In the Endoplasmic Reticulum (ER). It must leave the nucleus first after transcription.
in the nucleus
Prevent polypeptide elongation in eukaryotes.
Gene rearrangement actually means the rearrangement of gene in chromosomes. This can occur through 3 different ways which are inversion, translocation and transposition. These can definitely alter the chromosome and cause mutations to occur.
It can be. Basically most mutations (regardless of type; translocation, reversal, transcription, etc...) can cause hemophilia if they occur within a specific part of the genetic sequencing that codes for the production of the clotting factor proteins. This genetic sequence if found in a segment of the X chromosome.
Transcription is the process of formation of RNA. It takes place in nucleus in eukaryotes and in nucleoid in bacteria or prokaryotes .
in the nucleus
All Eukaryotes, that is plants and animals.
Inner mitochondrial membrane
Prevent polypeptide elongation in eukaryotes.
nucleus for eukaryotes, cytoplasm for prokaryotes.
Leaching is another word for translocation.
Gene rearrangement actually means the rearrangement of gene in chromosomes. This can occur through 3 different ways which are inversion, translocation and transposition. These can definitely alter the chromosome and cause mutations to occur.
Gene rearrangement actually means the rearrangement of gene in chromosomes. This can occur through 3 different ways which are inversion, translocation and transposition. These can definitely alter the chromosome and cause mutations to occur.
It can be. Basically most mutations (regardless of type; translocation, reversal, transcription, etc...) can cause hemophilia if they occur within a specific part of the genetic sequencing that codes for the production of the clotting factor proteins. This genetic sequence if found in a segment of the X chromosome.
No, photophosphorylation occurs in both prokaryotes and eukaryotes. It is a process in photosynthesis where light energy is used to phosphorylate ADP to ATP. In prokaryotes, it mainly occurs in the thylakoid membranes of the chloroplasts, while in eukaryotes, it occurs in the chloroplasts of plant cells.
Transcription is the process of formation of RNA. It takes place in nucleus in eukaryotes and in nucleoid in bacteria or prokaryotes .
Translocation of the ribosome occurs during the process of translation, specifically after the formation of a peptide bond between amino acids. This step involves the movement of the ribosome along the mRNA strand, shifting from one codon to the next. Translocation ensures that the next codon is positioned at the ribosomal A site for the subsequent tRNA to deliver the appropriate amino acid. This process is crucial for elongating the polypeptide chain during protein synthesis.