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SNP database 張學偉 助理教授 高雄醫學大學 生物醫學暨環境生物學系

SNP database 張學偉 助理教授 高雄醫學大學 生物醫學暨環境生物學系. SNP = Single Nucleotide Polymorphism (read in SNiP). Genetic Polymorphism: A difference in DNA sequence among individuals, groups, or populations. Genetic Mutation:

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SNP database 張學偉 助理教授 高雄醫學大學 生物醫學暨環境生物學系

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  1. SNP database 張學偉 助理教授 高雄醫學大學 生物醫學暨環境生物學系

  2. SNP = Single Nucleotide Polymorphism (read in SNiP)

  3. Genetic Polymorphism: A difference in DNA sequence among individuals, groups, or populations. • Genetic Mutation: A change in the nucleotide sequence of a DNA molecule. Genetic mutations are a kind of genetic polymorphism.

  4. Definition of SNP SNPs are an abundant form of common genome variation, distinguished from rare variations by a requirement for the least abundant allele to have a frequency of 1% or more.

  5. TCATCTGTGGGAAGGGAGTCCCTGGCTATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTTATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTCATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTGATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTAATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTTATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTCATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTGATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTCATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTCATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTTATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTCATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTTATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTCATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTCATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTTATACTGCCCCCACCACAGCTCC different alleles 4 states of a SNP are possible (A,T,C,G)

  6. TCATCTGTGGGAAGGGAGTCCCTGGCTTATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTTATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTCATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTTATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTTATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTCATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTTATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTCATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTCATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTCATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTTATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTCATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTTATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTCATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTCATACTGCCCCCACCACAGCTCC TCATCTGTGGGAAGGGAGTCCCTGGCTTATACTGCCCCCACCACAGCTCC different alleles But the diallelic type is the most common SNP (e.g. T->C)

  7. Abundance of SNP 0.3% of genome

  8. SNPs are the most simple form and most common source of genetic polymorphism in the human genome(90% of all human DNA polymorphisms).

  9. Why are SNPs Important? • Most common form of genetic variation • -Genetic linkage studies • -Genome-wide association studies • Indicate predisposition to • -Disease predisposition and onset • -Drug tolerance • -Drug efficacy • Genome SNP scans will uncover gene function, and define new drug targets • SNPs will enable physicians to personalize therapy

  10. Classification of SNP- I 1. Most commonly changes Transitions  pu to pu/ py to py Transversion  py to pu/ pu to py 2. Single-base insertions & deletion (indel) (3. Simple nucleotide polymorphism) two-nucleotide changes & small indels up to a few nucleotides

  11. Classification of SNP-II 1. Non-coding SNPs 3‘,5’-NTR (non-transcribed region) 3‘,5’-UTR (untranslated region) Intron intergenic 2. Coding SNPs Replacemental polymorphism (change a.a.) Synonymous polymorphism (unchange a.a.)

  12. Distribution of SNP SNPs will be evenly distributed across the human genome ~ 25,000 non-synonymous cSNPs ~ 50,000 synonymous cSNPs ~ 25,000 regulatory region SNPs ~ 50,000 intragenic non-coding SNPs ~ 50,000 distributed intergenic SNPs

  13. TRENDS in Molecular Medicine Vol.8 No.6 June 2002, page 288.

  14. From 283 2個SNP

  15. From 283 2個SNP

  16. http://www.biomedcentral.com/content/pdf/1471-2164-7-30.pdf

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