| Kupe orthonairovirus | |
|---|---|
Virus classification  | |
| (unranked): | Virus |
| Realm: | Riboviria |
| Kingdom: | Orthornavirae |
| Phylum: | Negarnaviricota |
| Class: | Ellioviricetes |
| Order: | Bunyavirales |
| Family: | Nairoviridae |
| Genus: | Orthonairovirus |
| Species: | Kupe orthonairovirus |
Kupe orthonairovirus, also called Kupe virus, is a species of virus in the genus Orthonairovirus . [1]
The virus was isolated from pooled ticks ( Amblyomma gemma and Rhipicephalus pulchellus ) collected from cattle hides in Nairobi, Kenya, in October 1999. [2] The word 'Kupe' is Kiswahili for tick.
The genome is composed a single strand of negative sense RNA in three parts - small (S), medium (M0 and large(L).
The L segment RNA is 12,330 nucleotides (nt) in length and encodes one open reading frame (ORF) of 4,050 amino acids. There is a non coding regions: the 5′ region of 40 nt and the 3′ region of 137 nt. This open reading frame encodes several modules including a RNA-dependent RNA polymerase. It is probably post translationally cleaved into several proteins but this has yet to be shown.
The M segment RNA is 4,818 nucleotides in length and contains one open reading frame flanked by 5′ and 3′ non coding regions of 47 and 121 nucleotides respectively. The ORF encodes a protein of 1549 amino acids with 8 potential sites for N-linked glycosylation. It contains a unique potential N-gly site in the Gn and Gc glycoprotein regions at amino acids 612 and 1514 respectively.
The S segment has 1,694 nt and encodes an ORF of 483 amino acids. The 5′ and 3′ noncoding regions are 49 nt and 193 nt in length respectively.
The coding region of a gene, also known as the coding sequence(CDS), is the portion of a gene's DNA or RNA that codes for protein. Studying the length, composition, regulation, splicing, structures, and functions of coding regions compared to non-coding regions over different species and time periods can provide a significant amount of important information regarding gene organization and evolution of prokaryotes and eukaryotes. This can further assist in mapping the human genome and developing gene therapy.
In molecular biology, a reading frame is a way of dividing the sequence of nucleotides in a nucleic acid molecule into a set of consecutive, non-overlapping triplets. Where these triplets equate to amino acids or stop signals during translation, they are called codons.
In molecular biology, open reading frames (ORFs) are defined as spans of DNA sequence between the start and stop codons. Usually, this is considered within a studied region of a prokaryotic DNA sequence, where only one of the six possible reading frames will be "open". Such an ORF may contain a start codon and by definition cannot extend beyond a stop codon. That start codon indicates where translation may start. The transcription termination site is located after the ORF, beyond the translation stop codon. If transcription were to cease before the stop codon, an incomplete protein would be made during translation.
The 5′ untranslated region is the region of a messenger RNA (mRNA) that is directly upstream from the initiation codon. This region is important for the regulation of translation of a transcript by differing mechanisms in viruses, prokaryotes and eukaryotes. While called untranslated, the 5′ UTR or a portion of it is sometimes translated into a protein product. This product can then regulate the translation of the main coding sequence of the mRNA. In many organisms, however, the 5′ UTR is completely untranslated, instead forming a complex secondary structure to regulate translation.
In molecular biology and genetics, the sense of a nucleic acid molecule, particularly of a strand of DNA or RNA, refers to the nature of the roles of the strand and its complement in specifying a sequence of amino acids. Depending on the context, sense may have slightly different meanings. For example, negative-sense strand of DNA is equivalent to the template strand, whereas the positive-sense strand is the non-template strand whose nucleotide sequence is equivalent to the sequence of the mRNA transcript.
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