Chapter 3- 3.10- Protein synthesis Flashcards

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1
Q

The amino acid sequence of a protein is coded for by what?

A

Triplets (codons) in the sequence of bases along a strand of a DNA molecule.

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2
Q

A section of DNA that contains the complete sequence of codons to code for an entire protein is called a what?

A

Gene.

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3
Q

in a eukaryotic cell DNA is contained within a double membrane called the what?

A

Nuclear envelope that encloses the nucleus.

This protects the DNA from being damaged in the cytoplasm.

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4
Q

Where does protein synthesis occur?

A

In the cytoplasm at ribosomes, but a chromosomal DNA molecule is too large to leave the nucleus to supply the coding information needed to determine the protein’s amino acid sequence.

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5
Q

Since the DNA molecule is too large to leave the nucleus how is the coding information needed to determine the protein’s amino acid sequence supplied?

A

To get around this problem he base sequence of genes have to be copied and transported to the site of protein synthesis, a ribosome. This process is called Transcription and produces shorter molecules of RNA.

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6
Q

Although transcription results in a different polynucleotide, it has many similarities with DNA replication. What happens to the section of DNA that contains the gene needed?

A

The section of DNA that contains the gene unwinds and unzips under the control of a DNA helicase, beginning at a start codon. This involves the breaking of hydrogen bonds between the bases.

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7
Q

What is the sense strand in DNA?

A

It is the only strand out of the two in DNA that contains the code for the protein to be synthesised.
The sense strand runs from 5” to 3”.
The other strand (3” to 5”) is a complementary copy of the sense strand and does not code for a protein. This is the antisense strand and it acts as a template strand during transcription, so that the complementary RNA strand formed carries the same base sequence as the sense strand.

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8
Q

What is thymine replaced with in RNA?

A

Free RNA nucleotides will base pair with complementary bases exposed on the antisense strand when the DNA unzips.
The Thymine base in RNA nucleotides is replaced with the base uracil (U). So the RNA uracil binds to adenine on the DNA template strand.

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9
Q

What types of bond are formed between the RNA nucleotides and by which enzyme?

A

Phosphodiester.
RNA polymerase.
Transcription stops at the end of the gene and the completed short strand of RNA is called messenger (m)RNA.
It has the same base sequence as the sequence of bases making up the gene on the DNA, except that it has uracil in place of thymine.
The mRNA then detaches from the DNA template and leaves the nucleus through a nuclear pore.
The DNA double helix reforms.
This mRNA molecule then travels to a ribosome in the cell cytoplasm for the next step in protein synthesis.

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10
Q

What is ribosomal (r)RNA?

A

In eukaryotic cells, ribosomes are made up to two subunits, one large and one small.

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11
Q

What is translation?

A

These subunits are composed of almost equal amounts of protein and a form of RNA known as ribosomal (r)RNA.

ribosomal (r)RNA is important in maintain the structural stability of the protein synthesis sequence and plays a biochemical role in catalysing the reaction.

After leaving the nucleus, the mRNA binds to a specific site on the small subunit of a ribosome.

The ribosome holds mRNA in position while it is decoded, or translated, into a sequence of amino acids. This process is called translation.

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12
Q

What is transfer (t) RNA?

A

Transfer (t) RNA is another form of RNA, which is necessary for the translation of the mRNA. It is composed of a strand of RNA folded in such a way that three bases, called the anticodon, are at one end of the molecule. This anticodon will bind to a complementary codon on mRNA following the normal base pairing rules.
The tRNA molecules carry an amino acid corresponding to that codon.

When the tRNA anticodons bind to complementary codons along the mRNA, the amino acids are brought together in the correct sequence to form the primary structure of the protein coded for by the mRNA.

This cannot happen all at once. Instead amino acids are added one at a time and the polypeptide chain (protein grows at this happens. Ribosomes act as the binding site for mRNA and tRNA and catalyse the assembly of the protein.

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13
Q

What are the steps of translocation?

A

1) The mRNA binds to the small subunit of the ribosomes as its start codon (AUG).
2) At tRNA with the complementary anticodon (AUC) binds to the mRNA start codon. This tRNA carries the amino acid methionine.
3) Another tRNA with the anticodon UGC and carrying the corresponding amino acid, threonine, then binds to the next codon on the mRNA (ACG). A maximum of two tRNAs can be bound at the same time.
4) The first amino acid, methionine, is transferred to the amino acid (threonine) on the second tRNA by the formation of a peptide bond. This is catalysed by the enzyme peptidyl transferase, which is an rRNA component of the ribosome.
5) The ribosome then moves along the mRNA, releasing the first tRNA. The second tRNA becomes the first.

Stages 3-5 are repeated, with another amino acid added to the chain each time. The process keeps repeating until the ribosome reaches the end of the mRNA at a stop codon and the polypeptide is released.

As the amino acids are joined together forming the primary structure of the protein, they fold into secondary and tertiary structures. This folding and the bonds that are formed are determined by the sequence of amino acids in the primary structure. The protein may undergo further modifications at the Golgi apparatus before it is fully functional and ready to carry out the specific role for which it has been synthesised.

Many ribosomes can follow on the mRNA behind the first, so that multiple identical polypeptides can be synthesised simultaneously.

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