AVM

Mutation site	C1001G/K1102N
Virus	Human respiratory syncytial virus
Mutation level	Amino acid Level
Gene/protein/region type	L
Gene ID	1494467
Country	-
Mutation type	nonsynonymous mutation
Genotype/subtype/clade	-
Sample	Human
Variants	-
Viral reference sequence	M74568.1
Drug/antibody/vaccine	-
Transmissibility	-
Transmission mechanism	-
Pathogenicity	-
Pathogenicity mechanism	-
Immune escape mutation	-
Immune escape mechanism	-
RT-PCR primers probes	-

Protein name	Polymerase
Uniprot protein ID	P28887
Protein length	2165 amino acids
Protein description	The core polymerase in RSV is composed of two proteins, a 250 kDa polymerase subunit (L), which contains the RNA-dependent RNA polymerase, the polyribonucleotidyl transferase (PRNTase, capping), and the methyltransferase enzymatic domains essential for viral transcription and replication, and the 27 kDa phosphoprotein (P) accessory protein. . The L protein caps mRNA by a unique RNA-GDP polyribonucleotidyl transferase activity mapped to conserved region V (CRV). Methylation of the cap at the guanine-N-7 and ribose-2-O positions is catalyzed by a unique dual specificity methyltransferase activity that has been functionally mapped to region VI of the L protein.

Pubmed ID	24478424
Clinical information	No
Disease	-
Published year	2014
Journal	Journal of virology
Title	Chimeric Bovine/Human Parainfluenza Virus Type 3 Expressing Respiratory Syncytial Virus (RSV) F Glycoprotein: Effect of Insert Position on Expression, Replication, Immunogenicity, Stability, and Protection against RSV Infection
Author	Bo Liang,Shirin Munir,Emerito Amaro-Carambot,Sonja Surman,Natalie Mackow
Evidence	Whole-genome sequencing of the six large plaque isolates of the F2 virus indicated that all of them had both an H552Q mutation in HPIV3 HN and a single mutation in HPIV3 F (one of the following: L282I, R263S, or K227N); some also had one or two mutations