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Yes, erythromycin can affect human cells by inhibiting protein synthesis in bacterial cells but can also affect human mitochondria due to their bacterial origin. This may lead to side effects in some individuals, especially at higher doses or with prolonged use.
Ribosomes in bacterial cells are responsible for protein synthesis. They read the messenger RNA (mRNA) and use the information to assemble amino acids into proteins. Ribosomes are essential for building the proteins that bacteria need to carry out various biological functions and processes.
Antibiotics target specific structures or processes unique to bacterial cells that are not present in human eukaryotic cells. For example, tetracycline interferes with bacterial protein synthesis by binding to bacterial ribosomes, while erythromycin inhibits the bacterial ribosome's ability to make proteins. Since human cells do not have the same type of ribosomes or protein synthesis mechanisms, antibiotics like tetracycline and erythromycin do not affect human cells the same way they do bacterial cells.
Yes, the human body produces protein through a process called protein synthesis, which occurs in the cells. The body uses amino acids from the diet to build and repair tissues, enzymes, hormones, and other important molecules.
Frog red blood cells contain a nucleus, whereas human red blood cells do not.
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..
Glucose serves as a source of energy for the body, allowing cells to perform the necessary functions for protein synthesis. It provides the building blocks and fuel needed for the process of creating proteins in the human body.
The endoplasmic reticulum is found in most human cells; it is not found in red blood cells or sperm cells. Its functions include protein synthesis and lipid metabolism.
Bacterial cells and human cells are alike in that they both contain genetic material, have a cell membrane that regulates what enters and exits the cell, and have the ability to reproduce and grow. Additionally, both types of cells have ribosomes that are responsible for protein synthesis.
Yes, erythromycin can affect human cells by inhibiting protein synthesis in bacterial cells but can also affect human mitochondria due to their bacterial origin. This may lead to side effects in some individuals, especially at higher doses or with prolonged use.
Ribosomes in bacterial cells are responsible for protein synthesis. They read the messenger RNA (mRNA) and use the information to assemble amino acids into proteins. Ribosomes are essential for building the proteins that bacteria need to carry out various biological functions and processes.
Antibiotics target specific structures or processes unique to bacterial cells that are not present in human eukaryotic cells. For example, tetracycline interferes with bacterial protein synthesis by binding to bacterial ribosomes, while erythromycin inhibits the bacterial ribosome's ability to make proteins. Since human cells do not have the same type of ribosomes or protein synthesis mechanisms, antibiotics like tetracycline and erythromycin do not affect human cells the same way they do bacterial cells.
Ribosomes in the cells of a human body are responsible for making proteins. Ribosomes are small organelles that translate the genetic information encoded in DNA into proteins. They are found in all types of cells and are crucial for protein synthesis.
Yes, the human body produces protein through a process called protein synthesis, which occurs in the cells. The body uses amino acids from the diet to build and repair tissues, enzymes, hormones, and other important molecules.
Frog red blood cells contain a nucleus, whereas human red blood cells do not.
In the human body, protein digestion ends in the small intestine. Protein is required to repair cells and to help new cells grow.
The nucleolus is a structure found inside the nucleus of eukaryotic cells. It is involved in the production of ribosomes, which are essential for protein synthesis. The nucleolus is made up of DNA, RNA, and proteins.