in proteins which are in ribosomes.
RNA is found in the cytoplasm, where the ribosomes can come and translate it into protein
Nucleolus
RNA polymerase determines its binding location on the DNA strand by recognizing specific sequences of nucleotides called promoter regions. These promoter regions contain signals that indicate where the RNA polymerase should start transcribing the DNA into RNA. The RNA polymerase binds to these promoter regions with the help of other proteins, allowing it to initiate the transcription process at the correct location on the DNA strand.
Transcription: cellular location, steps involved & the enzymes used Translation: cellular location, steps involved & the roles of the various RNA molecules
RNA is found in the nucleus and cytoplasm of cells. In the nucleus, RNA is involved in processes such as transcription, while in the cytoplasm, RNA is involved in protein synthesis through translation.
By messanger RNA
it is insides the egg cells
The anticodon is a sequence of three nucleotides found on transfer RNA (tRNA) molecules. Its function is to base pair with a complementary codon on messenger RNA (mRNA) during translation. The location of the anticodon is within the loop region of the tRNA molecule.
Ribosomes. They are the location in which a large amount of RNA is synthesized and the synthesis of any cellular component needs a large amount of enzymes to speed up the process.
The primary function of rRNA is in protein synthesis – in binding to messenger RNA and transfer RNA to ensure that the codon sequence of the mRNA is translated accurately into amino acid sequence in proteins. The function of rRNA is to serve as a location for protein synthesis. rRNA is the location in which mRNA and tRNA are able to come together to synthesize proteins.
RNA polymerase is an enzyme that makes a RNA copy from an RNA template.
The three types of RNA are: mRNA (messanger RNA), rRNA (ribosomal RNA), and tRNA (transfer RNA).