In DNA, the 4 bases are guanine, cytesine, thymine and adenine.
In RNA, also used in protein synthesis, instead of adenine, there is urasil
1)protein synthesis 2)photosynthesis 3)respiration 4)enzymatic hydrolysis
Codons are a series of three of the 4 nucelotides (bases) that call for the creation of one of 20 amino acids...or start or stop protein synthesis. Some amino acids have only one codon others have several. A C T G (U in RNA) ATC starts protein synthesis for example
1) Acts as catalysts for most biochemical reactions 2) Acts as a carrier for amino acids during protein synthesis 3) Acts as a transmitter of genetic information to offspring 4) Acts as a template in protein synthesis.
I think 5 high energy bond in the first cycle then 4 per amino acid since initiation requires high energy 1 bond more
What is the best route for synthesis of pyridine-4-acetaldehyde?
In DNA, the 4 bases are guanine, cytesine, thymine and adenine. In RNA, also used in protein synthesis, instead of adenine, there is urasil
1)protein synthesis 2)photosynthesis 3)respiration 4)enzymatic hydrolysis
Codons are a series of three of the 4 nucelotides (bases) that call for the creation of one of 20 amino acids...or start or stop protein synthesis. Some amino acids have only one codon others have several. A C T G (U in RNA) ATC starts protein synthesis for example
The order of the four nitrogen bases, or nucleotides, in the DNA molecule is called the genetic code. It's a set of rules that maps DNA sequences to proteins in a living cell, and is used in the process of protein synthesis.
1) Acts as catalysts for most biochemical reactions 2) Acts as a carrier for amino acids during protein synthesis 3) Acts as a transmitter of genetic information to offspring 4) Acts as a template in protein synthesis.
4
I think 5 high energy bond in the first cycle then 4 per amino acid since initiation requires high energy 1 bond more
DNA and RNA each have 4 bases, 3 of which are common to both and 1 that differs.DNA has Thymine, Adenine, Cytosine, GuanineRNA has Uracil, Adenine, Cytosine, Guanine
Initiation:In the cytoplasm, protein synthesis is actually initiated by the AUG codon on mRNA. The AUG codon signals both the interaction of the ribosome with m-RNA and also the tRNA with the anticodons (UAC). The tRNA which initiates the protein synthesis has N-formyl-methionine attached. The formyl group is really formic acid converted to an amide using the -NH2 group on methionine (left most graphic)The next step is for a second tRNA to approach the mRNA (codon - CCG). This is the code for proline. The anticodon of the proline tRNA which reads this is GGC. The final process is to start growing peptide chain by having amine of proline to bond to the carboxyl acid group of methinone (met) in order to elongate the peptide.
There are 4 nitrogenous bases characteristic of mRNA. Adenine, Cytosine, Uracil, and Guanine.
Yo mama makes up a codon, JK.... The correct answer is that 3 nittrogen bases make up a codon.
1) Change in membrane permeability and/or voltage 2) Enzyme activation/inactivation 3) Initiation of secretory activity 4) Synthesis of regulatory molecules such as enzymes