It contains the blueprint for your body, and is unique to every individual
no its classed as a making of your body for people such as police or crime scene investigators
DNA bands that match those in the child's fingerprint and that aren't from the other parent.
DNA is similar to a fingerprint in that it is unique to each individual and can be used to identify and distinguish one person from another. Just as a fingerprint is a distinctive mark on a person's skin, DNA is a distinct genetic code that is specific to each person.
Fingerprints don't have DNA... a fingerprint is simply the imprint of the ridges on the skin of the finger. Cells contain DNA, and your genetic code (DNA) stays the same throughout your life, it does not change when you become an adult.
DNA fingerprint
To create a DNA fingerprint, a scientist would typically extract genetic material from the cell's nucleus, which houses the DNA. The nucleus is the organelle responsible for storing and protecting the cell's genetic information. By isolating the DNA from the nucleus, the scientist can analyze the unique patterns and sequences that constitute an individual's DNA fingerprint.
A DNA fingerprint is a pattern of bands that are obtained by separating a person's DNA fragments on a gel and then visualizing them. It appears as a series of dark bands of varying lengths. Each individual's DNA fingerprint is unique, like a genetic barcode.
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The DNA fingerprint of the father is compared with that of the child. If he is the true father, half of the bands on the child's DNA fingerprint will match with the father's, because the father provides half of the child's DNA.
Selected fragments are used to produce a DNA fingerprint.
The process involving DNA that creates a unique DNA pattern or fingerprint for an individual person is called DNA profiling or DNA fingerprinting. This technique analyzes specific regions of an individual's DNA to create a unique genetic profile that can be used for identification purposes.
To create a DNA fingerprint, a scientist would typically isolate the nucleus of a cell, as it contains the cell's genetic material (DNA). However, it's important to note that the nucleus is not an organelle that can be "removed" in the traditional sense; rather, the DNA is extracted from the nucleus. Other organelles, such as mitochondria, also contain DNA, but for most DNA fingerprinting purposes, nuclear DNA is the primary focus.