IV Mutation Detail Information

Virus Mutation IV Mutation R163K

Basic Characteristics of Mutations
Mutation Site	R163K
Mutation Site Sentence	Our reverse genetics approach revealed that HA2-K82E, HA2-R163K, and NA-S18L mutations were responsible for the increased growth of CIV in human cells.
Mutation Level	Amino acid level
Mutation Type	Nonsynonymous substitution
Gene/Protein/Region	HA2
Standardized Encoding Gene	HA
Genotype/Subtype	H3N8
Viral Reference	-
Functional Impact and Mechanisms
Disease	Cell line
Immune	-
Target Gene	-
Clinical and Epidemiological Correlations
Clinical Information	-
Treatment	-
Location	-
Literature Information
PMID	39138310
Title	Adaptation potential of H3N8 canine influenza virus in human respiratory cells
Author	Sekine W,Kamiki H,Ishida H,Matsugo H,Ohira K,Li K,Katayama M,Takenaka-Uema A,Murakami S,Horimoto T
Journal	Scientific reports
Journal Info	2024 Aug 13;14(1):18750
Abstract	In 2004, the equine-origin H3N8 canine influenza virus (CIV) first caused an outbreak with lethal cases in racing greyhounds in Florida, USA, and then spread to domestic dogs nationwide. Although transmission of this canine virus to humans has not been reported, it is important to evaluate its zoonotic potential because of the high contact opportunities between companion dogs and humans. To gain insight into the interspecies transmissibility of H3N8 CIV, we tested its adaptability to human respiratory A549 cells through successive passages. We found that CIV acquired high growth properties in these cells mainly through mutations in surface glycoproteins, such as hemagglutinin (HA) and neuraminidase (NA). Our reverse genetics approach revealed that HA2-K82E, HA2-R163K, and NA-S18L mutations were responsible for the increased growth of CIV in human cells. Molecular analyses revealed that both HA2 mutations altered the optimum pH for HA membrane fusion activity and that the NA mutation changed the HA-NA functional balance. These findings suggest that H3N8 CIV could evolve into a human pathogen with pandemic potential through a small number of mutations, thereby posing a threat to public health in the future.
Sequence Data	-

Mutation Information
Note

Basic Characteristics of Mutations

Mutation Site: The specific location in a gene or protein sequence where a change occurs.
Mutation Level: The level at which a mutation occurs, including the nucleotide or amino acid level.
Mutation Type: The nature of the mutation, such as missense mutation, nonsense mutation, synonymous mutation, etc.
Gene/Protein/Region: Refers to the specific region of the virus where the mutation occurs. Including viral genes, viral proteins, or a specific viral genome region. If the article does not specifically indicate the relationship between the mutation and its correspondence, the main
Gene/Protein/Region studied in the article is marked.

Genotype/Subtype: Refers to the viral genotype or subtype where the mutation occurs. If the article does not specifically indicate the relationship between the mutation and its correspondence, the main Genotype/Subtype studied in the article is marked.

Viral Reference: Refers to the standard virus strain used to compare and analyze viral sequences.

Functional Impact and Mechanisms

Disease: An abnormal physiological state with specific symptoms and signs caused by viral infection.

Immune: The article focuses on the study of mutations and immune.

Target Gene: Host genes that viral mutations may affect.

Clinical and Epidemiological Correlations

Clinical Information: The study is a clinical or epidemiological study and provides basic information about the population.

Treatment: The study mentioned a certain treatment method, such as drug resistance caused by mutations. If the study does not specifically indicate the relationship between mutations and their correspondence treatment, the main treatment studied in the article is marked.

Location: The source of the research data.

Literature Information

Sequence Data: The study provides the data accession number.