both strands are transcribed. This is possible because the promoter is asymmetrical and unidirectional (Jain, 2000). The DNA strand which have a sequence homology with the RNA is known as the coding strand. The second strand which is complementary to RNA and serves as the template for RNA synthesis is known as the non-coding strand. It is therefore, a misnomenclature, as it is the non-coding strand which is in fact transcribed to form the primary transcript (Jain, 2000). Transcription in prokaryotes The principal enzyme involved in transcription is the DNA dependent RNA polymerase (commonly called as RNA pol). To understand the transcription, it is necessary to learn more about the RNA polymerase. The bacterial RNA polymerase consists of five polypeptide chains including two chains of ÃŽ ± (alpha) polypeptide and one chain each of ÃŽ ² (beta) and ÃŽ ²ÃƒÅ Ã‚ ¹ (beta dash) and ÏÆ' (sigma) polypeptides (Fig.). The RNA polymerase molecule thus can be represented as ÃŽ ±2ÃŽ ²ÃŽ ²ÃƒÅ Ã‚ ¹ÃÆ', in which the attachment of sigma (ÏÆ') factor is not very firm, so that the core enzyme (ÃŽ ±2ÃŽ ²ÃŽ ²ÃƒÅ Ã‚ ¹) can be easily isolated. The size and function of the prokaryotic RNA polymerase is given in table 1. The active sites of core enzyme are shown in fig. (). Once RNA synthesis is initiated, ÏÆ' dissociates after RNA is 8-9 bases long and then the core enzyme brings about elongation of mRNA. The dissociated sigma factor may again combine with core enzyme to form RNA polymerase holoenzyme (Fig,..). Events in transcription The entire process of transcription can be divided in to following steps: (1) Template recognition (2) Initiation (3) Elongation and (4) Termination Template recognition The promoter directs the RNA polymerase to recognize the correct region of the gene and to bind at this site. The -35 region serves this function and is recognized by the enzyme. The size of the RNA polymerase is such that about 60 nucleotides in the gene are involved in binding of the enzyme to the template. Sigma factor plays an important role in specific binding of the enzyme with the template (Jain, 2000). The core enzyme without the sigma factor can bind to DNA but the binding is not promoter specific. The sigma factor is thus necessary for the formation of promoter-enzyme complex. The binding of RNA polymerase to a site other than the promoter is generally referred as loose binding. In presence of sigma factor, the affinity for loose binding is reduced while the affinity for specific binding is increased (Jain, 2000). Thus the chances of only the specific binding taking place are enhanced many fold in presence of sigma factor (Jain, 2000). Initiation and elongation of RNA synthesis in prokaryotes RNA synthesis by RNA polymerase proceeds in four steps: (i) the holoenzyme first binds at the promoter site, forming the closed promoter complex in which DNA remains double helicle, (ii) the closed complex isomerizes and causes unwinding and separation of DNA strands to form open (binary) promoter complex, (iii) after unwinding only one of the two strands is copied; this is achieved by incorporation of nucleotides, initially without movement of enzyme leading to the formation of RNA chain, up to 9 bases in length. During the incorporation of these 9 bases, at every step, there is a possibility for the release of this small RNA chain, a process described as abortive initiation (Gupta, 2007). A cycle of abortive initiation usually occurs generating a series of short (2-9 base) oligonucleotides, before initiation is usually successful. (iv) Once initiation succeeds, the sigma factor of RNA polymerase dissociates. (v) the dissociation of sigma factor marks the entry of NusA protein, whic h helps elongation, and promotes pausing and termination at specific sites. Core enzyme now undergoes a major conformational rearrangement and a stable ternary elongation complex is formed. This complex moves along DNA, synthesizing RNA all along its path at a rate of about 40 bases per second at 370C (Gupta, 2007). Elongation of RNA transcript continues till an unstable termination complex is formed (Gupta, 2007). Termination The termination of mRNA chain in prokaryotes is brought about by certain termination signals on DNA. These DNA sequences providing termination signals are called terminators (Gupta, 2007). Once the enzyme hits the terminator, it falls off the template and the transcription stops. The termination signals whenever found on DNA can be of two types: (i) Rho (Ï ) dependent termination and (ii) Rho (Ï ) independent termination. (i) Rho (Ï ) dependent termination: The termination factor (Ï ) participates in this type of termination (Jain, 2000). Rho (Ï ) is a 46 KD protein and its active form is a hexamer, having a total mass of 275 KD. It binds to growing RNA chain and moves along the RNA. Once rho catches the RNA polymerase, it results in chain termination. The question arises how?. It has been found that once RNA polymerase hits the terminator sequences, it pauses for a short time. During this period the rho factor reaches the RNA polymerase and causes it to fall off the template. Once RNA polymerase is detached, the RNA chain also comes off and the transcription terminates (Fig). (i) Rho (Ï ) independent termination: In some genes, there is a definite region of intrinsic sequences which causes the termination of RNA chain. This includes two G:C rich stretches at the end of RNA transcript which are complementary to each other. These form a 7-20 bp intra-molecular hairpin structure. Further this region is followed by a small stretch of U residues which form relatively weak interaction with dA residues of the gene (Fig..). such a structure is highly unstable thermodynamically and causes the displacement of newly synthesized RNA from the DNA template. Once the RNA is detached, the RNA polymerase falls off and the termination of transcription occurs. This type of termination provides an interesting example where the structure of RNA itself can cause its own termination from the DNA chain. Transcription in Eukaryotes The eukaryotes have more than one type of RNA polymerase. Based on the activity to ÃŽ ±-aminitin, an antibiotic which inhibits mRNA synthesis, three classes of RNA polymerases have been identified which are involved in the transcription of different class of eukaryotic genes. There properties are given in table 2. The eukaryotic RNA polymerases are large molecules of ˃500KD in size. It has two large subunits of -200KD and -140KD, respectively. The 200 KD subunit is similar to ÃŽ ²ÃƒÅ Ã‚ ¹ subunit of E. coli of RNA polymerase and have similar function (the template binding). Besides these two proteins it also has upto 10 different small subunits. A subunit of Pol II, which has similarity with one of the subunits present in Pol I and also in Pol III, is similar to the ÃŽ ±-subunit of E. coli enzyme and helps in the enzyme assembly. Besides the RNA polymerase, a number of other transcription factors are also needed for the transcription. Promoter sites for Initiation of transcription Promoters for RNA polymerase I could not be initially studied since all genes for rRNA were similar. Promoters for RNA polymerase III, on the other hand, had some unusual downstream promoters. However for RNA polymerase II, several hundred eukaryotic genes have now been sequenced and their promoters studied revealing some general features in three regions located at start point, centred at sited lying between -25 bp and -100 bp. The least effective of these three regions is the TATA or Hogness box (7 bp long) located 20bp upstream to the start point. The TATA box is surrounded by G-C rich sequences and is comparable to pribnow box of prokaryotes. Further upstream is another sequence called CAAT box, which being necessary for initiation, is conserved in some promoters (ÃŽ ² globin gene), but is not necessary in some other genes. This sequence lies between -70 and -80 bp. Another sequence called GC box (GGGC GG) is found in one or more copies at -60 or -100 bp upstream in any orientation in several genes. It has been shown that CAAT and GC boxes determine the efficiency of transcription, while TATA box aligns RNA polymerase at proper site, with the help of TFIID and other transcription factors (Gupta, 2007). Initiation In eukaryotes the initiation is more complex. It involves a number of specific transcription factors. The process has been followed for the Pol II action resulting in the synthesis of mRNA. The process is essentially similar for Pol I and Pol III. For initiation, it requires, a number of trans acting factors along with the RNA polymerase. The trans acting factors, which are the product of various regulatory genes, bind to either DNA or to each other or to RNA polymerase. They can also bind in various combinations. All the transcription factors involved with Pol II are called TF II. First the factor TF IID binds to TATA box (-15 to -21 region) covering about 25 nucleotides within the -17 to -42 region. Now factor TF IIA associates itself to the complex, further