when you ask for common cold you are talking maybe about rhinovirus
and rhinovirus they have RNA
Nucleotides do not have DNA or RNA. DNA and RNA are composed of nucleotides.
Basic rundown- Similarities: They are both Nucleic Acids and carriers of our genetic information; Three of Four common nucleotides are shared in both: ACG (Adenine, Cytosine, Guanine). Differences: RNA has U (Uracil), DNA has T (Thymine). RNA has a ribose sugar vs DNA's deoxyribose sugar (literally a one oxygen molecule difference). DNA gets Transcribed into RNA. RNA gets Translated into Amino Acids/Proteins.
Uracil is a nucleotide found in RNA but not in DNA. In RNA, uracil replaces thymine, which is found in DNA.
The influenza virus contains Both DNA and RNA.Its an exception.
DNA --> RNA --> Proteins -----------------------------------------That simple.
Some disease-causing viruses have RNA instead of DNA as their genetic material. RNA viruses include the influenza virus, HIV, and the common cold virus.
No the cold virus is rhinovirus,where as HIV&AIDS is a retrovirus it reproduces by changing DNA into RNA.
The vast majority of common cold viruses, primarily rhinoviruses and coronaviruses, are single-strand RNA viruses.
What a cell and a virus have in common is the RNA or DNA. The virus can be either a RNA virus or a DNA virus.
Some viruses move RNA, some DNA; but RNA is more common.
Adenine,Thyamine,Guanine common to both.Cytocine in DNA.Uracil in RNA
DNA can form triple-stranded structures, although this is not common in nature. RNA can also form triple-stranded structures, particularly in certain non-canonical forms of RNA. Overall, triple-stranded structures are less common than the more prevalent double-stranded forms of DNA and RNA.
In the hereditary information of DNA and RNA is a common place, in the chromosomes and center of cells
DNA and RNA both have a sugar-phosphate backbone, composed of deoxyribose in DNA and ribose in RNA. They also share adenine, cytosine, and guanine as common nitrogenous bases. Additionally, both DNA and RNA can form double-stranded helical structures through complementary base pairing.
The enzyme that transcribes the DNA into RNA is called RNA polymerase.
Nucleotides do not have DNA or RNA. DNA and RNA are composed of nucleotides.
An uracil base is in RNA but not in DNA