Exons.
Exons
RNA processing.
The DNA is copied onto segments called RNA, this RNA is moved into the cytoplasm and is read by a ribosome which then creates a protein from the specific codons ( 3 letter segments ) on the strip of RNA.
DNA polymerase I
The spliceosome is a complex of small nuclear RNA (snRNA) and small nuclear protein (snRNP) molecules, snRNAs and snRNPs. snRNPs include U1, U2, U4, U5 and U6.
Internal noncoding regions of RNA are called introns. They are segments of an RNA molecule that interrupt the sequence of genes.
RNA processing.
Ribozymes.Catalytic RNA that you see catalyzing reactions in the spliceosomes, the ribosomes and in attaching amino acids to tRNA
The DNA is copied onto segments called RNA, this RNA is moved into the cytoplasm and is read by a ribosome which then creates a protein from the specific codons ( 3 letter segments ) on the strip of RNA.
DNA polymerase I
The spliceosome is a complex of small nuclear RNA (snRNA) and small nuclear protein (snRNP) molecules, snRNAs and snRNPs. snRNPs include U1, U2, U4, U5 and U6.
Internal noncoding regions of RNA are called introns. They are segments of an RNA molecule that interrupt the sequence of genes.
subunits.
The types of molecules that catalyze RNA splicing are called spliceosomes. They are complex molecular machines commonly found in eukaryotic cells.
RNA is spliced (cut) in order to make it mature. This involves splicing out the introns and leaving the exons - these are the segments that code for a protein. This means that when mRNA leaves the nucleus, it only contains the segments that directly code for a protein.
Influenza has a segmented genome made up of single-stranded RNA molecules. It has a total of 8 segments of RNA, which are considered as its "chromosomes".
they form mrna molecules used in translation
All flu viruses regardless of type or origin contain 6 to 8 segments of linear negative-sense single stranded RNA.