Mrs. Stewart Honors Biology Central Magnet School
Except for identical twins, no two people in the world are genetically alike. .10 percent of everyone’s DNA is different Scientists can identify you based on that.10 percent difference
Non-coding regions of DNA have “repeating segments of nucleotides” called Variable number tandem repeats. The number of repeats and the location of the repeats differs among individuals. 13 of these loci are compared to produce a DNA Fingerprint. Odds of 2 people sharing 13 different loci are about 1 in 100 billion.
Polymerase Chain Reaction This technology quickly produces many copies of a DNA fragment Requires a template, a supply of extra nucleotides, DNA polymerase and primers Primer – single strand of a specific DNA sequence
Enzymes that recognize specific DNA base sequences and “cut” the DNA Makes a “zig zag” cut to leave a “sticky end” Sticky ends allow the DNA to reanneal (rebind).
DNA fragments that have been amplified (multiplied in number) through PCR can be run through a gel that separates the fragments according to size. An electric current is applied to the gel, causing the negatively charged phosphate groups of the DNA to migrate toward the positive pole.
DNA is collected and run through PCR Amplified DNA is cut with restriction enzymes DNA is loaded into the gel and electric current is applied DNA travels toward positive pole in the gel Smallest fragments will move farthest down the gel Gel Electrophoresis virtual lab Gel Electrophoresis virtual lab
Joining the DNA from two different organisms. Genetic engineering – the process of altering the genetic material of cells to allow them to make new substances. Vectors carry the DNA and insert it into the host cell.
Treatment of a genetic disorder by introducing a gene into patient’s cells Work best for disorders caused by the loss/malfunction of a single protein. Not yet a viable option
Paternity testing Identify criminals Free the wrongly convicted Trace human origins and migrations Trace migrations and movements of threatened/endangered species Produce medically important proteins: insulin, clotting factors, HGH
The research effort taken to sequence all of our DNA and locate within it all of the functionally important sequences, such as genes. Important insights: Only about 2 percent of the human genome codes for proteins Chromosomes have an unequal distribution of exons (coding regions of DNA) Genome is smaller than believed. Only about ,000 protein coding genes.
Scientists have discovered many of the genes responsible for genetic disorders, such as: Cystic fibrosis Duchenne muscular dystrophy Colon cancer These discoveries have improved diagnostic techniques, treatments and therapies.
Uses the nucleus of a somatic cell and impants it into an unfertilized egg cell (that has had it’s nucleus removed) This egg cell is then implanted in a surrogate for growth as an embryo into a complete organism.
Taking the nucleus from a somatic cell and placing it into an anucleated egg cell Grown as an embryo until reaches the “stem cell” stage Engineered to grow as desired cells only – producing new organs, cells, etc.
Genetically modified crops – plants created by genetic engineering More tolerant to environmental conditions Can improve the “nutritional” value Can make plants resistant to certain plant diseases
Study of ethical issues related to DNA technology