the production of proteins.
RNA plays a key role in protein synthesis by carrying information from DNA to ribosomes, where proteins are assembled. RNA also assists in gene expression, regulation, and the control of cellular activities. Additionally, some viruses use RNA as their genetic material.
Eukaryotes utilize mechanisms such as chromatin remodeling, alternative splicing, and RNA interference to regulate gene expression, which are not commonly used in bacteria. These mechanisms allow for more complex and nuanced control of gene expression in eukaryotic cells.
The three types of RNA include; messenger RNA (mRNA), RNA polymerase, and transfer RNA (tRNA).
Messenger RNA (mRNA) Ribosomal RNA ( rRNA ) Transfer RNA ( tRNA )
RNA polymerase is the enzyme responsible for synthesizing RNA strands during transcription in a cell. It reads the DNA template strand and adds complementary RNA nucleotides to form an RNA strand.
Proteins.
RNase (ribonuclease) is an enzyme that breaks down RNA molecules by cleaving the phosphodiester bonds that link RNA nucleotides together. It is involved in various cellular processes such as RNA degradation, RNA processing, and RNA quality control.
Nucleus
RNA
RNA
What can you conclude about DNA and RNA from the fact that they are like a cell's "brain?"
RNA plays a key role in protein synthesis by carrying information from DNA to ribosomes, where proteins are assembled. RNA also assists in gene expression, regulation, and the control of cellular activities. Additionally, some viruses use RNA as their genetic material.
it is DNAor nucleus..The above answer is wrong. Bacteria do not have a nucleus as they are prokayotic, meaning before nucleus. Bacteria also do not have DNA as it is not necassary for their purposes. Instead they have RNA, (Ribonucleaic Acid as opposed to Deoxyribonucleaic Acid). The RNA is single stranded in a circle as opposed to the double stranded DNA of humans. This structure allows the RNA to be quickly translated into protein. So the answer would be RNA that is "free floating" inside the bacteria.The control center of a cell is the nucleus. The DNA has the instructions for the cell which is the control center as well.
Eukaryotes utilize mechanisms such as chromatin remodeling, alternative splicing, and RNA interference to regulate gene expression, which are not commonly used in bacteria. These mechanisms allow for more complex and nuanced control of gene expression in eukaryotic cells.
Nucleic acids in the form of DNA and RNA control cellular function and heredity.
The nucleus controls what happens inside the cell. Nucleus contains genetic information in its chromosomes. DNA and RNA are the nucleic acids found in the nucleus. The genetic information coded in the DNA molecules is interpreted through RNA to control the cell metabolism.The nucleus controls what happens inside the cell. Nucleus contains genetic information in its chromosomes. DNA and RNA are the nucleic acids found in the nucleus. The genetic information coded in the DNA molecules is interpreted through RNA to control the cell metabolism.
RNA polymerase is an enzyme that makes a RNA copy from an RNA template.