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
c-g-a-u-u-a-g-g-c.
Each of these letters stands for a base (which is part of one nucleotide). Therefore because there are 12 bases, there would be 12 nucleotides in the strand.
UAUGC
There is a heat squence to change brown tiger eye rock to red tiger eye. I read that but would like to the process Thanks BJ
G-A-T-T-A-G-C-C-T-A-A-G-G-T-C-GDNA base-pairing rulesAdenine - ThymineCytosine - GuanineRNA base-pairing rulesAdenine - UracilCytosine - Guanine
I will quickly change direction. more about this theory : http://changingminds.org/explanations/theories/james_lange_emotion.htm The sequence thus is as follows: Event ==> arousal ==> interpretation ==> emotion
A mutation in a DNA nucleotide sequence would be more harmful than a mutation in a mRNA nucleotide sequence because it could cause the synthesis of multiple nonfunctional proteins in comparison to a mutation in a mRNA nucleotide sequence that would be less harmful because it would result in a few nonfunctional proteins.
The sequence of the RNA would be UCG-AUG-UGA.
Transcription produces a strand of messenger RNA that is complementary to the DNA that it transcribed. For example, the DNA sequence AGTCGA would be transcribed by messenger RNA as UCAGCU.
Here's a sample nucleotide sequence:AATUGCIf there was a nucleotide deletion (let's say the "G" gets deleted), the sequence would become:AATUCIf there was a nucleotide addition/insertion (let's say a "G" was added between "T' and "U"), the sequence would become:AATGUGCThe difference is that a deletion makes the DNA shorter and an insertion makes it longer.
The DNA segment 3' ATT 5' would be transcribed to the mRNA sequence 5' UAA 3'.
The HIV virus is an RNA virus, so you know the sequence AUCUU is the RNA sequence. (You also know it is RNA because it contains uracil.) HIV is a retrovirus, so its RNA will be transcribed to DNA by the enzyme reverse transcriptase and then inserted into the host's genome. The RNA sequence of AUCUU would be transcribed to TAGTT.
gcgtatagtccg is the DNA compliment
Every pair in the sequence after that pair would be affected. Probably resulting in a mutation.
Well first and foremost a nucleotide would refer to a single letter of that 7 letter sequene. More specifically it would refer to the nitrogenous base (A, T, G, C or U) with phosphates attached to the ribose. Since they are connected through phosphates in DNA nucleotide is an acceptable definition. You have already answered your own question, you have written the nucleotide sequence. It is AATGCGA for that segment of DNA. The names would be adenosine, guanosine, cytosine, and thymine for each of the letters.
The RNA sequence which would be transcribed from the DNA TAG-GCA-TCG would be: AUC-CGU-AGC This is because with DNA and RNA - Adenine (A) binds to Uracil (U), Thymine (T) binds to A, and Cytosine (C) & Guanine (G) bind to each other.
yes. Because the 1 nucleotide is not evenly divided by 3, the reading frame would not be in the same place, resulting in a new translation for the remaining sequence.
The complementary sequence of a DNA strand is written with the beginning letters of the bases: adenine (A), cytosine (C), guanine (G), and thymine (T). You would replace each letter with its complementary nucleotide. Replace: A for T T for A C for G G for C