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It would all involve the protein's structure that the gene is responsible for. There are 4 levels to a protein's structure- primary, secondary, tertiary and quaternary. It would essentially boil down to the primary structure. The primary structure is just the amino acid sequence that the gene codes for.
Most importantly, there are several types of mutations. A single base change is called a point mutation. The genetic code of As,Ts,Cs and Gs code for specific amino acids in groups of 3 called codons. With 64 combinations and only 21 amino acids, there are duplicate codes. Let's take a silent mutation which is harmless. Let's say TTT is mutated to TTC. The RNA molecule that is transcribed will still code for the Phenylalanine amino acid. No change will occur to the organism.
Now a damaging type of point mutation could be a missense mutation. If TTT is mutated to TTA, Phenylalanine will become the Leucine amino acid. This effect on the protein's primary structure can affect the secondary structure (alpha helixes or beta sheets), tertiary structures (3-D shape) and\or the quaternary structure (which is when several proteins combine. This structure is not always necessary). Sometimes a missense mutation isn't so bad.
Very damaging, single base mutations include insertions, deletions and nonsense mutations. In a very short explanation, there are 3 types of codons that stop a gene's transcription. If, along the gene's code, one nucleotide is inserted or deleted or changed to code for TAA, TGA or TAG at another place along the gene, the amino acid sequence will be too long or too short. This again will affect the higher levels of protein structure.
If a sequence of bases are altered, it can be just as damaging. Examples are "Amplifications" which lead to multiple copies of all chromosomal regions, increasing the dosage of the genes located within them. "Deletions" of large chromosomal regions lead to the loss of the genes within those regions.
Any type can lead to cancer. I'm majoring in molecular Biology and genetics and I find this very interesting so I hope it helps.
What else can I help you with?
What is the new mRNA stand produced by this mutated gene?
The specific sequence of the new mRNA strand produced by a mutated gene will depend on the nature of the mutation. Mutations can cause changes in the coding region of the gene, leading to alterations in the mRNA sequence and potentially affecting the resulting protein or gene function. Further analysis and sequencing of the mutated gene would be required to determine the exact mRNA sequence.
A base sequence is shown below. ACAGTGC?
The sequence shown is "ACAGTGC".
What is the complementary sequence for atgcccgggtgtcgtagttga?
The complementary sequence for a DNA sequence is formed by replacing each nucleotide with its complementary base. For the given sequence "atgcccgggtgtcgtagttga," its complementary sequence would be "tacgggccacagcatcaact."
What is CCGTAGGCC?
CCGTAGGCC is a sequence of DNA base pairs. It represents the complementary DNA strand to the original sequence GGCTACGG, where each base pairs with its complementary base (A with T and C with G).
What is the sequence of the base os agctcag on the opposite strand?
A TG CAGATTCTCTAAG
How might biologist determine whether a mutation has occurred and if so what type of mutation is it?
The comparison between the DNA sequence of normal DNA to the mutated DNA will be made. The type of mutation will be revealed during the base sequence.
Describe the differences between the original and mutated sequences?
An original sequence is a sequence of DNA that has no mutations or damage. A mutated sequence is one that has had some type of damage or change occurs to the DNA. A mutation is not always a bad thing, and may have very little impact on the organism that has the mutation.
What is the new mRNA stand produced by this mutated gene?
The specific sequence of the new mRNA strand produced by a mutated gene will depend on the nature of the mutation. Mutations can cause changes in the coding region of the gene, leading to alterations in the mRNA sequence and potentially affecting the resulting protein or gene function. Further analysis and sequencing of the mutated gene would be required to determine the exact mRNA sequence.
What is the amino acid sequence after the insertion occurred?
The template strand is mutated to 3'-TACTTGTCCAATATC-5'.
What sequence of DNA base bonds with DNA base sequence ATGT?
TACA
What permanent change in the sequence of DNA in a gene is a?
Basically change in the DNA sequence of a gene is associated with change in the nucleotide sequence which may result in Mutation and may cause loss of function of that particular mutated gene.
The order of bases in a molecule of mRNA is determined by the sequence?
The base sequence of mRnas is 'determined by the base sequence of nucleotides in Dna.' The base sequence is transformed into information via the triplet codons of The Genetic Code.
What is base sequence?
boo
Which base sequence in DNA is complementary to the base sequence atgt?
ATAGCC is complementary to the base sequence TATCGG.
What is the new mRNA strand produced by a mutated gene?
The new mRNA strand produced by a mutated gene may contain errors in the sequence due to a change in the gene's DNA sequence. This can lead to changes in the resulting protein, affecting its structure or function. Mutations can range from single nucleotide changes to large deletions or insertions, altering the mRNA sequence accordingly.
DNA sequence acgtt will give what mRNA base sequence?
The mRNA base sequence corresponding to the DNA sequence acgtt is ugcaa. The mRNA sequence is complementary to the DNA sequence, with thymine (T) in DNA being replaced by uracil (U) in mRNA.
A base sequence is shown below. ACAGTGC?
The sequence shown is "ACAGTGC".
