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How many codons would be needed if a bacterial protein contains 150 amino acids?
1. the start codon 2. 150 codons, 1 for each amino acid 3. the stop codon The total number of different codons is 64...if this question is asking about unique codons used the answer will depend on which amino acids are in the peptide.
How many bases would DNA molecule have to molecule to code an enzymes of 150 amino acids?
To code for a protein of 150 amino acids, the DNA molecule would need approximately 450 base pairs. This is because each amino acid is encoded by a sequence of three nucleotides called a codon. So, 150 amino acids would require 150 codons, which translates to 450 base pairs.
How many codons are needed to code for a protein that has 50 amino acids?
Since each amino acid is encoded by a specific triplet of nucleotides (codon), you would need 50 codons to code for a protein that has 50 amino acids. Each codon corresponds to one amino acid, ensuring the correct sequence is produced during protein synthesis.
How many peptide bonds are in a 151 amino acids?
150Think of it this way: Amino acid ---- Amino acidThat's one bond for two monomersAmino acid ---- Amino acid ---- Amino acidThat's two bonds for three monomersThen you can say there are 150 bonds for 151 monomers.
What is evidence of the theory of creation?
Source: Meyer, Stephen C. "DNA by Design." Lecture.There are twenty possible protein-forming amino acids. To get a chain of amino acids merely ten sites long, it is 20^10 or 10,000,000,000,000 possible combinations. However, some of the shortest proteins are 150 sites long, with most actually being 3-400. That means that for a tiny strand of only 150 sites, your possible combinations are 20^150 or 10^195! There are only 10^80 elementary particles (protons, neutrons, electrons) in the whole universe! How likely is it that we ever get a complete protein to arise by chance, given all the amino acids interacting in the pre-biotic soup given billions of years? According to Doug Axe, the functional sequences of amino acids as compared to all the possible sequences of amino acids are 1 to 10^74. Between each of these amino acids, there is a type of bond called a peptide bond. In nature, only half of the bonds that form between amino acids are peptide bonds. For the entire strand (149 bonds, rounded up to 150 to make a round number), that leads up to a probability of 10^45. Also, when you're building a protein, amino acids come in two types of optical isomers; left-handed and right-handed. The left-handed version is the only type that can be used in building amino acids. At 150 amino acids, that means we have another 10^45 chance. Putting these together, that means to form a functional protein by chance, we have a total probability of 1 in 10^164. There have only been 10^16 seconds since the big bang, there have only been 10^139 events happen since the beginning of the universe, and once again, there are only 10^80 elementary particles in the universe. However, all this time, we've been talking about one single protein. Estimates to form a minimally complex single-celled organism say that it requires between 250 and 400 different proteins to do this. There are vastly more in the human body, not to mention we also have specialized cells to do certain tasks requiring certain additional proteins.Though it is indeed possible, granted enough time, life could develop from simple chemicals, the universe (according to recent evidence found by the Hubble Space Telescope) is a maximum of 20 billion years old and this is nowhere near enough time in which to complete this process, even had the earth existed in the right state with all of the right conditions from the very beginning. This is not all of the evidence, merely the evidence that exists in the formation of DNA.
How many codons would be needed if a bacterial protein contains 150 amino acids?
1. the start codon 2. 150 codons, 1 for each amino acid 3. the stop codon The total number of different codons is 64...if this question is asking about unique codons used the answer will depend on which amino acids are in the peptide.
How many bases would DNA molecule have to molecule to code an enzymes of 150 amino acids?
To code for a protein of 150 amino acids, the DNA molecule would need approximately 450 base pairs. This is because each amino acid is encoded by a sequence of three nucleotides called a codon. So, 150 amino acids would require 150 codons, which translates to 450 base pairs.
How many codons are needed to code for a protein that has 50 amino acids?
Since each amino acid is encoded by a specific triplet of nucleotides (codon), you would need 50 codons to code for a protein that has 50 amino acids. Each codon corresponds to one amino acid, ensuring the correct sequence is produced during protein synthesis.
