Genes
Genes
The study of an organism's entire DNA sequence is called genomics. Genomics involves analyzing and interpreting the structure, function, and evolution of an organism's complete set of DNA, known as its genome. It provides insights into genetic traits, diseases, and relationships among different species.
Genes
Genes
Changes in a DNA sequence that affect entire chromosomes or multiple chromosomes can include chromosomal rearrangements such as translocations, duplications, deletions, and inversions. These changes can result in alterations in the number or structure of chromosomes, leading to genetic disorders or abnormalities. They can be caused by errors during cell division or exposure to mutagens.
Scientists are able to study specific genes.
Shotgun sequencing breaks DNA into small fragments, sequences them, and then assembles the fragments to create the full DNA sequence. The process involves randomly breaking the DNA into pieces, sequencing each piece, and then using overlapping sequences to piece together the entire DNA sequence.
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No DNA sequence wont have U (uracil), so it is an RNA 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.
Knowing the sequence of an organism's DNA allows researchers to study specific genes, to compare them with the genes of other organisms, and to try to discover the functions of different genes and gene combinations.
The DNA sequence of an organ would be exactly like that present in any other cell of the Body in which it is present.What makes it different is the temporal and spatial expression of proteins.DNA content of all the cells of the body is the same.