MIR155HG: A Synthetic Peptide with Multiple Physiological Activities

MIR155HG: A Synthetic Peptide with Multiple Physiological Activities

MIR155HG, a synthetic peptide derived from the neurotransmitter glutamate, is a molecule with multiple physiological activities in organisms. It plays an important role in the nervous system and plays a key role in a variety of diseases. In recent years, scientists have conducted in-depth research on MIR155HG and discovered its potential as a drug target (or biomarker).

MIR155HG was originally discovered by researchers at the National Cancer Institute (NCI). While studying neuronal synapses, they discovered a molecule related to glutamate. After further research, they discovered that this molecule plays an important role in neuronal death and disease processes. Researchers then began exploring the molecule's potential as a drug target, or biomarker.

Currently, MIR155HG has been proven to have significant therapeutic effects in a variety of neurological diseases. For example, MIR155HG is used as a target for therapeutic drugs in diseases such as Alzheimer's disease, Parkinson's disease, and multiple sclerosis. By interacting with proteins associated with these diseases, MIR155HG can regulate neuronal growth, death, and synapse formation, thereby improving disease symptoms and therapeutic effects.

In addition to its application in disease treatment, MIR155HG is also widely used in the field of drug research and development. Because of its diverse biological activities, scientists consider it a potential drug target. By studying MIR155HG, researchers can better understand neuronal functions and disease mechanisms, providing a theoretical basis for the development of new drugs.

As an emerging biomarker, MIR155HG has broad application prospects in disease diagnosis and treatment. However, further experimental and clinical trials are needed to further investigate it as a drug target. In the future, with the continuous development of science and technology, MIR155HG is expected to bring more breakthroughs to medicine.

Protein Name: MIR155 Host Gene

More Common Targets

MIR1587 | MIR15A | MIR15B | MIR16-1 | MIR16-2 | MIR17 | MIR17HG | MIR181A1 | MIR181A1HG | MIR181A2 | MIR181A2HG | MIR181B1 | MIR181B2 | MIR181C | MIR181D | MIR182 | MIR1825 | MIR1827 | MIR183 | MIR184 | MIR185 | MIR186 | MIR187 | MIR188 | MIR18A | MIR18B | MIR1908 | MIR1909 | MIR190A | MIR190B | MIR191 | MIR1910 | MIR1911 | MIR1912 | MIR1913 | MIR1914 | MIR1915 | MIR1915HG | MIR192 | MIR193A | MIR193B | MIR193BHG | MIR194-1 | MIR194-2 | MIR194-2HG | MIR195 | MIR196A1 | MIR196A2 | MIR196B | MIR197 | MIR1972-1 | MIR1972-2 | MIR1973 | MIR1976 | MIR198 | MIR199A1 | MIR199A2 | MIR199B | MIR19A | MIR19B1 | MIR19B2 | MIR200A | MIR200B | MIR200C | MIR200CHG | MIR202 | MIR202HG | MIR203A | MIR203B | MIR204 | MIR205 | MIR2052 | MIR2052HG | MIR2053 | MIR2054 | MIR205HG | MIR206 | MIR208A | MIR208B | MIR20A | MIR20B | MIR21 | MIR210 | MIR210HG | MIR211 | MIR2110 | MIR2113 | MIR2114 | MIR2115 | MIR2116 | MIR2117 | MIR212 | MIR214 | MIR215 | MIR216A | MIR216B | MIR217 | MIR217HG | MIR218-1 | MIR218-2