1 / 16

PCR Lab Notes

PCR Lab Notes. What does PCR Stand For?. Polymerase chain reaction. Who invented PCR?. Kary Mullins. Four main areas of biotechnology. Gene mapping Cloning DNA sequencing Gene Detection. What is the function of PCR?.

purity
Télécharger la présentation

PCR Lab Notes

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. PCR Lab Notes

  2. What does PCR Stand For? Polymerase chain reaction

  3. Who invented PCR? Kary Mullins

  4. Four main areas of biotechnology • Gene mapping • Cloning • DNA sequencing • Gene Detection

  5. What is the function of PCR? • PCR produces exponentially large amounts of a specific piece of DNA from trace amounts of starting material.

  6. The steps of PCR • Denature the double strand using heat (94 degree Celsius). • Anneal Primers – Cool temperature down to 60 degree Celsius. • Polymerization – Increase temperature to 74 degree Celsius.

  7. Genes and DNA

  8. What you already know…. • There are 23 pairs of chromosomes which contains 30,000 to 50,000 genes. • These genes only comprise about 5 % of chromosomal DNA. • The other 95% is non-coding DNA. • The sequence with the genes are introns, which is transcribed into RNA but in the end do not make a protein.

  9. What you already know cont… • The sequence that do code for proteins are called exons. • Both introns and exons are initially transcribed, then introns are spliced out of the RNA to create the messenger RNA (mRNA).

  10. About the exons and introns • Exon sequences are similar among individuals. • Introns vary in size and number among individuals. • It is the difference in intron sequences that allows us to determine human genetic diversity.

  11. The Alu Sequence • The Alu sequence is about 300 base pairs long that is repeated, one copy at a time, almost 500,000 times within the human genome. • The origin and function of the Alu sequence is not yet known.

  12. The Alu sequence cont… • Individuals can be:

  13. The Hardy-Weinberg Theorem

  14. The Hardy-Weinberg equation p2 + 2 pq + q2 = 1 Where: p and q represents alleles. • p2 = the expected frequency of the homozygous (+/+) genotype in the population. • 2pq = the expected frequency of the heterozygous (+/-) genotype in the population. • q2 = the expected frequency of the homozygous (-/-) genotype in the population.

  15. The Hardy-Weinberg equation • This equation describes the frequencies of genotypes in a population that is at “genetic equilibrium,” meaning that the frequencies are stable from generation to generation.

  16. The Hardy-Weinberg Theory • The theory states that for a population to achieve this equilibrium, the population must be: • Very large • The members must mate randomly and produce offspring with equal success • there must be no migration of individuals into or out of the population.

More Related