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How does mRNA enter the nucleus?
mRNA does not enter the nucleus. It is transcribed from DNA inside the nucleus and then exits the nucleus to carry genetic information to the ribosomes in the cytoplasm for protein synthesis.
Which molecule is made in the nucleus but exits to function in the cytoplasm?
mRNA (messenger RNA) is the molecule that is made in the nucleus during transcription, carrying the genetic information from DNA, and then exits to function in the cytoplasm during translation to direct protein synthesis.
How is the information contained in DNA transported out of nucleus?
Couldn't tell you, hun.
Where does messenger RNA, or mRNA, travel to once it leaves the nucleus?
After leaving the nucleus, messenger RNA (mRNA) travels to the ribosomes in the cytoplasm of the cell for protein synthesis.
How does the MRNA get out of the nucleus?
mRNA is transported out of the nucleus through nuclear pores in a process called nuclear export. Specific proteins recognize and bind to the mRNA molecules, facilitate their transport through the nuclear pores, and into the cytoplasm where they can be translated into proteins.
How does mRNA enter the nucleus?
mRNA does not enter the nucleus. It is transcribed from DNA inside the nucleus and then exits the nucleus to carry genetic information to the ribosomes in the cytoplasm for protein synthesis.
Which molecule is made in the nucleus but exits to function in the cytoplasm?
mRNA (messenger RNA) is the molecule that is made in the nucleus during transcription, carrying the genetic information from DNA, and then exits to function in the cytoplasm during translation to direct protein synthesis.
How is the information contained in DNA transported out of nucleus?
Couldn't tell you, hun.
What step in synthesis is transcription?
The excising of the introns from the mRNA and the adding of the poly A tail and guanine repeats to the mature mRNA so that it now exits the nucleus to begin translation.
Where does messenger RNA, or mRNA, travel to once it leaves the nucleus?
After leaving the nucleus, messenger RNA (mRNA) travels to the ribosomes in the cytoplasm of the cell for protein synthesis.
What allows the RNA to exit the nucleus?
mRNA exits the nucleus after it binds to TAP/p15 protein. This protein helps the mRNA through the hydrophobic nuclear pore. Other RNAs bind to Exportine-proteins, which help them to pass the pore.
How does the MRNA get out of the nucleus?
mRNA is transported out of the nucleus through nuclear pores in a process called nuclear export. Specific proteins recognize and bind to the mRNA molecules, facilitate their transport through the nuclear pores, and into the cytoplasm where they can be translated into proteins.
How does mRNA get out of the nucleus to carry genetic information for protein synthesis in the cytoplasm?
mRNA is transported out of the nucleus through nuclear pores in a process called nuclear export. This allows the mRNA to travel to the cytoplasm where it can be used as a template for protein synthesis.
How is the genetic code transferred from the nucleus into the cytoplasm?
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.
How is the genetic transferred from the nucleus into the cytoplasm?
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.
How can the instructions for making proteins make it out to the ribosomes outside the nucleus?
The instructions, which are found in DNA, are transcribed on a messenger RNA (mRNA) in the nucleus. The mRNA, unlike DNA, can pass through the nuclear pore and therefore move to the ribosomes for translation (making protein)
Which Is The Correct Sequence Of Molecules As A Gene Goes From Coded Information In The Nucleus To The Product The Cell Wants To Make?
The correct sequence of molecules as a gene goes from coded information in the nucleus to the desired product involves DNA, mRNA, and proteins. First, the gene in the DNA is transcribed into messenger RNA (mRNA) in the nucleus. The mRNA then exits the nucleus and is translated into a protein by ribosomes in the cytoplasm. Finally, the protein carries out its specific function in the cell.
