it exits through the nucleus through a nuclear pore and enters the cytoplasm of the cell. The mRNA will then move to a ribosomes. Where the next stage of protein synthesis will occur, Translation.
Yes, mRNA can leave the nucleus to carry genetic information for protein synthesis.
mRNA can leave the nucleus because it is a single-stranded molecule that is small enough to pass through the nuclear pores in the nuclear membrane. This allows it to carry genetic information from the DNA in the nucleus to the ribosomes in the cytoplasm for protein synthesis.
The genetic code is transferred from the nucleus into the cytoplasm by RNA. RNA is used to duplicate the DNA so it doesn't have to leave the nucleus.
Perhaps you are talking about messenger RNA, mRNA, that is transcribed from DNA in the nucleus and leaves the nucleus to go into the cytosol where it docks with a ribosomal subunit where translation takes place.
The RNA that leaves nucleus is called mRNA (messenger RNA) molecule. The DNA molecule is first of all transcribed by use of general transcription factors to gives us a mRNA molecule. Now this mRNA molecule before leaving the nucleus undergoes RNA processing where all the interons - regions on mRNA that do not code for any protein are cut out by using spliceosomes. The modified mRNA molecule can now leave the nucleus.boogus
Yes, mRNA can leave the nucleus to carry genetic information for protein synthesis.
nucleic acids
mRNA can leave the nucleus because it is a single-stranded molecule that is small enough to pass through the nuclear pores in the nuclear membrane. This allows it to carry genetic information from the DNA in the nucleus to the ribosomes in the cytoplasm for protein synthesis.
Because mRNA is a single stranded molecule where as DNA forms a double helix. Therefore mRNA is a smaller molecule than DNA so can leave the nucleus ALSO mRNA has been processed post-translation. This means a 5' cap has been added and a 3' poly(A) tail has been added. This 5' cap, which DNA does not have, allows mRNA to leave the nucleus through nuclear pores. All above is good idea all , And me have something that need to include more. First time DNA can't leave from nucleus ,so DNA change to be nucleotide then mRNA go into nucleus and duplication ,A , T, C, G of DNA to be U,A,G,C. During mRNA get out from nucleus , mRNA will go to ribosomes to produce protein to take care cell.
During transcription, the DNA code is transcribed by mRNA, forming a mRNA molecule that will leave the nucleus and go to a ribosome to be translated into a protein.
RNA molecules leave the nucleus through the nuclear pores in the nuclear membrane of eukaryotic cells. This includes messenger RNA (mRNA), transfer RNA (tRNA), and ribosomal RNA (rRNA), which are involved in protein synthesis in the cytoplasm. Large molecules such as proteins are synthesized in the cytoplasm, but do not leave the nucleus.
The genetic code is transferred from the nucleus into the cytoplasm by RNA. RNA is used to duplicate the DNA so it doesn't have to leave the nucleus.
Perhaps you are talking about messenger RNA, mRNA, that is transcribed from DNA in the nucleus and leaves the nucleus to go into the cytosol where it docks with a ribosomal subunit where translation takes place.
The RNA that leaves nucleus is called mRNA (messenger RNA) molecule. The DNA molecule is first of all transcribed by use of general transcription factors to gives us a mRNA molecule. Now this mRNA molecule before leaving the nucleus undergoes RNA processing where all the interons - regions on mRNA that do not code for any protein are cut out by using spliceosomes. The modified mRNA molecule can now leave the nucleus.boogus
The DNA found in the nucleus does not leave the nucleus. Instead, a copy of this DNA is carried on mRNA out of the nucleus and to the ribosomes. By keeping the DNA in the nucleus, it is protected from degradation - so a "master copy" of the instructions can be kept safe.
The genetic code is transcribed in the nucleus to produce messenger RNA (mRNA). The mRNA then exits the nucleus through nuclear pores and enters the cytoplasm, where it serves as a template for protein synthesis at the ribosomes.
The nucleus.