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MICROARRAY TECHNOLOGY

Published byDinah Stanley Modified over 9 years ago

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Presentation on theme: "MICROARRAY TECHNOLOGY"— Presentation transcript:

1 MICROARRAY TECHNOLOGY
By Sehreen Saddique Ibtesam Riaz Bakhtawer Nasrullah University of Gujrat

2 OUTLINE 1. Introduction of microarray 2. Types of microarray
3. Applications of microarray My purpose of showing you the Omics organization is to locate where transcriptomics is and the interrelationships among the various “omics” organizations.

3 DNA MICROARRAY

4 Gene expression DNA MICROARRAY
is used to measure the levels of gene expression

5 If the hybridised DNA or RNA is labelled fluorescently it can
be quantified by scanning of the chip.

6 DNA microarrays can be manufactured by:
Photolithography Robot spotting

7 Photolithography Each probe 25 bp long 22-40 probes per gene
Perfect Match (PM) as well as MisMatch (MM) probes

8 Robot Spotting

9 DNA MICROARRAY TECHNIQUE
Presynthesized DNA strands or synthesis of oligonuleotide sequence Spotting of DNA strands to plastic plate or glass plate

10 DNA MICROARRAY TECHNIQUE
The two samples to be compared are grown/acquired. In this example treated sample (case) and untreated sample (control). Extraction of mRNA material from cells Formation of complementary DNA through reverse transcription Labeling with fluorescent dyes with Cy3 or Cy5 Mixing of labeled samples & presenting to microarray spots again by spotters Hybridization to a DNA Microarray Scanning the Hybridized Array

11

12

13 ANALYSIS OF GENE EXPRESSION DATA
Analyzing issues Different environmental conditions

14 SEHREEN SADDIQUE ROLL NO:08030614-045
TYPES OF MICROARRAY SEHREEN SADDIQUE ROLL NO:

15 Types of microarray There are two types of DNA microarray c DNA
Oligoneuclotide array

16 c DNA MICROARRAY 1. Prepare sample. 4. Print microarray. Test
Reference 2. Label with fluorescent dyes. 5. Hybridize to microarray. 3. Combine cDNAs. 6. Scan.

17 Nelzo Ereful Crop Bioinformatics

18 cDNA Array Sample Preparation

19

20

21 APPLICATIONS OF MICROOARRAY
BAKHTAWER ROLL:

22 Applications of microarray
Evolutionary and ecological genomics Drug Discovery and development SNP detection Microarray Gene expression (stress) Tiling array Tumor classification

23 Applications of microarray

24 Application in ecology

25 Disease discovery Microarray and asthma

26 Medical application of microarray analysis
treatment of cancer may be tailored to the needs of that individual’s gene expression profile.

