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Higher Biology Gene Expression & Protein Synthesis Notes with Diagrams

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Higher Biology Gene Expression & Protein Synthesis Notes with Diagrams
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sarah

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Gene expression is a fundamental process in biology involving transcription and translation to synthesize proteins from DNA. This summary covers the key steps, RNA types, and important concepts in protein synthesis.

Bold keywords: Higher biology gene expression notes, Protein synthesis higher Biology, Transcription and translation steps, RNA splicing, mRNA splicing

  • Protein synthesis occurs in two main stages: transcription and translation
  • Three types of RNA are involved: mRNA, tRNA, and rRNA
  • Transcription produces a primary mRNA transcript, which undergoes splicing
  • Translation uses the mature mRNA to synthesize proteins on ribosomes

11/01/2023

287

Gene Expression Protein Synthesis is in 2 stages: Transcription. The synthesis of mRNA from a section of DNA, 7 Translation - The synthesis

View

Transcription Process

The transcription and translation steps begin with the synthesis of mRNA. This process occurs in the nucleus and involves several key steps:

  1. RNA polymerase moves along the DNA, unwinding the double helix and breaking hydrogen bonds between bases.
  2. Free RNA nucleotides are added to the growing mRNA strand through complementary base pairing.
  3. The mRNA strand continues to grow from the 5' end to the 3' end until a specific sequence called a stop codon is reached.

Vocabulary: The primary transcript of mRNA is the initial RNA molecule produced during transcription, before any modifications.

The resulting mRNA strand, known as the primary transcript, separates from the DNA template. This primary transcript will undergo further processing before it can be used for protein synthesis.

Highlight: The direction of mRNA synthesis (5' to 3') is important for understanding the subsequent steps in protein synthesis higher Biology.

Gene Expression Protein Synthesis is in 2 stages: Transcription. The synthesis of mRNA from a section of DNA, 7 Translation - The synthesis

View

Translation Process

Translation is the second major stage in protein synthesis higher Biology. It occurs in the cytoplasm and involves the following steps:

  1. The mature mRNA transcript attaches to a ribosome in the cytoplasm.
  2. The start codon initiates protein synthesis.
  3. Complementary tRNA anticodons attach to the mRNA strand, bringing specific amino acids to form the protein molecule.
  4. Peptide bonds join the amino acid molecules. Each tRNA molecule leaves the ribosome once its amino acid is attached.
  5. A stop codon ends protein synthesis.

Vocabulary: Anticodons are sequences on tRNA molecules that are complementary to codons on mRNA.

Highlight: The ribosome plays a crucial role in translation by providing the site for mRNA and tRNA interaction and facilitating peptide bond formation.

This process of translation results in the synthesis of a specific protein based on the genetic information originally encoded in the DNA and transcribed into mRNA. Understanding these transcription and translation steps is fundamental to comprehending gene expression and protein synthesis in Higher Biology.

Gene Expression Protein Synthesis is in 2 stages: Transcription. The synthesis of mRNA from a section of DNA, 7 Translation - The synthesis

View

RNA Processing and Splicing

After transcription, the primary mRNA transcript undergoes processing to form the mature mRNA transcript. This process is crucial in Higher biology gene expression and involves:

  1. Identification of codons: Each triplet of bases on the mRNA molecule is called a codon and codes for a specific amino acid.

  2. Removal of introns and splicing of exons:

    • Introns are non-coding regions of the primary mRNA transcript and are removed.
    • Exons are coding regions that are spliced (joined together) to form the mature mRNA transcript.

Definition: RNA splicing is the process of removing introns and joining exons to form a mature mRNA transcript.

Highlight: The order of exons remains unchanged during splicing, ensuring the correct sequence for protein synthesis.

An important concept in gene expression is alternative splicing:

Example: The same gene can produce different proteins by treating different regions as introns and exons. This means a single primary mRNA transcript has the potential to produce several mature mRNA transcripts depending on which exons are retained.

This process of mRNA splicing and alternative splicing allows for greater protein diversity from a limited number of genes, highlighting the complexity of gene expression in higher organisms.

Gene Expression Protein Synthesis is in 2 stages: Transcription. The synthesis of mRNA from a section of DNA, 7 Translation - The synthesis

View

Transcription and RNA Structure

Transcription is the first stage of protein synthesis higher Biology, where mRNA is synthesized from a DNA template. This process involves RNA polymerase and occurs in the nucleus.

Definition: Transcription is the synthesis of mRNA from a section of DNA.

The structure of RNA differs from DNA in several key ways:

  • RNA is single-stranded, while DNA is double-stranded
  • RNA contains ribose sugar, whereas DNA has deoxyribose
  • RNA uses uracil instead of thymine as one of its bases

There are three types of RNA involved in gene expression:

  1. Messenger RNA (mRNA): Carries genetic information from DNA to ribosomes
  2. Transfer RNA (tRNA): Transports specific amino acids to ribosomes
  3. Ribosomal RNA (rRNA): Forms part of the ribosome structure

Highlight: Understanding the differences between DNA and RNA structure is crucial for comprehending the transcription and translation steps.

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Subjects

/

Biology

/

Genetic information & variation

/

Dna and protein synthesis

/

A-a* (ao3/4) translation

Higher Biology Gene Expression & Protein Synthesis Notes with Diagrams

user profile picture

sarah

@sarah______

·

20 Followers

Follow

Gene expression is a fundamental process in biology involving transcription and translation to synthesize proteins from DNA. This summary covers the key steps, RNA types, and important concepts in protein synthesis.

