None, all DNA sequences are coded for by just four base pairs, AT, TA. GC and CG.
A gene is a section of DNA that encodes instructions for building a particular protein. Transcription is the process by which a gene's DNA sequence is copied into messenger RNA (mRNA). The mRNA carries the genetic information from the DNA to the ribosome for protein synthesis.
The DNA code for normal hemoglobin is the gene that encodes for the production of the protein hemoglobin. The sequence of this gene includes instructions for building the alpha and beta globin chains that make up the hemoglobin protein. This gene is located on chromosome 11 in humans.
Yes
The sequence of nucleotide bases (adenine, thymine, guanine, and cytosine) encodes genetic information in DNA. Each sequence of these bases along the DNA strand forms a gene, which carries the instructions for making proteins and other cellular components. The specific order of these bases determines the genetic code that dictates the traits and functions of an organism.
The RecA gene encodes a protein involved in DNA repair and recombination in bacteria. It plays a crucial role in DNA strand exchange during homologous recombination, and helps in repairing damaged DNA molecules. The RecA protein is important for maintaining genomic integrity and ensuring proper DNA replication.
A gene is a section of DNA that encodes instructions for building a particular protein. Transcription is the process by which a gene's DNA sequence is copied into messenger RNA (mRNA). The mRNA carries the genetic information from the DNA to the ribosome for protein synthesis.
The DNA code for normal hemoglobin is the gene that encodes for the production of the protein hemoglobin. The sequence of this gene includes instructions for building the alpha and beta globin chains that make up the hemoglobin protein. This gene is located on chromosome 11 in humans.
Yes
The sequence of nucleotide bases (adenine, thymine, guanine, and cytosine) encodes genetic information in DNA. Each sequence of these bases along the DNA strand forms a gene, which carries the instructions for making proteins and other cellular components. The specific order of these bases determines the genetic code that dictates the traits and functions of an organism.
A mutation is a permenent in DNA sequence of a gene,mutation in a gene's DNA sequence can alterthe aminoacid sequence of the protein encodedby the gene.
DNA encodes the sequence of amino acid in proteins, inheritance, coding and as a genetic blueprint.
The entire sequence of DNA bases responsible for the manufacture of a protein or part of a protein is called a gene. Genes contain the instructions for making proteins through a process called protein synthesis, involving transcription and translation. Each gene has a specific sequence of nucleotide bases that encodes the information for a particular protein.
The RecA gene encodes a protein involved in DNA repair and recombination in bacteria. It plays a crucial role in DNA strand exchange during homologous recombination, and helps in repairing damaged DNA molecules. The RecA protein is important for maintaining genomic integrity and ensuring proper DNA replication.
cDNA is a complementary DNA copy of an mRNA molecule, while CDS (coding sequence) is the part of the gene that encodes the protein. cDNA is used to study gene expression and can be used to produce proteins in recombinant DNA technology. CDS directly impacts protein synthesis by providing the instructions for the amino acid sequence of the protein.
No, a mutagen is an agent (usually a chemical) that mutates DNA. It can cause an abnormal DNA sequence in a gene or elsewhere
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.
Changes in a DNA sequence of a single gene is called a point mutation. These mutations can be harmful or not to the organism.