Before we look at the complimentary mRNA sequence of the given DNA sequence, let us remember that RNA contains uracil (U) in place of Thiamine (T)
The querry sequence is:
t-a-c-c-t-c-g-c-a-a-c-t
So the mRNA sequence would be:
A U G G A G C G U U G A
The mRNA sequence of t-a-c-a-t-c-t-t-g-g-c-g-a-c-g-a-c-t is UTGTUGUUCCGCTGCTGU.
The mRNA sequence of t-a-c-a-t-c-t-t-g-g-c-g-a-c-g-a-c-t is UTGTUGUUCCGCTGCTGU.
Before we look at the complimentary mRNA sequence of the given DNA sequence, let us remember that RNA contains uracil (U) in place of Thiamine (T)
The querry sequence is:
t-a-c-c-t-c-g-c-a-a-c-t
So the mRNA sequence would be:
A U G G A G C G U U G A
The mRNA sequence of t-a-c-a-t-c-t-t-g-g-c-g-a-c-g-a-c-t is UTGTUGUUCCGCTGCTGU.
the mRNA sequence is AUG CAG UUA AUU CGA UGA, so the amino acid sequence is Methionine (Start)-Glutamine-Leucine-Asparagine-Arganine-Stop Codon
the mRNA sequence is A U G A U C U U C A A A A T G G A A U G A
A t g t g g a a c c g t g
4
there are 64 codon for diffrent amino acids in human being and three amino acid codon for a specific amino acid eg AUG stand for methionin amino acids ADENINE URACIL GUANIN
t a c g c c g t g g t t c g a t c is an example of a DNA code. inside each cell in your body there is a doublr helix of DNA Each small circle is one of four componets adenine (represented by A), guanine (represented by G), cytosine (represented by C) and thymine (represented by T). These are writted together to represent DNA
G++ is the Gnu compiler's extension for C++. It is not a different language. It simply allows you to use the GCC compiler to write C++ code.
The C++ compiler is invoked with g++, however on many systems it is installed as c++. Consult the documentation for information on the command line options.
N. C. Balsem has written: 'G. Groen van Prinsterer'
Nerd
DNA sequence undergoes transcription, then translation process in order to determine and subsequently produce the amino acid sequence. The four bases specifically A,C,G, & T are the main coding sequence of a DNA. Because each coding sequence is unique, the resulting amino acid sequence is also unique as well.
The effect of the mutation is; there would be another amino acid that may form due to the change in sequence of the anticodon. change in the sequence of anticodon may result to different amino acid that may form.
A change in a nucleotide base sequence is known as a point mutation, this is when one of the bases(A,T,C,G) is swapped with another. This causes for the amino acid to change, which can change the function of the amino acid chain.
g
The sequence of nitrogenous bases (A, T, G and C) forms a code for the sequence of amino acids in a protein. The code is a triplet code. This means that three bases code for one amino acid. So, the order of the bases in a gene determines the order of the amino acids in a protein.
A t g t g g a a c c g t g
Each amino acid is formed from three base pairs - if you remember, there are four bases in the DNA acid sequence: A, C, T and G. Therefore there is a maximum number of 64 different combinations of the amino acids together (43= 64). Therefore, for a protein with 100 amino acids, 100 DNA code triplets will be required :)
To match up an RNA sequence to an amino acid one, you have to match up the corresponding letters (which are one of the 4 bases in DNA): RNA: U , A , C , G Will match with: DNA: A , T , G , C RNA is different to DNA because instead of a T it has a U. Therefore your question can't be correct because there are 5 letters in total in yours. If, however, i were to take out the 'T', the answer would be: tacttcttcaagct But this answer could not be correct because all DNA sequences must equal a multiple of 3, because every three letters forms 1 amino acid.
CTGAWhile A, T, C, and G represent a particular nucleotide at a position, there are also letters that represent ambiguity. Of all the molecules sampled, there is more than one kind of nucleotide at that position. The rules of the International Union of Pure and Applied Chemistry (IUPAC) are as follows:[1]A = adenineC = cytosineG = guanineT = thymineR = G A (purine)Y = T C (pyrimidine)K = G T (keto)M = A C (amino)S = G C (strong bonds)W = A T (weak bonds)B = G T C (all but A)D = G A T (all but C)H = A C T (all but G)V = G C A (all but T)N = A G C T (any)
Have you given the correct letters as TTA and TGA are both stop codons?
The base sequences on tRNA that are complementary to the codons on mRNA are known as anti-codons. These match up with the codons to ensure the correct amino acid is added to the polypeptide (protein) chain being created. U binds with A, G binds with C.