Target Name: ZNF177
NCBI ID: G7730
Review Report on ZNF177 Target / Biomarker Content of Review Report on ZNF177 Target / Biomarker
ZNF177
Other Name(s): ZN177_HUMAN | Zinc finger protein 177 (isoform a) | Zinc finger protein 177 | Zinc finger protein 177, transcript variant 1 | zinc finger protein 177 | PIGX | ZNF177 variant 1

ZNF177: Key Regulator of Neural Development and Function

ZNF177 (ZN177_HUMAN), a protein encoded by the Zinc Finger N-Acceptor gene (ZNF1), is a key regulator of neural development and function. The ZNF177 gene has been implicated in a wide range of neurodevelopmental and psychiatric disorders, including epilepsy, schizophrenia, and autism. In recent years, researchers have also found that ZNF177 is involved in several diseases, including cancer.

The ZNF177 gene is a member of the ZNF family, which includes several genes that are involved in the regulation of neural development and function. These genes have been implicated in a wide range of neurodevelopmental and psychiatric disorders, including epilepsy, schizophrenia, and autism. The ZNF177 gene is specifically known for its role in the development and maintenance of neural stem cells, which are important for the development and maintenance of the nervous system.

One of the key functions of ZNF177 is its role in the regulation of neural stem cell proliferation. Neural stem cells are important for the development and maintenance of the nervous system, and they can be generated from a variety of sources, including the brain. Researchers have shown that ZNF177 plays a key role in the regulation of neural stem cell proliferation, by controlling the expression of genes that are involved in cell growth and differentiation.

In addition to its role in neural stem cell proliferation, ZNF177 is also involved in the regulation of neural stem cell survival. Neural stem cells are a type of cell that can self-renew and have the ability to differentiate into a variety of cell types in the nervous system. However, these stem cells are not immortal and are subject to a number of cellular processes that are involved in their survival. ZNF177 is involved in the regulation of these cellular processes, by controlling the expression of genes that are involved in cell survival and death.

ZNF177 is also involved in the regulation of neural network development and function. Neural networks are a type of cell that are responsible for transmitting information throughout the nervous system. Researchers have shown that ZNF177 plays a key role in the regulation of neural network development and function, by controlling the expression of genes that are involved in network formation and function.

In addition to its role in neural stem cell proliferation and network development, ZNF177 is also involved in the regulation of neural plasticity. Neural plasticity is the ability of the nervous system to change and adapt in response to new experiences or environments. ZNF177 is involved in the regulation of neural plasticity, by controlling the expression of genes that are involved in the formation and maintenance of new neural connections.

In conclusion, ZNF177 is a key regulator of neural development and function. Its role in the regulation of neural stem cell proliferation, survival, and network development and function, as well as its involvement in neural plasticity, make it an attractive target for drug development. Further research is needed to fully understand the role of ZNF177 in neurodevelopmental and psychiatric disorders, as well as its potential as a drug target.

Protein Name: Zinc Finger Protein 177

The "ZNF177 Target / Biomarker Review Report" is a customizable review of hundreds up to thousends of related scientific research literature by AI technology, covering specific information about ZNF177 comprehensively, including but not limited to:
•   general information;
•   protein structure and compound binding;
•   protein biological mechanisms;
•   its importance;
•   the target screening and validation;
•   expression level;
•   disease relevance;
•   drug resistance;
•   related combination drugs;
•   pharmacochemistry experiments;
•   related patent analysis;
•   advantages and risks of development, etc.
The report is helpful for project application, drug molecule design, research progress updates, publication of research papers, patent applications, etc. If you are interested to get a full version of this report, please feel free to contact us at BD@silexon.ai

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