Semiconservative replication

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&nbsp;Semiconservative replication is the suggestion put forward by James Watson and Francis Crick on how DNA replicates in the cell.
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Semiconservative replication is the suggestion put forward by [[James_Watson|James Watson]] and [[Francis Crick|Francis Crick]] on how [[DNA|DNA]] replicates in the [[cell|cell]].  
  
<br>The basis of this theory is that the double-stranded DNA “unzips” into two single strands, one “sense” and one “antisense”. Once the mRNA has created a new strand complementary to the antisense strand, a new double-stranded DNA molecule is produced. Each of the two daughter molecules produced in each round of this process contains one strand from the parent DNA<ref>Hardin, J., Bertoni, G. and Kleinsmith, L.J. (2011). Becker's World of the Cell. 8th ed. San Francisco: Pearson. 551.</ref>, ergo “semiconservative”: each strand from a double-stranded molecule of DNA being replicated is conserved.
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The basis of this theory is that the double-stranded DNA “unzips” into two single strands, one “sense” and one “antisense”. Once the [[mRNA|mRNA]] has created a new strand complementary to the antisense strand, a new double-stranded DNA molecule is produced. Each of the two daughter molecules produced in each round of this process contains one strand from the parent DNA<ref>Hardin, J., Bertoni, G. and Kleinsmith, L.J. (2011). Becker's World of the Cell. 8th ed. San Francisco: Pearson. 551.</ref>, ergo “semiconservative”: each strand from a double-stranded molecule of DNA being replicated is conserved.
  
<br>“Each chain then acts as a template for the formation onto itself a new companion chain, so that eventually we shall have two pairs of chains where we only had one before. Moreover, the sequence of pairs of bases will have been duplicated exactly.” (Watson and Crick, 1953, p.966)<ref>Watson, J. and Crick, F.. (1953). Genetical Implications of the Structure of Deoxyribonucleic Acid. Nature. 171 (1), 966.</ref>
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“Each chain then acts as a template for the formation onto itself a new companion chain, so that eventually we shall have two pairs of chains where we only had one before. Moreover, the sequence of pairs of bases will have been duplicated exactly.” <ref>Watson, J. and Crick, F.. (1953). Genetical Implications of the Structure of Deoxyribonucleic Acid. Nature. 171 (1), 966.</ref><br>  
  
 
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=== References ===
 
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=== References ===
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Latest revision as of 09:49, 22 October 2014

Semiconservative replication is the suggestion put forward by James Watson and Francis Crick on how DNA replicates in the cell.

The basis of this theory is that the double-stranded DNA “unzips” into two single strands, one “sense” and one “antisense”. Once the mRNA has created a new strand complementary to the antisense strand, a new double-stranded DNA molecule is produced. Each of the two daughter molecules produced in each round of this process contains one strand from the parent DNA[1], ergo “semiconservative”: each strand from a double-stranded molecule of DNA being replicated is conserved.

“Each chain then acts as a template for the formation onto itself a new companion chain, so that eventually we shall have two pairs of chains where we only had one before. Moreover, the sequence of pairs of bases will have been duplicated exactly.” [2]

References

  1. Hardin, J., Bertoni, G. and Kleinsmith, L.J. (2011). Becker's World of the Cell. 8th ed. San Francisco: Pearson. 551.
  2. Watson, J. and Crick, F.. (1953). Genetical Implications of the Structure of Deoxyribonucleic Acid. Nature. 171 (1), 966.
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