**Transcription and Translation of a DNA Strand**In this exercise, we are given a DNA sequence that needs to be transcribed and translated. The task requires identifying the start and stop sequences to accurately transcribe the DNA into RNA and subsequently translate it into a protein sequence.**DNA Strand:**`ACGGTACCGTTAGCGGACATCGGGGACACTGACTCG`**Steps to Follow:**1. **Identify the Start Codon:** - Typically, the "ATG" sequence acts as the start codon for transcription.2. **Transcription Process:** - Convert the DNA sequence to messenger RNA (mRNA) by replacing thymine (T) with uracil (U). - Example: If DNA sequence is "ACG," the mRNA will be "UGC."3. **Translation Process:** - Translating the mRNA into amino acids involves reading the mRNA sequence in sets of three nucleotides (codons). - Use the universal genetic code chart to find corresponding amino acids.4. **Identify Stop Codon:** - Common stop codons include "UAA," "UAG," and "UGA," which signal the end of the translation process.**Additional Information:**- Ensure clarity on the regions where transcription starts and stops.- Post-transcriptional modifications and tRNA role in translation should be considered for a comprehensive understanding.This exercise enhances understanding of molecular biology processes such as DNA transcription and protein synthesis.

Transcription and translation are terms used to describe two distinct biological processes: the…

Answered: 15. Now, transcribe and translate the…

15. Now, transcribe and translate the DNA strand below. Remember to use the start and stop sequences. ACGGTACCGTTAGCCGACATCGGGGACACTGACTCG

Concepts of Biology

1st Edition

ISBN:9781938168116

Author:Samantha Fowler, Rebecca Roush, James Wise

Publisher:Samantha Fowler, Rebecca Roush, James Wise

Chapter9: Molecular Biology

Section: Chapter Questions

Problem 15CTQ: Transcribe and translate the following DNA sequence (nontemplate strand): 5’-ATGGCCGGTTATTAAGCA-3’

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Concept explainers

Molecular Techniques

Molecular techniques are methods employed in molecular biology, genetics, biochemistry, and biophysics to manipulate and analyze nucleic acids (deoxyribonucleic acid (DNA) and ribonucleic acid (RNA)), protein, and lipids. Techniques in molecular biology are employed to investigate the molecular basis for biological activity. These techniques are used to analyze cellular properties, structures, and chemical reactions, with a focus on how certain molecules regulate cellular reactions and growth.

DNA Fingerprinting and Gel Electrophoresis

The genetic makeup of living organisms is shown by a technique known as DNA fingerprinting. The difference is the satellite region of DNA is shown by this process. Alex Jeffreys has invented the process of DNA fingerprinting in 1985. Any biological samples such as blood, hair, saliva, semen can be used for DNA fingerprinting. DNA fingerprinting is also known as DNA profiling or molecular fingerprinting.

Molecular Markers

A known DNA sequence or gene sequence is present on a chromosome, and it is associated with a specific trait or character. It is mainly used as a genetic marker of the molecular marker. The first genetic map was done in a fruit fly, using genes as the first marker. In two categories, molecular markers are classified, classical marker and a DNA marker. A molecular marker is also known as a genetic marker.

DNA Sequencing

The most important feature of DNA (deoxyribonucleic acid) molecules are nucleotide sequences and the identification of genes and their activities. This the reason why scientists have been working to determine the sequences of pieces of DNA covered under the genomic field. The primary objective of the Human Genome Project was to determine the nucleotide sequence of the entire human nuclear genome. DNA sequencing selectively eliminates the introns leading to only exome sequencing that allows proteins coding.

Question

**Transcription and Translation of a DNA Strand**

In this exercise, we are given a DNA sequence that needs to be transcribed and translated. The task requires identifying the start and stop sequences to accurately transcribe the DNA into RNA and subsequently translate it into a protein sequence.

**DNA Strand:**
`ACGGTACCGTTAGCGGACATCGGGGACACTGACTCG`

**Steps to Follow:**

1. **Identify the Start Codon:**
- Typically, the "ATG" sequence acts as the start codon for transcription.

2. **Transcription Process:**
- Convert the DNA sequence to messenger RNA (mRNA) by replacing thymine (T) with uracil (U).
- Example: If DNA sequence is "ACG," the mRNA will be "UGC."

3. **Translation Process:**
- Translating the mRNA into amino acids involves reading the mRNA sequence in sets of three nucleotides (codons).
- Use the universal genetic code chart to find corresponding amino acids.

4. **Identify Stop Codon:**
- Common stop codons include "UAA," "UAG," and "UGA," which signal the end of the translation process.

**Additional Information:**

- Ensure clarity on the regions where transcription starts and stops.
- Post-transcriptional modifications and tRNA role in translation should be considered for a comprehensive understanding.

This exercise enhances understanding of molecular biology processes such as DNA transcription and protein synthesis.

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