extending the protected region towards upstream, upto the -55 to -80 region. On the other hand TF IIB associates itself protecting the region at -10 to +10. It binds to two strands in a non-symmetrical manner. This complex prep ares the stage for binding of RNA polymerase II which covers up to +15 region on template strand and 5 extra nucleotides (up to +20) on the non-template strand. Finally TF IIE joins, extending the protection upto +30 region. Once the entire complex has been assembled, the incorporation of first nucleotide takes place. Transcription factors and elongation of RNA chains in eukaryotes Certain accessory proteins of transcription, called the elongation factors enhance the overall activity of RNA polymerase II, leading to increase in elongation rate. Atleast two such proteins (transcription factors) are known (i) the transcription factor TFIIF accelerates RNA chain growth relatively uniformly, in concert with RNA polymerase II or pol II, (ii) transcription factor TFIIS (also called SII) helps elongation of RNA chain, by relieving the obstructions in the path of such elongation. TFIIS is known to function by first causing hydrolytic cleavage at 3Ê ¹ end of RNA chain, which are stuck and can not elongate. Thus RNA polymerase moves backwards (hydrolytic cleavage) under the direction of TFIIS before it moves forwards through the block to elongation (fig.) (Gupta, 2007). Termination of RNA synthesis in eukaryotes In eukaryotes, the actual termination of RNA polymerase II activity during termination may take place through termination sites similar to those found in prokaryotes (the nature of individual termination sites is not known). But these termination sites are believed to be present away (sometimes up to one kilobase away) from the site of 3Ê ¹ end of mRNA. Obviously 3Ê ¹ end of mRNA will be generated due to post-transcriptional cleavage. This cleavage, at the end, is believed to be achieved by what is popularly called snurp (small nucleur RNA-protein complex). Snurp used for post-transcription cleavage has not been identified so far but is believed to be certainly different than the U1 snurp, which is believed to be involved in intron splicing in split genes. Moreover, a sequence 5Ê ¹ AAUAAA 3Ê ¹ has been found just on the 5Ê ¹ side of poly(A) addition site in several eukaryotic mRNAs. The poly(A) tail is added to 3Ê ¹ end of eukaryotic mRNA after processin g of precursor mRNA. The sequence 5Ê ¹ AAUAAA 3Ê ¹ in mRNA 3Ê ¹ end seems to be common in eukaryotic mRNA and mutation in this sequence cause elongation of mRNA. This will suggest that this sequence contains the signal for endonucleolytic post-transcriptional cleavage. This sequence therefore, is not involved in the termination of the synthesis of mRNA, but helps in generating 3Ê ¹ end later through endonuclease cleavage, in which snurp helps in an unknown manner. FAQs Q. What is transcription? Ans: synthesis of RNA which carries the genetic information present in DNA. Q. What is the composition of RNA polymerase in prokaryotes? Ans: RNA polymerase consists of five polypeptide chains including two chains of ÃŽ ± (alpha) polypeptide and one chain each of ÃŽ ² (beta) and ÃŽ ²ÃƒÅ Ã‚ ¹ (beta dash) and ÏÆ' (sigma) polypeptides. Q. What is the function of sigma factor of RNA polymerase in prokaryotes? Ans: The function of sigma factor in prokaryotes is Promoter recognition and initiation of transcription. Q. What are the steps in transcription? Ans: The entire process of transcription can be divided in to following steps: (1) Template recognition, (2) Initiation, (3) Elongation and (4) Termination. Q. What is a Promoter? Ans: Promoter is defined as a sequence of DNA having the signal which directs the proper binding of RNA polymerase to DNA and activates it to a form which is capable of initiating the transcription. Q. What is the role of NusA protein? Ans: NusA protein, helps in elongation, and promotes pausing and termination at specific sites in prokaryotic transcription. Q. How termination of transcription occurs in prokaryotes? Ans: The termination of mRNA chain in prokaryotes is brought about by certain termination signals on DNA. These DNA sequences providing termination signals are called terminators (Gupta, 2007). Once the enzyme hits the terminator, it falls off the template and the transcription stops. The termination signals whenever found on DNA can be of two types: (i) Rho (Ï ) dependent termination and (ii) Rho (Ï ) independent termination. Q. How many RNA polymerases are involved in