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The IFIT family of ISGs is located on chromosome 10 in humans and is homologous in mammals, birds, and fish. [5] The IFIT family is commonly induced by type I and type III interferon. [3] [5] IFIT gene expression has been observed in response to both DNA and RNA viral
ISG15 was originally identified in the late 1970s as a 15-kDa protein produced in response to type I interferon, a potent class of antiviral cytokines. [19] Given the molecular weight, it was originally termed "a 15-kDa protein", but later renamed interferon-stimulated-gene-15 when the cassette of interferon-stimulated genes were recognized.
Interferon-induced protein with tetratricopeptide repeats 2 (commonly termed IFIT2) is a protein that in humans is directed to be produced by the IFIT2 gene. [5] [6] [7] Previously, this gene was termed the G10P2, GARG-39, IFI-54, IFI-54K, IFI54, IFIT-2, ISG-54 K, ISG-54K, ISG54, or P54 gene and the protein that it directs to be produced was termed the G10P2, GARG-39, IFI-54, IFI-54K, IFI54 ...
Interferome is an online bioinformatics database of interferon-regulated genes (IRGs). [1] These Interferon Regulated Genes are also known as Interferon Stimulated Genes (ISGs). The database contains information on type I (IFN alpha, beta), type II (IFN gamma) and type III (IFN lambda) regulated genes and is regularly updated.
Interferon-induced protein with tetratricopeptide repeats 3, also known as interferon-stimulated gene 49 ... is a protein that in humans is encoded by the IFIT3 gene. ...
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The gene encoding IFNα2, the IFNA2 gene, is clustered with all other type I IFN genes on chromosome 9 [8] and as all type I IFN genes, it is devoid of intron. [9] The open reading frame (coding sequence) of IFNA2 codes for a pre-protein of 188 amino acids with a 23 amino acid signal peptide allowing secretion of the mature protein.
Diets rich in four different types of nutrients may help reduce iron buildup in the brain and lower the risk of cognitive decline that comes with aging, a new study suggests.