Bold keywords: Higher biology gene expression notes, Protein synthesis higher Biology, Transcription and translation steps, RNA splicing, mRNA splicing

  • Protein synthesis occurs in two main stages: transcription and translation
  • Three types of RNA are involved: mRNA, tRNA, and rRNA
  • Transcription produces a primary mRNA transcript, which undergoes splicing
  • Translation uses the mature mRNA to synthesize proteins on ribosomes

11/01/2023

287

 

S5

 

Biology

16

Gene Expression Protein Synthesis is in 2 stages: Transcription. The synthesis of mRNA from a section of DNA, 7 Translation - The synthesis

Transcription Process

The transcription and translation steps begin with the synthesis of mRNA. This process occurs in the nucleus and involves several key steps:

  1. RNA polymerase moves along the DNA, unwinding the double helix and breaking hydrogen bonds between bases.
  2. Free RNA nucleotides are added to the growing mRNA strand through complementary base pairing.
  3. The mRNA strand continues to grow from the 5' end to the 3' end until a specific sequence called a stop codon is reached.

Vocabulary: The primary transcript of mRNA is the initial RNA molecule produced during transcription, before any modifications.

The resulting mRNA strand, known as the primary transcript, separates from the DNA template. This primary transcript will undergo further processing before it can be used for protein synthesis.

Highlight: The direction of mRNA synthesis (5' to 3') is important for understanding the subsequent steps in protein synthesis higher Biology.

Gene Expression Protein Synthesis is in 2 stages: Transcription. The synthesis of mRNA from a section of DNA, 7 Translation - The synthesis

Translation Process

Translation is the second major stage in protein synthesis higher Biology. It occurs in the cytoplasm and involves the following steps:

  1. The mature mRNA transcript attaches to a ribosome in the cytoplasm.
  2. The start codon initiates protein synthesis.
  3. Complementary tRNA anticodons attach to the mRNA strand, bringing specific amino acids to form the protein molecule.
  4. Peptide bonds join the amino acid molecules. Each tRNA molecule leaves the ribosome once its amino acid is attached.
  5. A stop codon ends protein synthesis.

Vocabulary: Anticodons are sequences on tRNA molecules that are complementary to codons on mRNA.

Highlight: The ribosome plays a crucial role in translation by providing the site for mRNA and tRNA interaction and facilitating peptide bond formation.

This process of translation results in the synthesis of a specific protein based on the genetic information originally encoded in the DNA and transcribed into mRNA. Understanding these transcription and translation steps is fundamental to comprehending gene expression and protein synthesis in Higher Biology.

Gene Expression Protein Synthesis is in 2 stages: Transcription. The synthesis of mRNA from a section of DNA, 7 Translation - The synthesis

RNA Processing and Splicing

After transcription, the primary mRNA transcript undergoes processing to form the mature mRNA transcript. This process is crucial in Higher biology gene expression and involves:

  1. Identification of codons: Each triplet of bases on the mRNA molecule is called a codon and codes for a specific amino acid.

  2. Removal of introns and splicing of exons:

    • Introns are non-coding regions of the primary mRNA transcript and are removed.
    • Exons are coding regions that are spliced (joined together) to form the mature mRNA transcript.

Definition: RNA splicing is the process of removing introns and joining exons to form a mature mRNA transcript.

Highlight: The order of exons remains unchanged during splicing, ensuring the correct sequence for protein synthesis.

An important concept in gene expression is alternative splicing:

Example: The same gene can produce different proteins by treating different regions as introns and exons. This means a single primary mRNA transcript has the potential to produce several mature mRNA transcripts depending on which exons are retained.

This process of mRNA splicing and alternative splicing allows for greater protein diversity from a limited number of genes, highlighting the complexity of gene expression in higher organisms.

Gene Expression Protein Synthesis is in 2 stages: Transcription. The synthesis of mRNA from a section of DNA, 7 Translation - The synthesis

Transcription and RNA Structure

Transcription is the first stage of protein synthesis higher Biology, where mRNA is synthesized from a DNA template. This process involves RNA polymerase and occurs in the nucleus.

Definition: Transcription is the synthesis of mRNA from a section of DNA.

The structure of RNA differs from DNA in several key ways:

  • RNA is single-stranded, while DNA is double-stranded
  • RNA contains ribose sugar, whereas DNA has deoxyribose
  • RNA uses uracil instead of thymine as one of its bases

There are three types of RNA involved in gene expression:

  1. Messenger RNA (mRNA): Carries genetic information from DNA to ribosomes
  2. Transfer RNA (tRNA): Transports specific amino acids to ribosomes
  3. Ribosomal RNA (rRNA): Forms part of the ribosome structure

Highlight: Understanding the differences between DNA and RNA structure is crucial for comprehending the transcription and translation steps.

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Can't find what you're looking for? Explore other subjects.

Knowunity is the #1 education app in five European countries

Knowunity has been named a featured story on Apple and has regularly topped the app store charts in the education category in Germany, Italy, Poland, Switzerland, and the United Kingdom. Join Knowunity today and help millions of students around the world.

Ranked #1 Education App

Download in

Google Play

Download in

App Store

Knowunity is the #1 education app in five European countries

4.9+

Average app rating

13 M

Pupils love Knowunity

#1

In education app charts in 12 countries

950 K+

Students have uploaded notes

Still not convinced? See what other students are saying...

iOS User

I love this app so much, I also use it daily. I recommend Knowunity to everyone!!! I went from a D to an A with it :D

Philip, iOS User

The app is very simple and well designed. So far I have always found everything I was looking for :D

Lena, iOS user

I love this app ❤️ I actually use it every time I study.