a t c and g
they represent adenine thymine cytosine and guanine
dna
he discovered it in moscow, as he was on holiday with his wife.
They do multiply and it's accomplished by injecting DNA into a host cell (bacteria in this case) and forcing the cell to synthesize the virus DNA, effectively creating more bacteriophages with the bacteria's own protein. The bacteria eventually bursts and the new bacteriophages are released to live happily ever after.
It's true, it's in the book
no! all of our cells are Eukaryotic (EU! are made of cells that have DNA)the DNA in your body is found in every single one of your cells, but some characteristics are not shown (they are turned off)but they are still there!for example:a person who has blonde hair might carry the gene for red hair, even though they don't have any red hairs visible on their body!
DNA could be compared to the alphabet in that different combinations of genes in DNA all together make up an entire person. Similarly, all the letters in the alphabet make up our entire language.
DNA stand for DeoxyriboNucleic Acid.It is the genetic material of a cell. The chromosomes inside the nucleus (control centre) of the cell are made of DNA. Lots and lots of DNA. It is very fine and tightly coiled but there may be as much as a metre in a single cell.The four hydrogen bases - otherwise known as the DNA Alphabet - are ATCG - Adenine, Thymine, Cytosine, and Guanine. Adenine bonds only to Thymine, and Cytosine bonds only to Guanine.
act
There is no DNA code i don't think There is no DNA code i don't think
DNA, short for Deoxyribonucleic acid, has 19 letters if you expand it (not including the space).
A gene is the DNA code that can make a copy of itself.
The universal DNA code can make a copy of itself.
A: Adenine, T: Thymine, C: Cytosine, G: Guanine
Nitrogen bases are like the letters of the alphabet because 1. they sound like A,B,C,D but really are A, T, C, G. 2. they can come in any order.
A,T,G,C are the bases found in DNA. Chargoff's is stated as follow: Adenine pairs with thymine with a double hydrogen bond, wheras Guanine interact with cytosine with a triple H bond. This bonding is essential in the formation of double helix in the DNA.
Isoleucine...I Think
A, G, C, U whereas in DNA we have A,G,C,T in conclusion we have uracil that substitutes thymine in an RNA sequence