eukaryotic transcription? Ans: three classes of RNA polymerases (Pol I, Pol II and Pol III) have been identified which are involved in the transcription of different class of eukaryotic genes. Q. What the functions of Pol I, Pol II and Pol III? Ans: The functions of Pol I is Ribosomal RNA synthesis, Pol II is mRNA synthesis and Pol III is tRNA synthesis, 5S and other small RNA synthesis. Q. What are transcription factors? Ans: transcription factors are proteins which are needed for initiation of transcription, but are not a part of RNA polymerase. Q. What is Hogness box? Ans: The second region of eukaryotic promoter which is similar to -10 region of prokaryotes. is called the TATA box or Hogness box. Q. What is the role of transcription factor TFIIF and TFIIS? Ans: the transcription factor TFIIF accelerates RNA chain growth relatively uniformly, in concert with RNA polymerase II or pol II while transcription factor TFIIS helps elongation of RNA chain, by relieving the obstructions in the path of such elongation. Q. How TFIIS helps in elongation of RNA? Ans: TFIIS is known to function by first causing hydrolytic cleavage at 3Ê ¹ end of RNA chain, which are stuck and can not elongate. Q. what is the role of small nucleur RNA-protein complex? Ans: Termination takes place at termination sites which are present away from the site of 3Ê ¹ end of mRNA. The 3Ê ¹ end of mRNA will be generated due to post-transcriptional cleavage. This cleavage, at the end, is believed to be achieved by snurp (small nucleur RNA-protein complex). Q. How does Rho (Ï ) helps in termination of transcription? Ans: When RNA polymerase hits the terminator sequences, it pauses for a short time. During this period the rho factor reaches the RNA polymerase and causes it to fall off the template. MCQs: 1. Transfer of genetic information from DNA to mRNA? a. translation b. transcription c. transformation d. All of the above 2. During transcription the DNA strand which have a sequence homology with the RNA is known as: a. coding strand b. non-coding strand c. Both a and b d. None of the above 3. During transcription the strand which is complementary to RNA and serves as the template for RNA synthesis is known as? a. coding strand b. non-coding strand c. Both a and b d. None of the above 4. The principal enzyme involved in transcription is: a. RNA polymerase b. DNA polymerase c. transcription factor d. a and b only 5. RNA polymerase is: a. RNA dependent b. DNA dependent c. protein dependent d. hormone dependent 6. The RNA polymerase molecule thus can be represented as: a. ÃŽ ±ÃŽ ²2ÃŽ ²ÃƒÅ Ã‚ ¹ÃÆ' b. ÃŽ ±ÃŽ ²ÃŽ ²ÃƒÅ Ã‚ ¹ÃÆ'2 c. ÃŽ ±2ÃŽ ²ÃŽ ²ÃƒÅ Ã‚ ¹ÃÆ' d. ÃŽ ±ÃŽ ²ÃŽ ²ÃƒÅ Ã‚ ¹2ÏÆ' 7. The function of ÃŽ ± subunit is: a. Template binding b. Nucleotide binding c. Both a and b d. Enzyme assembly 8. Sequence of DNA having the signal which directs the proper binding of RNA polymerase to DNA is known as: a. Hogness box b. promoter c. CAAT box d. None of the above 9. The sigma factor is necessary for the formation of: a. promoter-enzyme complex b. Enzyme assembly c. CAAT box d. All of the above 10. The dissociation of sigma factor marks the entry of NusA protein: a. TF IIB b. TF IIE c.TF IIS d. Nus A protein 11. Termination of transcription in prokaryotes is: a. Rho (Ï ) dependent b. Rho (Ï ) independent c. both a and b d. a only 12. Hairpin structure for termination of transcription is found in: a. Rho (Ï ) dependent b. Rho (Ï ) independent c. both a and b d. a only 13. which RNA polymerase is found in Eukaryotes: a. Pol I b. Pol II c. Pol III d. All of the above 14. TATA box of eukaryotes is comparable to which sequence of prokaryotes: a. pribnow box b. CAAT box c. Hogness box d. All of the above 15. Transcription factors helps in: a. initiation b. elongation c. termination d. a and b only 16. At what region of DNA does RNA polymerase first bind to a gene: a. Initiation site b. Transcribed region c. Promoter d. Intron 17. RNA polymerase adds new nucleotides to the growing RNAs at what end? a. 3Ê ¹ end b. 5Ê ¹ end c. both a and b d. none of the above Key: 1-b, 2-a, 3-b, 4-a, 5-b, 6-c, 7-d, 8-b, 9-a, 10-d, 11-c, 12-b, 13-d, 14-a, 15-d, 16-c, 17-a. ASSIGNMENTS/TUTORIALS Q. 1: Difference between prokaryotic and eukaryotic transcription initiation. Q. 2: Explain the role of RNA polymerase in prokaryotes. Q. 3: Eukaryotes contain multiple RNA polymerases explain their role? Q. 4: Explain Rho dependent and Rho independent termination of transcription in prokaryotes. Q. 5: What are transcription factors? discuss the role.

