FAM163A

FAM163A is a human gene. Its official full name is Family With Sequence Similarity 163, Member A. It encodes a protein with a function that is currently not fully understood.

Gene Details:

• Location: The FAM163A gene is located on chromosome 17 in humans. Specific cytogenetic band location details can be found through resources like NCBI Gene.
• Aliases: This gene may be referred to by other aliases in scientific literature.
• Size: The size of the gene sequence can be found in genomic databases.

Protein Information:

• Function: While the precise function of the FAM163A protein remains largely uncharacterized, studies suggest it may be involved in cellular processes such as protein-protein interactions. Research is ongoing to determine its exact role.
• Structure: The protein's predicted structure can be analyzed using bioinformatics tools, but experimental validation is needed to confirm these models.
• Domains/Motifs: Sequence analysis of the FAM163A protein may reveal conserved protein domains or motifs that provide clues to its function.
• Interactions: Research may indicate proteins that interact with FAM163A. These interactions can help elucidate the protein's cellular pathways.

Expression:

• Tissue Specificity: The gene's expression patterns across different tissues can be investigated through gene expression databases and studies. This information can provide insights into where the protein is most active.
• Regulation: Factors that regulate the expression of FAM163A are being researched, as are potential regulatory elements within the gene's promoter region.

Clinical Significance:

• Disease Association: Studies may have investigated the association of FAM163A with various diseases or conditions. Genetic variations within the gene may be linked to disease susceptibility or progression. Further research is needed to determine the clinical relevance of FAM163A.

Further Research:

Ongoing research is aimed at elucidating the function of the FAM163A protein and its role in cellular processes and human health. Researchers use a variety of techniques, including cell biology, molecular biology, and genomics, to study this gene and its protein product.