27 Tumor classification Quackenbush 2006; Retrieved from

28 SNP SNP detection using Microarray CCGTCGC = tolerant (S186) CCGTCGC
tolerant ATGTGTGGAGGAGAAGTGATCCCCGCCGACATGCCGGCGGCGCCGTTCACGCCACGCCAC 60 susceptible ATGCCGGCGGCGCCGTTCACGCCACGCCAC ****************************** tolerant GGCGACGGCGAGACATGGGTTGACAGAAAGAGGAGGAACAAGAAGAAGAGGAAGCGCGGC 120 susceptible GGCGACGGCGAGACATGGGTTGACAGAAAGAGGAGGAACAAGAAGAAGAGGAAGCGCGGC ************************************************************ tolerant GCCGACGAAGAATGGGAGGCCGCCTTCCAGGAGTTCATGGCTGCTGACGACGACGACGAC 180 susceptible GCCGACGAAGAATGGGAGGCCGCCTTCCAGGAGTTCATGGCTGCTGACGACGACGACGAC ************************************************************ tolerant GGCGGCGGACTCGTGTTAAGTAGTAAATCTTTGGTGTTGAGGTCACCAGGTGAAAATGAT 240 susceptible GGCGGCGGACTCGTGTTAAGTAGTAAATCTTTGGTGTTGAGGTCACCAGGTGAAAATGAT ************************************************************ tolerant GCAGGCCGGGGCGCCGCCGCCACCATGTCCATGCCGCTGGACCCCGTGACCGAGGAGGCC 300 susceptible GCAGGCCGGGGCGCCGCCGCCACCATGTCCATGCCGCTGGACCCCGTGACCGAGGAGGCC ************************************************************ tolerant GAGCCGGCGGTGGCTGAGAAGCCTCGCCGGCGCCGGCCGAGGCGGAGCTACGAGTACCAC 360 susceptible GAGCCGGCGGTGGCTGAGAAGCCTCGCCGGCGCCGGCCGAGGCGGAGCTACGAGTACCAC ************************************************************ tolerant GGCATCCGGCAGCGGCCGTGGGGGCGGTGGTCGTCGGAGATCCGCGACCCCGTCAAGGGC 420 susceptible GGCATCCGGCAGCGGCCGTGGGGGCGGTGGTCGTCGGAGATCCGCGACCCCGTCAAGGGC ************************************************************ tolerant GTCCGCCTCTGGCTCGGCACCTTCGACACCGCCGTCGAAGCCGCGCTCGCCTACGACGCC 480 susceptible GTCCGCCTCTGGCTCGGCACCTTCGACACCGCCGTCGAAGCCGCGCTCGCCTACGACGCC ************************************************************ tolerant GAGGCCCGCCGCATCCACGGCTGGAAAGCCCGGACAAACTTCCCACCCGCCGATCTTTCT 540 susceptible GAGGCCCGCCGCATCCACGGCTGGAAAGCCCGGACAAACTTCCCACCCGCCGATCTTTCT ************************************************************ tolerant TCGCCGCCGCCGCCGTCGCAGCCGCTCTGCTTCTTGCTCAACGACAACGGCCTCATCACA 600 susceptible TCGCCGCCGCCGCCGCCGCAGCCGCTCTGCTTCTTGCTCAACGACAACGGCCTCATCACA *************** ******************************************** tolerant ATCGGAGAAGCGCCGACCGACGACGCCGCGTCGACGTCGACGTCGACGACGGAGGCGTCC 660 susceptible ATCGGAGAAGCGCCGACCGACGACGCCGCGTCGACGTCGACGTCGACGACGGAGGCGTCC ************************************************************ tolerant GGCGACGCGCGCATACAACTGGAGTGCTGCTCGGACGACGTGATGGACAGCCTCCTCGCC 720 susceptible GGCGACGCGCGCATACAGCTGGAGTGCTGCTCGGACGACGTGATGGACAGCCTCCTCGCC ***************** ****************************************** tolerant GGCTACGACGTGGCCAGCGGCGACGACATATGGACATGGACATCTGGAGCCTCCTCCACC 780 susceptible GGCTACGACGTGGCCAGCGGCGACGACATATGGACATGGACATCTGGAGCCTCCTCCACC ************************************************************ tolerant TCTGTTAACCAAGAGATCAAGACCCCATCGATCCACCAAAACATATCATATGCAGGTGCC 840 susceptible TCTGTTAACCAAGAGATCAAGACCCCATCGATCCACCAAAACATATCATATGCAGGTGCC ************************************************************ tolerant CGCCCCATGACTTGTCACTTTAAGAATCATAAAAACACTTTTGTACAAATGGAGTGCTCA 900 susceptible CGCCCCATGACTTGTCACTTTAAGAATCATAAAAACACTTTTGTACAAATGGAGTGCTCA ************************************************************ tolerant ACCATGCTAAACTTACTCAAAGGCCACAAACAATAA susceptible ACCATGCTAAACTTACTCAAAGGCCACAAACAATAA ************************************ tolerant ATGTGTGGAGGAGAAGTGATCCCCGCCGACATGCCGGCGGCGCCGTTCACGCCACGCCAC 60 susceptible ATGCCGGCGGCGCCGTTCACGCCACGCCAC ****************************** tolerant GGCGACGGCGAGACATGGGTTGACAGAAAGAGGAGGAACAAGAAGAAGAGGAAGCGCGGC 