Human Genome Project :: essays research papers

It all started back in 1953 with two men by the names of James D. Watson and Francis Crick when they discovered the double-helical structure of DNA. Little did they know they were opening the door to the creation of a perfect world. In 1986, the Human Genome Project, led up by the National Institution of Health(NIH), took a giant leap through this door. They began the long process of mapping out the entire genetic makeup of the human body. The main purpose of the HGP was originally for the use of preventing inherent diseases. However, as studies continue to progress, increased opportunities arise for genetically altering the unborn. You are now able to choose the sex of you child before they are born with great accuracy. What is on the horizon now, is the possibility of designing your child to be “perfect';. Over the years, there has been heated, ethical controversy on each of these issues, especially designer babies. How far will we let biotechnological discovery take us? What will come of the world if designer babies become standard procedure?   Ã‚  Ã‚  Ã‚  Ã‚  The earliest and maybe simplest use of genetic manipulation was in the selection of the sex of an unborn child. In Vitro Fertilization(IVF - A procedure in which a woman’s eggs are removed from her body, fertilized outside using sperm from her husband or another donor, and then transferred back to her body.) was originally limited to couples that were infertile. Even the use of IVF for the infertile was unheard of at one point. “But growing demand makes it socially acceptable, and now anybody who’s infertile demands IVF,'; says Lee Silver, a Princeton University biologist. Several years ago, fertility clinics announced the new possibility of sex selection. It was obviously an exciting breakthrough, but when these clinics were inquired about their results, they only had about a 50 percent success rate. “Its affluent clients could have achieved exactly the same outcome by leaving a note for the tooth fairy, requesting a girl or a boy';(Riddell). In the same way, there were many who were opposed to the idea at first especially with the results they were getting, but over time the procedures have been almost perfected and it has become socially acceptable.(Lemonick)   Ã‚  Ã‚  Ã‚  Ã‚  Many issues have arisen from the possibilities sex selection will provide. In cultures where males are valued more than girls, such as China and India, assured sex selection could really throw off an already out of balance society. In the United States it may not be as likely for there to be a favored sex, generally speaking. In our case, it is more of a weighted

Narrative Report Essay

On the October 4, 2013. we held our 5th annual convention in CHMT function hall. At 2:30am in morning ,I woke up early because Am assign in kitchen assistant of Ms. Buduan for food preparation, mam Buduan ask me to check the LPG to change the` other LSP because it look like empty,I accidentally break the host of the LPG that’s why the LPG leak, am shocked, I don’t know what to do,but I don’t panic I covered my hand in the hole of the LPG to stop the leak and I call the attention of mam Buduan because am scared,I though that the leak will continue it will explode, mam Buduan call the Security Guard to fix the LPG but me and the guard can’t fix the LPG, so we decided to move the LPG outside the HMB to avoid any accident we put the LPG in open area and we assemble fast the LPG, am scared my hands shaking while I remove the host, because the gas is smell bad. Mam Buduan assign me to cut all the carrots, after I finish cutting the carrots, she told me to cook rice. That’s is my first time to cook rice more than 10kilo. after I cooked rice, I stir the pancit bihon because it’s heavy that’s why itâ€℠¢s assign to me. At 8am me and jez went to sioland to buy banana in the market and plaque. And I went to store of the mineral water to told them that the order of mineral water 200 is 100 bottles only, im` tired so I took asleep in the HMB.

Should Marijuana Be Legalized - 951 Words

Marijuana is the mixture of dried, shredded flowers and leaves that comes from the hemp plant. It was brought over from Europe to North America around the 1600s. American production of hemp was encouraged by the government in the 17th century for the production of rope, sails, and clothing. Everyone thinks that marijuana is a harmful drug, but it has not been fully researched, we are still discovering new things from it every day. In the United States and around the world, scientists extract chemicals from the marijuana plant to treat certain conditions, such as children’s epilepsy (Is marijuana medicine par 8). If we legalize marijuana then we can find more medical uses from it. Even if you don’t use marijuana, you should be supporting getting it decriminalized. Decriminalizing marijuana on a Federal Level will increase state tax revenue, create more jobs, and open other business opportunities. Legalization of marijuana could save the United States an estimated $20 bil lion per year (McClellan par 1). There are so many misconceptions about marijuana that a lot of people are not aware of. For example, people have always said that marijuana can cause brain cancer or smoking marijuana is worse than smoking cigarettes. Studies have shown that marijuana use has no sign of changes in the brain structure and is not associated with effects on the pulmonary function (Poindexter â€Å"12† par 7 and 11). Another misconception that people have about marijuana is that it is known as aShow MoreRelatedShould Marijuana Be Legalized?849 Words   |  4 Pageswhether marijuana should be legalized. Around 23 states have legalized marijuana for medical and recreational use. In the state of Illinois, medicinal use of marijuana has been passed on April 17, 2013. Since January 2014, patients are able to obtain marijuana with a doctor s recommendation. 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The fact that marijuana is illegal is mainly caused by the amount of money, jobs, and pride invested in the drug war. Once the government starts anything, they stick to it. At