RTPCR lab - PowerPoint PPT Presentation

1 / 15
About This Presentation
Title:

RTPCR lab

Description:

DNA has genes and is in nucleus. TRANSCRIPTION: Double strands of DNA unwind to allow synthesis of messenger RNA ... Wrapped around each other in a double helix ... – PowerPoint PPT presentation

Number of Views:48
Avg rating:3.0/5.0
Slides: 16
Provided by: bradj7
Category:
Tags: rtpcr | helix | lab

less

Transcript and Presenter's Notes

Title: RTPCR lab


1
RT-PCR lab
  • You have a cellis a certain gene on (by on, we
    mean active and producing mRNA?)?
  • If a certain gene is on when the cell divides,
    the gene might produce a protein that causes cell
    division.

2
Central Dogma
  • DNA has genes and is in nucleus
  • TRANSCRIPTION Double strands of DNA unwind to
    allow synthesis of messenger RNA (mRNA) from one
    strand (the coding strand)
  • The mRNA moves out of the nucleus to the
    cytoplasm
  • mRNA binds to Ribosomes to code for a protein-
    protein made (translation)
  • Protein carries out intent of gene (red hair
    protein hair gene)

3
DNA Structure
4
DNA is two strands of nucleotides Wrapped around
each other in a double helix We sequence the DNA
to find out about the genes present (later
bioinformatics lab)
5
Unwind, mRNA is made off DNA template- similar to
this picture of DNA made off of DNA.Nucleotides
pair upG always pairs with C, T pairs with A.
Except in RNA, T is replaced with U.
6
TranscriptionRNA synthesis(note coding and
template strands)(ch.21)
7
Making mRNA off DNA
8
Transcription Unwind 2 DNA strands and copy one
making mRNA (ch.18)
9
So, first step of RT PCR is
  • ISOLATE THE mRNA from the cell
  • Next, make DNA from the mRNA
  • This is reversing transcription so use an
    enzyme originally obtained from viruses ENZYME
    IS CALLED REVERSE TRANSCRIPTASE (THE RT OF RT PCR)

10
  • Last slide this is the RT part of RT PCR
  • PCR part
  • After RT, you now have a tiny, trace amount of
    what is called complimentary DNA (cDNA). This
    tiny trace amount is not enough to sequence.
  • Next, you have to make enough copies of the tiny
    trace amount of cDNA to sequence

11
Steps in PCR (fig. 19A01)
Target sequence By using Specific primers To the
target Sequence
12
Now repeat cycle over and over Get huge number of
DNA copies --enough that you can now study The
gene by sequencing it (finding Order of
nucleotides)
13
PCR polymerase chain reaction- making many
copies of cDNA
  • View animation of PCR
  • best
  • http//www.dnalc.org/ddnalc/resources/shockwave/pc
    ranwhole.html
  • OK
  • http//users.ugent.be/avierstr/principles/pcrani.
    html
  • http//www.people.virginia.edu/7erjh9u/pcranim.ht
    ml
  • http//www.abpischools.org.uk/resources/poster-ser
    ies/pcr/pcranim.asp
  • PCR animation links
  • http//www.dna.utah.edu/PCR_Animation_Links.htm

14
Summary of RT PCR
  • RT-PCR animation
  • http//www.bio.davidson.edu/Courses/genomics/RTPCR
    /RT_PCR.html

15
Electrophoresis to separate DNA by size (remember
our prior discussion and animation) The fragment
we want should be Of a known size!!
Write a Comment
User Comments (0)
About PowerShow.com