5 Must Know Facts For Your Next Test

1. In DNA replication, the template strand is read in a 3' to 5' direction, allowing new nucleotides to be added in a 5' to 3' direction on the newly formed strand.
2. Both strands of the DNA double helix can serve as template strands at different times during replication, depending on which direction is being copied.
3. During transcription, RNA polymerase uses one of the DNA strands as a template to create a complementary RNA transcript, where thymine is replaced by uracil.
4. The accuracy of DNA replication relies heavily on the fidelity of base pairing between nucleotides on the template strand and those being added.
5. Mutations can occur if there are errors in reading the template strand, leading to permanent changes in the genetic code that may affect organism traits.

Review Questions

• How does the template strand contribute to the accuracy of DNA replication?
  • The template strand is essential for accurate DNA replication because it provides the sequence information needed to synthesize a new complementary strand. DNA polymerase reads the template strand in a 3' to 5' direction, ensuring that new nucleotides are added in the correct 5' to 3' direction. Any errors in base pairing during this process can lead to mutations, so the fidelity of reading the template strand is crucial for maintaining genetic stability.
• Compare and contrast the roles of the template strand in both DNA replication and transcription.
  • In both DNA replication and transcription, the template strand serves as a guide for synthesizing a complementary strand. In DNA replication, it provides the sequence for creating a new DNA molecule, while in transcription, it guides RNA polymerase in forming an RNA transcript. The key difference is that during replication, thymine pairs with adenine in DNA, whereas in transcription, thymine is replaced by uracil in RNA, demonstrating how both processes utilize a template but produce different end products.
• Evaluate how errors in reading the template strand might affect cellular functions and organismal traits.
  • Errors in reading the template strand can lead to mutations that alter protein coding sequences or regulatory elements within genes. These mutations can affect cellular functions by changing protein structure or function, potentially leading to diseases or developmental issues. Over time, such mutations may accumulate and influence organismal traits, leading to variations that could affect survival and reproduction, thereby impacting evolution within populations.

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