Transcription (DNA -> RNA) happens in the nucleus where RNA polymerase makes single-stranded RNA from a template DNA strand.
Some viruses move RNA, some DNA; but RNA is more common.
DNA polymerase replicated DNA. RNA polymerase creates mRNA to be used in protein synthesis. RNA polymerase does not replicated DNA.
DNA replication
RNA has the base uracil rather than thymine that is present in DNA, so the answer to you question is.. thymine.
dna&rna
No, DNA and RNA are not used to assemble carbohydrates. Carbohydrates are primarily constructed from carbon, hydrogen, and oxygen atoms, and their assembly occurs through various biochemical pathways within cells. DNA and RNA are involved in the storage and transfer of genetic information within cells.
RNA and DNA
They are DNA molecules. They are stored in chromosomes
No, carbohydrates are not found in the nucleus. The nucleus of a cell primarily contains DNA and proteins, which are essential for controlling the cell's activities and functions. Carbohydrates are mainly found in the form of sugars and starches in the cytoplasm and cell membrane.
In addition to DNA, impurities in a DNA extraction could include RNA, proteins, lipids, carbohydrates, and salts. These molecules can be co-extracted along with the DNA during the extraction process.
Four basic molecules are Carbohydrates, Lipids, Protein, and DNA/RNA
Nucleic acids contain the genetic code, specifically DNA and RNA. Lipids and carbohydrates serve as energy sources in the body, while proteins are essential for structural support and enzymatic functions.
Adenine is a nucleobase found in DNA and RNA, while carbohydrates are composed of carbon, hydrogen, and oxygen atoms. Phosphorus is an element found in adenine but not in carbohydrates.
Carbohydrates, lipids, proteins and nucliec acids. Like DNA and RNA.
RNA polymerase is the enzyme responsible for transcribing DNA into RNA during the process of transcription.
Many viruses have nucleotides not found in DNA or RNA, such as Retroviruses like HIV that use reverse transcriptase to convert RNA into DNA for replication.