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What is a full form of RNA?
The full form of RNA is Ribonucleic Acid. It is a molecule that is essential for various biological functions in living organisms.
Does bacteria possess RNA?
Yes, bacteria possess RNA. RNA is a type of nucleic acid that is essential for the genetic expression and regulation of bacteria.
What is the significance of RNase activity in the degradation of RNA molecules?
RNase activity plays a crucial role in breaking down RNA molecules, which is important for regulating gene expression and maintaining cellular functions. This process helps in controlling the levels of RNA in the cell and is essential for various biological processes such as protein synthesis and RNA turnover.
Can bacteria have RNA within their cellular structure?
Yes, bacteria can have RNA within their cellular structure. RNA is a crucial molecule that plays a key role in protein synthesis and gene expression in all living organisms, including bacteria.
What is the significance of the 2' hydroxyl group in RNA structure and function?
The 2' hydroxyl group in RNA is important for its structure and function because it affects the stability and flexibility of the molecule. This group allows RNA to fold into specific shapes and interact with other molecules, enabling it to carry out its various biological functions, such as protein synthesis and gene regulation.
What is a full form of RNA?
The full form of RNA is Ribonucleic Acid. It is a molecule that is essential for various biological functions in living organisms.
What is the biological term for RNA synthesis?
Transcription is the biological term for RNA synthesis.
What are functions of RNA in bacteria?
1) Acts as catalysts for most biochemical reactions 2) Acts as a carrier for amino acids during protein synthesis 3) Acts as a transmitter of genetic information to offspring 4) Acts as a template in protein synthesis.
Does bacteria possess RNA?
Yes, bacteria possess RNA. RNA is a type of nucleic acid that is essential for the genetic expression and regulation of bacteria.
What is the significance of RNase activity in the degradation of RNA molecules?
RNase activity plays a crucial role in breaking down RNA molecules, which is important for regulating gene expression and maintaining cellular functions. This process helps in controlling the levels of RNA in the cell and is essential for various biological processes such as protein synthesis and RNA turnover.
What was the first active biological macromolecule?
RNA
What function do carbohydrate portions of molecules perform?
The functions of carbohydrate portions of molecules include energy storage. It also functions as the backbone of RNA and DNA molecules. Carbohydrates also contribute to the structure of cell walls.
Can bacteria have RNA within their cellular structure?
Yes, bacteria can have RNA within their cellular structure. RNA is a crucial molecule that plays a key role in protein synthesis and gene expression in all living organisms, including bacteria.
What is the difference between rna and dna in bacteria?
RNA is typically single-stranded, whereas DNA is double-stranded in bacteria. RNA is involved in protein synthesis and gene regulation, while DNA stores genetic information. RNA is more susceptible to degradation than DNA in bacteria.
Why do bacteria cells have ribosomes As in what do the ribosomes do?
Ribosomes in bacterial cells are responsible for protein synthesis. They read the messenger RNA (mRNA) and use the information to assemble amino acids into proteins. Ribosomes are essential for building the proteins that bacteria need to carry out various biological functions and processes.
What genetic material is in both viruses and bacteria?
Both viruses and bacteria contain genetic material in the form of DNA or RNA. Viruses can have either DNA or RNA as their genetic material, while bacteria typically have DNA as their genetic material.
What is the significance of the 2' hydroxyl group in RNA structure and function?
The 2' hydroxyl group in RNA is important for its structure and function because it affects the stability and flexibility of the molecule. This group allows RNA to fold into specific shapes and interact with other molecules, enabling it to carry out its various biological functions, such as protein synthesis and gene regulation.
