Robosomes
The experiment cracked the genetic code by using nucleic acid homopolymers to translate specific amino acids. This experiment cracked the first codon of the genetic code and showed that RNA controlled the production of specific types of protein.
RNA translates the genetic code contained within a cell. DNA stores the genetic information but RNA is responsible for translating this information into proteins through a process called protein synthesis.
There are more codons than amino acids in the genetic code because multiple codons can code for the same amino acid. This redundancy helps protect against errors in the genetic code and allows for greater flexibility in protein synthesis.
The sequence of nucleotides in a nucleic acid, specifically the arrangement of the four different bases (adenine, thymine, guanine, and cytosine), allows it to store and transmit information as a genetic code. By combining these bases in different sequences, nucleic acids can encode the instructions for building and functioning of living organisms.
Multiple sequences code for the same amino acid in genetic coding because of redundancy in the genetic code. This redundancy allows for errors in DNA replication or mutations to occur without affecting the final protein structure and function.
WATSON
Genetic code of the cell is found in a long molecule known as DNA.
The experiment cracked the genetic code by using nucleic acid homopolymers to translate specific amino acids. This experiment cracked the first codon of the genetic code and showed that RNA controlled the production of specific types of protein.
The cell membrane is a double-walled structure containing a cell's genetic code.
The form of nucleic acid that allows it to be used as a code is DNA. This is because DNA is the genetic code for everyone's genetic make up.
The form of nucleic acid that allows it to be used as a code is DNA. This is because DNA is the genetic code for everyone's genetic make up.
The form of nucleic acid that allows it to be used as a code is DNA. This is because DNA is the genetic code for everyone's genetic make up.
RNA translates the genetic code contained within a cell. DNA stores the genetic information but RNA is responsible for translating this information into proteins through a process called protein synthesis.
decipher code depends upon the algorithm you used to make them. there are no general methods.
Each daughter cell has the exact same genetic code as the parent cell in mitosis. This is why cells that become old or damaged can be replaced during one's life.
When a virus takes over a cell, it incorporates it's genetic code into the DNA of the host cell. The host cell reads the viruses genetic code, which will instruct the cell to divide and thus make even more copies of the virus.
There could be a mutation in the genetic code that controls cell reproduction.