Understanding The Role of MiRNA 10399 in Human Health (G113218503)

Understanding The Role of MiRNA 10399 in Human Health

MicroRNA (miRNA) 10399 is a non-coding RNA molecule that plays a crucial role in various biological processes. It is a key regulator of gene expression and has been associated with various diseases, including cancer. Despite its potential as a drug target, little is known about mi-10399 and its role in human health.

MiRNA 10399 is a member of the 220 family of miRNAs, which are known for their ability to interact with target genes and regulate their expression. The 220 family of miRNAs are derived from a common ancestor and are characterized by the presence of a conserved core RNA structure and a unique N-end. The N-end of miRNA 10399 contains a unique 24 amino acid residue that is specific to this particular molecule.

MiRNA 10399 has been shown to play a role in various biological processes, including cell growth, apoptosis, and inflammation. It has been shown to regulate the expression of genes involved in cell adhesion, migration and invasion, as well as in the regulation of cell survival and apoptosis.

In addition to its role in cell biology, miRNA 10399 has also been shown to be involved in the regulation of immune responses. It has been shown to regulate the production of dendritic cells, which are important for the immune response, and to control the activation and proliferation of T cells.

Despite its potential as a drug target, little is known about miRNA 10399 and its role in human health. There are currently no known diseases that are directly related to miRNA 10399, and more research is needed to understand its role in the development and progression of various diseases.

In conclusion, miRNA 10399 is a non-coding RNA molecule that has been shown to play a role in various biological processes, including cell growth, apoptosis, and inflammation. Its unique structure and specific function make it an attractive target for further research and potentially a drug. Further studies are needed to understand its role in human health and to identify potential therapeutic approaches.

Protein Name: MicroRNA 10399

More Common Targets

MIR103A1 | MIR103A2 | MIR103B1 | MIR103B2 | MIR105-1 | MIR105-2 | MIR10527 | MIR106A | MIR106B | MIR107 | MIR10A | MIR10B | MIR11181 | MIR11400 | MIR11401 | MIR1178 | MIR1179 | MIR1180 | MIR1181 | MIR1182 | MIR1183 | MIR1184-1 | MIR1184-2 | MIR1184-3 | MIR1185-1 | MIR1185-2 | MIR1193 | MIR1197 | MIR1199 | MIR1200 | MIR1202 | MIR1203 | MIR1204 | MIR1205 | MIR1206 | MIR1207 | MIR1208 | MIR12129 | MIR12135 | MIR12136 | MIR122 | MIR1224 | MIR1225 | MIR1226 | MIR1227 | MIR1228 | MIR1229 | MIR1231 | MIR1233-1 | MIR1233-2 | MIR1234 | MIR1236 | MIR1237 | MIR1238 | MIR124-1 | MIR124-1HG | MIR124-2 | MIR124-2HG | MIR124-3 | MIR1243 | MIR1244-1 | MIR1244-2 | MIR1244-3 | MIR1245A | MIR1245B | MIR1246 | MIR1247 | MIR1248 | MIR1249 | MIR1250 | MIR1251 | MIR1252 | MIR1253 | MIR1254 | MIR1255A | MIR1255B1 | MIR1255B2 | MIR1256 | MIR1257 | MIR1258 | MIR125A | MIR125B1 | MIR125B2 | MIR126 | MIR1260A | MIR1260B | MIR1261 | MIR1262 | MIR1263 | MIR1264 | MIR1265 | MIR1266 | MIR1267 | MIR1268A | MIR1268B | MIR1269A | MIR1269B | MIR127 | MIR1270 | MIR1271