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How is bacterial translation different from eukaryotic translation in terms of their processes and mechanisms?
Bacterial translation and eukaryotic translation are similar in many ways, but there are some key differences in their processes and mechanisms. One major difference is that bacterial translation occurs in the cytoplasm, while eukaryotic translation takes place in the cytoplasm and on ribosomes attached to the endoplasmic reticulum. Additionally, bacterial translation typically involves fewer initiation factors and ribosomal proteins compared to eukaryotic translation. Another difference is that bacterial mRNA often lacks introns, while eukaryotic mRNA undergoes splicing to remove introns before translation. Overall, while both processes involve the same basic steps of initiation, elongation, and termination, the specific mechanisms and factors involved can vary between bacterial and eukaryotic translation.
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How is bacterial translation different from eukaryotic translation?
Bacterial translation occurs in the cytoplasm and has fewer post-translational modifications. Eukaryotic translation occurs in the cytoplasm and on the endoplasmic reticulum, and involves more complex regulatory mechanisms and additional processing steps.
How is bacterial DNA replication different from eukaryotic DNA replication in terms of process and mechanisms?
Bacterial DNA replication is simpler and faster than eukaryotic DNA replication. Bacteria have a single circular chromosome, while eukaryotes have multiple linear chromosomes. Bacterial replication occurs bidirectionally from a single origin, while eukaryotic replication starts at multiple origins. Bacteria use a DNA polymerase III enzyme for replication, while eukaryotes use multiple DNA polymerases.
The principal problem with inserting an unmodified mammalian gene into the bacterial chromosome and then getting that gene expressed is that?
bacterial and mammalian cells have different genetic codes and regulatory mechanisms, making it difficult for the bacterial cell to properly transcribe and translate the mammalian gene. This can result in the gene not being properly expressed or expressed with errors, leading to potential harmful effects or lack of desired function. Additionally, the post-translational modifications required for mammalian proteins may not occur in bacterial cells.
How are bacterial cells different from the cell of eukaryotes?
this is a very broad question. bacteria are prokaryotic and eukraryotes aren't. if you need more than this refer to a teacher or text book.
How are viruses different from eukaryotic cells in terms of their structure and replication mechanisms?
Viruses are different from eukaryotic cells in structure and replication. Viruses are smaller and simpler, consisting of genetic material surrounded by a protein coat. They cannot replicate on their own and rely on host cells to reproduce. Eukaryotic cells, on the other hand, are larger and more complex, with a nucleus and organelles. They can replicate independently through mitosis or meiosis.
How is bacterial translation different from eukaryotic translation?
Bacterial translation occurs in the cytoplasm and has fewer post-translational modifications. Eukaryotic translation occurs in the cytoplasm and on the endoplasmic reticulum, and involves more complex regulatory mechanisms and additional processing steps.
How is bacterial cell different from onion cell?
Bacterial cells are prokaryotic and the cells of an onion are eukaryotic.
How is bacterial DNA replication different from eukaryotic DNA replication in terms of process and mechanisms?
Bacterial DNA replication is simpler and faster than eukaryotic DNA replication. Bacteria have a single circular chromosome, while eukaryotes have multiple linear chromosomes. Bacterial replication occurs bidirectionally from a single origin, while eukaryotic replication starts at multiple origins. Bacteria use a DNA polymerase III enzyme for replication, while eukaryotes use multiple DNA polymerases.
What are the differences between prokaryotic and eukaryotic translation?
they are different types of cells
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..
The principal problem with inserting an unmodified mammalian gene into the bacterial chromosome and then getting that gene expressed is that?
bacterial and mammalian cells have different genetic codes and regulatory mechanisms, making it difficult for the bacterial cell to properly transcribe and translate the mammalian gene. This can result in the gene not being properly expressed or expressed with errors, leading to potential harmful effects or lack of desired function. Additionally, the post-translational modifications required for mammalian proteins may not occur in bacterial cells.
How are bacterial cells different from the cell of eukaryotes?
this is a very broad question. bacteria are prokaryotic and eukraryotes aren't. if you need more than this refer to a teacher or text book.
Why Erythromycins does not destroy the 70s ribosomes in mitochondria which is inside eukaryotic cells while it destroys 70s ribosomes in bacteria?
ribosomes are created from the nucleus (protein synthesis) so ribosomes of bacterica will have different genetic information....and remember the cells can communicate with each other .e.g hormones
Are clarithromycin ciprofloxacin the same?
No, clarithromycin and ciprofloxacin are not the same; they are different antibiotics used to treat bacterial infections. Clarithromycin is a macrolide antibiotic that works by inhibiting bacterial protein synthesis, while ciprofloxacin is a fluoroquinolone antibiotic that interferes with bacterial DNA replication. They have different mechanisms of action, spectrums of activity, and are used to treat different types of infections. Always consult a healthcare professional for appropriate antibiotic selection.
How are viruses different from eukaryotic cells in terms of their structure and replication mechanisms?
Viruses are different from eukaryotic cells in structure and replication. Viruses are smaller and simpler, consisting of genetic material surrounded by a protein coat. They cannot replicate on their own and rely on host cells to reproduce. Eukaryotic cells, on the other hand, are larger and more complex, with a nucleus and organelles. They can replicate independently through mitosis or meiosis.
Is clydomycin a form of tetricyclin?
No, clindamycin is not a form of tetracycline. Clindamycin is a lincosamide antibiotic, while tetracyclines are a different class of antibiotics. Both are used to treat bacterial infections but have different mechanisms of action and spectra of activity.
Why do yeast cells appear larger than bacterial cells when observed under a microscope?
Yeast cells are typically larger than bacterial cells due to their different cell structures and sizes. Yeast cells are eukaryotic and have membrane-bound organelles, while bacterial cells are prokaryotic and lack these organelles. Additionally, yeast cells generally have a larger overall size and are typically more complex in structure compared to bacterial cells.