120 susceptible GGCGACGGCGAGACATGGGTTGACAGAAAGAGGAGGAACAAGAAGAAGAGGAAGCGCGGC ************************************************************ tolerant GCCGACGAAGAATGGGAGGCCGCCTTCCAGGAGTTCATGGCTGCTGACGACGACGACGAC 180 susceptible GCCGACGAAGAATGGGAGGCCGCCTTCCAGGAGTTCATGGCTGCTGACGACGACGACGAC ************************************************************ tolerant GGCGGCGGACTCGTGTTAAGTAGTAAATCTTTGGTGTTGAGGTCACCAGGTGAAAATGAT 240 susceptible GGCGGCGGACTCGTGTTAAGTAGTAAATCTTTGGTGTTGAGGTCACCAGGTGAAAATGAT ************************************************************ tolerant GCAGGCCGGGGCGCCGCCGCCACCATGTCCATGCCGCTGGACCCCGTGACCGAGGAGGCC 300 susceptible GCAGGCCGGGGCGCCGCCGCCACCATGTCCATGCCGCTGGACCCCGTGACCGAGGAGGCC ************************************************************ tolerant GAGCCGGCGGTGGCTGAGAAGCCTCGCCGGCGCCGGCCGAGGCGGAGCTACGAGTACCAC 360 susceptible GAGCCGGCGGTGGCTGAGAAGCCTCGCCGGCGCCGGCCGAGGCGGAGCTACGAGTACCAC ************************************************************ tolerant GGCATCCGGCAGCGGCCGTGGGGGCGGTGGTCGTCGGAGATCCGCGACCCCGTCAAGGGC 420 susceptible GGCATCCGGCAGCGGCCGTGGGGGCGGTGGTCGTCGGAGATCCGCGACCCCGTCAAGGGC ************************************************************ tolerant GTCCGCCTCTGGCTCGGCACCTTCGACACCGCCGTCGAAGCCGCGCTCGCCTACGACGCC 480 susceptible GTCCGCCTCTGGCTCGGCACCTTCGACACCGCCGTCGAAGCCGCGCTCGCCTACGACGCC ************************************************************ tolerant GAGGCCCGCCGCATCCACGGCTGGAAAGCCCGGACAAACTTCCCACCCGCCGATCTTTCT 540 susceptible GAGGCCCGCCGCATCCACGGCTGGAAAGCCCGGACAAACTTCCCACCCGCCGATCTTTCT ************************************************************ tolerant TCGCCGCCGCCGCCGTCGCAGCCGCTCTGCTTCTTGCTCAACGACAACGGCCTCATCACA 600 susceptible TCGCCGCCGCCGCCGCCGCAGCCGCTCTGCTTCTTGCTCAACGACAACGGCCTCATCACA *************** ******************************************** tolerant ATCGGAGAAGCGCCGACCGACGACGCCGCGTCGACGTCGACGTCGACGACGGAGGCGTCC 660 susceptible ATCGGAGAAGCGCCGACCGACGACGCCGCGTCGACGTCGACGTCGACGACGGAGGCGTCC ************************************************************ tolerant GGCGACGCGCGCATACAACTGGAGTGCTGCTCGGACGACGTGATGGACAGCCTCCTCGCC 720 susceptible GGCGACGCGCGCATACAGCTGGAGTGCTGCTCGGACGACGTGATGGACAGCCTCCTCGCC ***************** ****************************************** tolerant GGCTACGACGTGGCCAGCGGCGACGACATATGGACATGGACATCTGGAGCCTCCTCCACC 780 susceptible GGCTACGACGTGGCCAGCGGCGACGACATATGGACATGGACATCTGGAGCCTCCTCCACC ************************************************************ tolerant TCTGTTAACCAAGAGATCAAGACCCCATCGATCCACCAAAACATATCATATGCAGGTGCC 840 susceptible TCTGTTAACCAAGAGATCAAGACCCCATCGATCCACCAAAACATATCATATGCAGGTGCC ************************************************************ tolerant CGCCCCATGACTTGTCACTTTAAGAATCATAAAAACACTTTTGTACAAATGGAGTGCTCA 900 susceptible CGCCCCATGACTTGTCACTTTAAGAATCATAAAAACACTTTTGTACAAATGGAGTGCTCA ************************************************************ tolerant ACCATGCTAAACTTACTCAAAGGCCACAAACAATAA susceptible ACCATGCTAAACTTACTCAAAGGCCACAAACAATAA ************************************ SNP CCGTCGC = tolerant (S186) CCGCCGC = intolerant (P186) CCGTCGC CCGCCGC ACAACTG = tolerant ACAGCTG = intolerant

29 Generating DNA Sequence
automated sequencer chromatogram files software pipeline base calling quality clipping vector clipping contig assembly output >GENE01 ACCTGTCAGTGTCAACTGCTTCAATAGCTAATGCTAGGCTCGATAATCGCTGGCCTCAGCTCAGTCTAGCATTACGATTACGGAGACCTATGCTTTAGCTAGTAGGAACCTCAGCTCAGTACCTGTCAGTGTCAACTGCTTCAATAGCTAATGCTACTC

30 thank you

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