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Incorrect base pairing in protein synthesis can lead to mutations in the resulting proteins. This can affect the structure and function of the protein, potentially leading to abnormal enzymatic activity or non-functional proteins. These errors can have downstream effects on cellular processes and contribute to diseases.
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How can mutation affect protein synthesis in cell?
Mutations can make the protein synthesise incorrectly making diseases or weak parts in your body. Mutations can affect protein synthesis in cells by affecting the protein, messing up the whole DNA sequence and making the organism different from other average organisms.
How does a mutation in a gene affect the order of DNA based?
A mutation in a gene can happen by addition, deletion or substitution of base pairs. This means that the order of the bases will change- a new base may be added, a base may be lost, or one base may be substituted for another. The result of these mutations is that it causes the DNA to code for a different protein. If a mutation occurs in a sex cell, the mutation can be passed on to an offspring and affect the offspring's phenotype.
How does a mutation change the events at the ribosome?
Mutations can alter the sequence of amino acids in a protein, which can affect the protein's structure and function. This can impact the protein's ability to interact with the ribosome and other molecules involved in protein synthesis, potentially leading to changes in the efficiency or accuracy of protein production.
Why is it more important to check for errors during Dan replication than during protein synthesis?
Checking for errors during DNA replication is more critical than during protein synthesis because errors in DNA can lead to permanent mutations that affect the entire organism and can be passed on to future generations. In contrast, mistakes during protein synthesis may result in non-functional proteins, but these errors are typically transient and do not alter the genetic code itself. Ensuring fidelity during DNA replication is essential for maintaining genomic integrity and preventing diseases such as cancer. Thus, the consequences of errors in replication are far-reaching compared to those in protein synthesis.
How could an error during transcoption affect the protein that is produced?
An error during transcription, such as a misincorporation of nucleotides, can lead to an incorrect mRNA sequence. This altered mRNA can result in the production of a protein with an incorrect amino acid sequence, potentially affecting its structure and function. Depending on the nature and location of the error, the protein may become nonfunctional, gain new functions, or be degraded more rapidly, ultimately impacting the cell's physiology.
How can mutation affect protein synthesis in cell?
Mutations can make the protein synthesise incorrectly making diseases or weak parts in your body. Mutations can affect protein synthesis in cells by affecting the protein, messing up the whole DNA sequence and making the organism different from other average organisms.
How can mutations affect protein synthesis?
it can cause cancer
Why does an insert mutation usually cause more defects during protein synthesis than a point mutation?
Insertion mutations can affect many amino acids in the protein.An insertion mutation usually causes more defects during protein synthesis than point mutation because an insertion mutation will affect many amino acids in the protein.
How does a mutation in a gene affect the order of DNA based?
A mutation in a gene can happen by addition, deletion or substitution of base pairs. This means that the order of the bases will change- a new base may be added, a base may be lost, or one base may be substituted for another. The result of these mutations is that it causes the DNA to code for a different protein. If a mutation occurs in a sex cell, the mutation can be passed on to an offspring and affect the offspring's phenotype.
What is the significance of the tryptophan codon in genetic coding and how does it affect protein synthesis?
The tryptophan codon is important in genetic coding because it signals the incorporation of the amino acid tryptophan into a protein during protein synthesis. This codon acts as a specific instruction for the cell's machinery to add tryptophan to the growing protein chain. If there is a mutation in the tryptophan codon, it can lead to errors in protein synthesis, potentially affecting the structure and function of the resulting protein.
What is the significance of mRNA shape in the process of protein synthesis?
The shape of mRNA is important in protein synthesis because it determines how the mRNA molecule interacts with other molecules involved in the process. The specific shape of mRNA helps to guide the ribosomes in reading the genetic code and synthesizing the correct protein. If the mRNA shape is altered, it can affect the efficiency and accuracy of protein synthesis.
Why does an insertion mutation usually cause defects during protein synthesis than a point mutation?
Insertion mutations can affect many amino acids in the protein.An insertion mutation usually causes more defects during protein synthesis than point mutation because an insertion mutation will affect many amino acids in the protein.
How do mutations impact protein synthesis?
Mutations can affect protein synthesis by changing the sequence of DNA, which can lead to errors in the production of proteins. This can result in altered or non-functional proteins being made, which can impact the overall functioning of cells and organisms.
How does a mutation that alters a codon for a specific amino acid to a different codon for the same amino acid affect protein synthesis?
When a mutation changes a codon for a specific amino acid to a different codon for the same amino acid, it usually does not affect protein synthesis. This is because multiple codons can code for the same amino acid, so the change may not alter the final protein product.
Why do protein synthesis inhibitor a.k.a antibiotics affect bacteria only but not human cells?
most of the antibiotics kill or inactivate bacteria by inhibitting the protein synthesis... protein synthesis consists of 'transcription' and 'translation'.. the translation process requiers mRNA and ribosomes.Human(eukaryotic) ribosome is different from bacterial(prokaryotic) ribosome... Antibiotics inhibit the protein synthesis by altering the ribosomal constitution.Since human ribosomes are different from bacterial ribosome,the substances which are harmful to bacterial ribosome doesn't harm human ribosomes.. Thus human cells are immune to antibiotics..
Can you provide a comprehensive review of protein synthesis and mutations, highlighting the key concepts and mechanisms involved?
Protein synthesis is the process by which cells make proteins using instructions encoded in DNA. It involves two main steps: transcription, where a copy of the DNA sequence is made into messenger RNA (mRNA), and translation, where the mRNA is used to assemble amino acids into a protein. Mutations are changes in the DNA sequence that can affect protein synthesis by altering the mRNA or protein produced. These mutations can be caused by various factors, such as errors during DNA replication or exposure to mutagens. Understanding protein synthesis and mutations is crucial for studying genetic diseases and developing treatments.
How does a mutation change the events at the ribosome?
Mutations can alter the sequence of amino acids in a protein, which can affect the protein's structure and function. This can impact the protein's ability to interact with the ribosome and other molecules involved in protein synthesis, potentially leading to changes in the efficiency or accuracy of protein production.
