this is a codon a message in genetics the A stands for adenine.the C stands for cytosine.the G stands for guanine and the T stands for thymine.
To find the complementary sequence for a given DNA sequence, you need to match each nucleotide with its complementary base according to the base-pairing rules. In DNA, adenine (A) pairs with thymine (T), and cytosine (C) pairs with guanine (G). Given the DNA sequence: C - T - A - A - G - T - C The complementary sequence would be: G - A - T - T - C - A - G
the complimentary styrand would be: T-C-C-G-A-T
The four nitrogen bases of DNA are represented by the letters A, T, G, and C. A stands for adenine, T stands for thymine, G stands for guanine, and C stands for cytosine. These bases pair up in specific combinations to form the rungs of the DNA double helix.
The four types of bases in DNA are adenine (A), thymine (T), guanine (G), and cytosine (C). These bases pair up in specific combinations (A with T and G with C) to form the rungs of the DNA double helix.
DNA:T-C-G-A-TmRNA:U-C-G-A-UmRNA rule: switch T with U_________________________________________Although the above answer is correct in that there are no thymines (T) in RNA, I must disagree with the rest of the answer. The mRNA strand given in the answer above would be the identical strand made from RNA, not the complementary strand as the question asked for.A complementary strand is produced by an RNA or DNA polymerase from a template DNA strand.Therefore, if the template DNA strand were T-C-G-A-T, then:The complementary DNA strand would be A-G-C-T-AThe complementary RNA strand would be A-G-C-U-A
well I know A = Adenine, T= Thymine, G= Guanine and C= Cytosine, however I do not know what U stands for
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
A becomes U, T becomes A, C becomes G, G becomes C. U-U-A-G-C-A
Because c-g-a-t-c-c-g-t-t contains thymine and is therefore from the DNA, the tRNA sequence that may derive from this is C-G-A-U-C-C-G-U-U
AUA - Ile, AGC - Ser, GCU - Ala, and AAA is Lysine.
In RNA, the above code would be transcribed as:AUGGUGCACUGACUCCUGAGGAGThis is because:Adenine bonds with Uracil (In DNA, Adenine bonds with Thymine)Cytosine bonds with Guanine
It will be based on the process in which it involved- for replication, transcription or translation As a rule the bases will be expressed in Capital letters If it is replication the sequence will A-T-G-T-T-G-G-A-C as the components of DNA is Adenine,Guianine, cytosine and thymine But if it is for transcription it will be A-U-G-U-U-G-G-A-C as in RNA thymine is replace by uracil Sreekala.K.P
A binds with T, G binds with C. Therefore the complementary strand of ATG-CCC-TAT-AGC-GCG-CAA-AGA-G is: TAC-GGG-ATA-TCG-CGC-GTT-TCT-C
To find the complementary sequence for a given DNA sequence, you need to match each nucleotide with its complementary base according to the base-pairing rules. In DNA, adenine (A) pairs with thymine (T), and cytosine (C) pairs with guanine (G). Given the DNA sequence: C - T - A - A - G - T - C The complementary sequence would be: G - A - T - T - C - A - G
You just need to switch G with C and T with A. Thymine and Adenine are always bonded together. Guanine and Cytosine are always bonded together. They would be switch so the nucleotide sequence would be. C-G-A-T-T-A-G-G-C
g => (g or h) => (s and t) => t => (t or u) => (c and d) => c.We are given premises:# (g or h) -> (s and t) # (t or u) -> (c and d) We would like to derive g -> c.If we assume g (the antecedent in the conclusion) we have the following derivation: # g (assumption) # g or h(weakening) # s and t (premise 1 (modus ponens)) # t(weakening) # t or u (weakening) # c and d (premise 2 (modus ponens)) # c (weakening)So, assuming g we can derive c, i.e. g -> c
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