How many DNA nucleotides make up a gene with a protein with 150 amino acids?
A gene with a protein containing 150 amino acids would require 450 nucleotides. This is because each amino acid is coded by three nucleotides in DNA.
How much nucleotides for 150 polypeptide?
To calculate the number of nucleotides required to code for a specific polypeptide, you need to know the number of amino acids in the polypeptide. Since each amino acid is coded by a codon made up of three nucleotides, you would need 3 times the number of amino acids to determine the total number of nucleotides required. For a 150 amino acid polypeptide, the number of nucleotides would be 150 (amino acids) * 3 (nucleotides per amino acid) = 450 nucleotides.
How many peptide bonds are in a 151 amino acids?
150Think of it this way: Amino acid ---- Amino acidThat's one bond for two monomersAmino acid ---- Amino acid ---- Amino acidThat's two bonds for three monomersThen you can say there are 150 bonds for 151 monomers.
How many amino acids would be in a molecule containing 15000 nucleotides?
One amino acid is encoded by 3 nucleotides. That means 150 amino acids are encoded by 150*3=450 nucleotides. But there are also Start and Stop condons, which are also encoded by 3 nucleotides each. Therefore, I guess, the theoretical minimum is 450 nucleotides and the full (maximum) should be 450+ 3+ 3= 456 nucleotides.
20 kinds of amino acids?
The twenty standard, or alpha, amino acids are alanine, arginine, asparagine, aspartic acid, cysteine, glutamic acid, glutamine, glycine, histidine, isoleucine, leucine, lysine, methionine, phenylalanine, proline, serine, threonine, tryptophan, tyrosine, and valine. More than 150 other amino acids have been found in nature, most often in fungi and plants.
How many amino acid are found in tripeptide if one amino acid has 150 molecular weight?
450
What is evidence of the theory of creation?
Source: Meyer, Stephen C. "DNA by Design." Lecture.There are twenty possible protein-forming amino acids. To get a chain of amino acids merely ten sites long, it is 20^10 or 10,000,000,000,000 possible combinations. However, some of the shortest proteins are 150 sites long, with most actually being 3-400. That means that for a tiny strand of only 150 sites, your possible combinations are 20^150 or 10^195! There are only 10^80 elementary particles (protons, neutrons, electrons) in the whole universe! How likely is it that we ever get a complete protein to arise by chance, given all the amino acids interacting in the pre-biotic soup given billions of years? According to Doug Axe, the functional sequences of amino acids as compared to all the possible sequences of amino acids are 1 to 10^74. Between each of these amino acids, there is a type of bond called a peptide bond. In nature, only half of the bonds that form between amino acids are peptide bonds. For the entire strand (149 bonds, rounded up to 150 to make a round number), that leads up to a probability of 10^45. Also, when you're building a protein, amino acids come in two types of optical isomers; left-handed and right-handed. The left-handed version is the only type that can be used in building amino acids. At 150 amino acids, that means we have another 10^45 chance. Putting these together, that means to form a functional protein by chance, we have a total probability of 1 in 10^164. There have only been 10^16 seconds since the big bang, there have only been 10^139 events happen since the beginning of the universe, and once again, there are only 10^80 elementary particles in the universe. However, all this time, we've been talking about one single protein. Estimates to form a minimally complex single-celled organism say that it requires between 250 and 400 different proteins to do this. There are vastly more in the human body, not to mention we also have specialized cells to do certain tasks requiring certain additional proteins.Though it is indeed possible, granted enough time, life could develop from simple chemicals, the universe (according to recent evidence found by the Hubble Space Telescope) is a maximum of 20 billion years old and this is nowhere near enough time in which to complete this process, even had the earth existed in the right state with all of the right conditions from the very beginning. This is not all of the evidence, merely the evidence that exists in the formation of DNA.
How many tens make 1500?
150.
How many percent equals 1.50?
1.50 = 150%1.50 = 150%1.50 = 150%1.50 = 150%
