It can't. If you're wondering how two different codons can produce the same amino acid, then that is because two different tRNA molecules have different anticodons on one end, but the same amino acid on the other end.
For example, Arginine can be produced by CGT, CGC, CGA, CGG, AGA, AGG. This means that there are six different kinds of tRNA molecules that all have Arginine at the end, but different anticodons.
one mRNA strand gets information for the desired protein to be synthesized and gets translated in the cytoplasm. Each protein information will be coded in different mRNA strands.
The same RNA transcript may be spliced in several different ways.
penis
degeneracy
That humans are more closely related to monkeys than to chickens.
Introns are the non-coding parts of the gene. If you didn't remove introns, the wrong protein may be produced because they allow more than one protein to be produced from a single gene.
The gene will code for a different protein than it should.
One way that protein synthesis differs between prokaryotes and eukaryotes is that gene groups that produce proteins are organized into operons in prokaryotes, but they are not organized into operons in eukaryotes. Also, protein synthesis in eukaryotes involves more protein and is a more intricate process than in prokaryotes.
allele
its random really, some genes are recessive, and some are dominant if a gene is dominant than it will be expressed if it is present the only way for a recessive gene to be expressed is if there are two alleles for that traitIt's not random at all. There can be many reasons. One classic reason is given here. First, know that most genes encode proteins. A dominant gene (really, an allele) may encode for a functional protein while a recessive gene may encode for a non-functional proteindominant genes contain genes that are strong and recessive genes contain genes that are weak.
That humans are more closely related to monkeys than to chickens.
Introns are the non-coding parts of the gene. If you didn't remove introns, the wrong protein may be produced because they allow more than one protein to be produced from a single gene.
The difference between a structural gene and a nonstructural gene can be explained that structural gene is a gene encoding the amino acid sequence of a protein. Non-regulatory gene. A structural gene is a gene that codes for any RNA or protein product other than a regulatory element (i.e. regulatory protein)and then it makes proteins in the cell. However, the nonstructural gene is different from structure gene, for example (nonstructural gene)NS1 Influenza Protein is created by the internal protein encoding, linear negative-sense, single stranded RNA, NS gene segment; which found in Influenzavirus A, Influenzavirus B and Influenzavirus C;
The Gene will code for a different protein than it should
The gene will code for a different protein than it should.
The gene will code for a different protein than it should.
The gene will code for a different protein than it should.
The gene will code for a different protein than it should.
The gene will code for a different protein than it should.
The gene will code for a different protein than it should.
The gene will code for a different protein than it should.