ÁCIDOS NUCLÉICOS Nucleotídeo Nucleotídeo Unidade Formadora de Ac. Nucléico.
Transcript of ÁCIDOS NUCLÉICOS Nucleotídeo Nucleotídeo Unidade Formadora de Ac. Nucléico.
ÁCIDOS NUCLÉICOS
Nucleotídeo Nucleotídeo
Unidade Formadora de Ac. Unidade Formadora de Ac. NucléicoNucléico
Bases Nitrogenadas:
Purínicas:
•Adenina
•Guanina
Pirimidínicas:
•Citosina
•Timina
•Uracila
Tipos:
DNA (Ac. Desoxirribonucléico)
RNA (Ac. Ribonucléico)
M P1
M P2
M P3
M P4
M P5
M P6
M P7
M P8
M P9
M P10
M P11
M P12
M P13
M P14
M P15
M P16
M P17
M P18
M P19
M P20
M P21
M P22
M PX Y
= Macho
Coleção CromossômicaColeção Cromossômica
C T G T C A C T C G G G T
G A C AG T G A G C C C A
DNA: ESTRUTURA GERALDNA: ESTRUTURA GERAL
DNA: ESTRUTURA DETALHADADNA: ESTRUTURA DETALHADA
Se a informação genética contida em cada célula nucleada fosse
escrita em um livro,haveriam aproximadamente 500.000 páginas escritas de ambos os lados
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
AATCGATCGATGCCTGTGACTCGATCGAAACTCGACTCGCTCGCTAGATCGACGTAGCACGACTAGCTCCGGGGCTCGAAAACTCTCTGACTACGATCGCTCGCGCTCGCTGGGGAATCCCGCTAGCAACATCGATTCGCGCTAGCTACGCTACCCCTTTGGAAATACAGGGTAATAGCGATCGATGGGATACAGATCGATCATATCGATCGGGAACGCGCCGATAATAAGGATAGCT
C T G T C A C T C G G G T
G A C AG T G A G C C C A
DNA: ESTRUTURA GERALDNA: ESTRUTURA GERAL
Ir p/ primeira página
Organização de um gene
Início da transcrição
ATG (códon de iniciação)Promotor
DNAcromossomal Exon 1 Intron 1 Exon 2 Intron2 Exon3
Códon de terminação
Sítio de adição de Poli-A
Término da transcrição
Transcrito de RNA primárioClivagem por uma
endonuclease
Transcrito de RNA maduro
5’ 3’
AAAAAAAAAAAAA
FLUXO DA EXPRESSÃO GÊNICA
DNA RNA PROTEÍNA
DNA
REPLICAÇÃO:
•Biossíntese de DNA à partirde um molde de DNA
•Ocorre na fase S
•Ocorre no sentido 5’ – 3´•Semi-conservativo
Começa em sítios específicos (Ricos em A e T
• Eucarioto: ~30.000sítios por cromossoma
• Procarioto: Único sítio (OriC)
Replicação:
• Contínua 5’ –3’
• Descontínua (Fragmentos de OKASAKI)
COMPONENTES:
•Helicase
•SSB
•Primer
•Primase
•DNA Polimerase SIGMA
•Topoisomerase
•DNA Ligase
PCR (Polymerize Chain reaction)
•Replicação in vitro
•Aplicação: Diagnóstico molecular de Doenças Genéticas e Infecciosas
CONDIÇÔES DA PCR
Temperatura:•Desnaturação : 95o C
•Anelamento: 60oC
•Corrida: 72oC
Vários Ciclos: 30
Enzima: Taq Polimerase
...T T C G T T C G A T G G A T A A A C C G A...
...A A G C T A C C T A T T T G G C TG G C T...
Reação em Cadeia da PolimeraseReação em Cadeia da Polimerase
Reação em Cadeia da PolimeraseReação em Cadeia da Polimerase
...T T C G T T C G A T G G A T A A A C C G A...
A A G CA A G C
...A A G C T A C C T A T T T G G C TG G C T...
C C G AC C G A
...T T C G T T C G A T G G A T A A A C C G A...
...A A G C T A C C T A T T T G G C TG G C T...
Reação em Cadeia da PolimeraseReação em Cadeia da Polimerase
...T T C G T T C G A T G G A T A A A C C G A...
...A A G C T A C C T A T T T G G C TG G C T...