The “life cycle” of an mRNA in a eukaryotic cell. RNA is transcribed in the nucleus; after processing, it is transported to the cytoplasm and translated by the ribosome. Finally, the mRNA is degraded.
Q. What type of RNA is responsible for translation of mRNA?
Transfer RNA (tRNA)
Q. What happens to messenger RNA after its message is read?
Messenger RNA (mRNA) mediates the transfer of genetic information from the cell nucleus to ribosomes in the cytoplasm, where it serves as a template for protein synthesis. Once mRNAs enter the cytoplasm, they are translated, stored for later translation, or degraded.
Q. What happens after mRNA is transcribed?
Transcription takes place in the nucleus. It uses DNA as a template to make an RNA molecule. RNA then leaves the nucleus and goes to a ribosome in the cytoplasm, where translation occurs. Translation reads the genetic code in mRNA and makes a protein.
Q. Which structure is missing from the diagram?
Ribosomes
Q. What kinds of molecules can be used as metabolic fuel to produce ATP see Section 4.10 page?
Only sugars, that is, carbohydrates and fatty acids can be used to produce energy in form of ATP.
Q. Which statement explains the overall function of the two molecules in the diagram?
This is a diagram of the double stranded nucleic acids that form DNA. The structure of often referred to as a double helix. The correct answer is therefore C – the overall function of these two molecules is to carry information about how an organism is put together and maintained.
Q. What are the three main functions of DNA?
DNA now has three distinct functions—genetics, immunological, and structural—that are widely disparate and variously dependent on the sugar phosphate backbone and the bases.
Q. What is RNA and function?
The central dogma of molecular biology suggests that the primary role of RNA is to convert the information stored in DNA into proteins. Transfer RNA (tRNA) then carries the appropriate amino acids into the ribosome for inclusion in the new protein.
Q. Why is RNA so important?
RNA–in this role–is the “DNA photocopy” of the cell. In a number of clinically important viruses RNA, rather than DNA, carries the viral genetic information. RNA also plays an important role in regulating cellular processes–from cell division, differentiation and growth to cell aging and death.
Q. Where is RNA found in the body?
Deoxyribonucleic Acid (DNA) is found mainly in the nucleus of the cell, while Ribonucleic Acid (RNA) is found mainly in the cytoplasm of the cell although it is usually synthesized in the nucleus.
Q. What are the three functions of RNA?
There are three types of RNA involved in protein synthesis: messenger RNA (mRNA), transfer RNA (tRNA), and ribisomal RNA (rRNA). All three of these nucleic acids work together to produce a protein. The mRNA takes the genetic instructions from the nucleus to the cytoplasm, where the ribosomes are located.
Q. What is RNA used for?
RNA, in one form or another, touches nearly everything in a cell. RNA carries out a broad range of functions, from translating genetic information into the molecular machines and structures of the cell to regulating the activity of genes during development, cellular differentiation, and changing environments.
Q. What is RNA in simple terms?
Short for ribonucleic acid. The nucleic acid that is used in key metabolic processes for all steps of protein synthesis in all living cells and carries the genetic information of many viruses.
Q. What is the biggest difference between DNA and RNA?
The most obvious difference is that DNA is a double-stranded molecule, while RNA is single-stranded. DNA is also much longer than RNA. An entire chromosome is actually just one molecule of DNA. While both DNA and RNA have sugar molecules in their subunits, those sugars are slightly different.
Q. What is DNA and RNA used for?
The two main types of nucleic acids are DNA and RNA. Both DNA and RNA are made from nucleotides, each containing a five-carbon sugar backbone, a phosphate group, and a nitrogen base. DNA provides the code for the cell’s activities, while RNA converts that code into proteins to carry out cellular functions.
Q. What are the important roles of DNA and RNA in our body?
Key Points DNA provides the code for the cell ‘s activities, while RNA converts that code into proteins to carry out cellular functions. The sequence of nitrogen bases (A, T, C, G) in DNA is what forms an organism’s traits.
Q. Where is RNA and DNA?
DNA, along with RNA and proteins, is one of the three major macromolecules that are essential for life. Most of the DNA is located in the nucleus, although a small amount can be found in mitochondria (mitochondrial DNA). Within the nucleus of eukaryotic cells, DNA is organized into structures called chromosomes.
Q. Which is found in both DNA and RNA?
The bases adenine, guanine, and cytosine are found in both DNA and RNA; thymine is found only in DNA, and uracil is found only in RNA. The bases are often abbreviated A, G, C, T, and U, respectively. For convenience the single letters are also used when long sequences of nucleotides are written out.
Q. What are the similarities and differences between RNA and DNA?
The DNA and RNA Structures Nucleotides simply refer to nitrogenous bases, pentose sugar together with the phosphate backbone. Both DNA and RNA have four nitrogenous bases each—three of which they share (Cytosine, Adenine, and Guanine) and one that differs between the two (RNA has Uracil while DNA has Thymine).
Q. What does R stand for in RNA?
ribosomal