Target Name: ZNF235
NCBI ID: G9310
Other Name(s): Zinc finger protein 93 homolog | ZFP93 | HZF6 | zinc finger protein 93 homolog | ZNF270 | Zfp-93 | zinc finger protein 6 | zinc finger protein homologous to mouse Zfp93 | zinc finger protein homologous to Zfp93 in mouse | Zinc finger protein HZF6 | zinc finger protein 270 | ZN235_HUMAN | Zinc finger protein 270 | zinc finger protein HZF6 | zfp-93 | ANF270 | zinc finger protein 235 | Zinc finger protein 235

ZNF235: A Potential Drug Target and Biomarker for many diseases

Zinc finger proteins (ZFPs) are a family of gene chaperones that play important roles in many biological processes. They play key roles in cell proliferation, differentiation, and tumor formation. ZNF235 is a member of this family. What role does it play in the body? What role does it play in drug development and disease diagnosis?

The role of ZNF235 in organisms is mainly reflected in regulating gene expression. By binding to DNA, ZNF235 can affect gene expression and translation. Research shows that ZNF235 plays an important role in a variety of cancers, such as liver cancer, breast cancer, kidney cancer, etc. In addition, ZNF235 is also closely related to a variety of neurological diseases, endocrine system diseases and immunological diseases.

So, can ZNF235 become a drug target? The answer is yes. By targeting ZNF235, it can inhibit its promotion of gene expression, thereby achieving the purpose of treating tumors and other diseases. Although no specific ZNF235 drug has yet been released, researchers have conducted extensive research on the drug target properties of ZNF235 and discovered multiple drug targets that may be related to it. These targets include proteins, nucleic acids, and metabolites that interact with ZNF235.

In addition, ZNF235 can also be used as a potential disease diagnostic indicator. By detecting the content of ZNF235 in the blood, it can be determined whether the patient suffers from a certain disease. Although there is currently no clinical detection method for ZNF235, the researchers studied the expression of ZNF235 in tumor tissue, blood and urine and discovered the expression of ZNF235 in these samples. These results lay the foundation for the development of disease diagnostic methods for ZNF235.

In summary, ZNF235, as an important biomolecule, has broad application prospects in drug development and disease diagnosis. With the continuous development of science and technology, more research will be carried out in the future to reveal the mechanism of ZNF235 in vivo and bring more benefits to human health.

Protein Name: Zinc Finger Protein 235

Functions: May be involved in transcriptional regulation

More Common Targets

ZNF236 | ZNF236-DT | ZNF239 | ZNF24 | ZNF248 | ZNF25 | ZNF250 | ZNF251 | ZNF252P | ZNF252P-AS1 | ZNF253 | ZNF254 | ZNF256 | ZNF257 | ZNF26 | ZNF260 | ZNF263 | ZNF264 | ZNF266 | ZNF267 | ZNF268 | ZNF271P | ZNF273 | ZNF274 | ZNF275 | ZNF276 | ZNF277 | ZNF28 | ZNF280A | ZNF280B | ZNF280C | ZNF280D | ZNF281 | ZNF282 | ZNF283 | ZNF284 | ZNF285 | ZNF285CP | ZNF286A | ZNF286B | ZNF287 | ZNF292 | ZNF295-AS1 | ZNF296 | ZNF3 | ZNF30 | ZNF300 | ZNF300P1 | ZNF302 | ZNF304 | ZNF311 | ZNF316 | ZNF317 | ZNF318 | ZNF319 | ZNF32 | ZNF32-AS1 | ZNF32-AS2 | ZNF32-AS3 | ZNF320 | ZNF321P | ZNF322 | ZNF322P1 | ZNF324 | ZNF324B | ZNF326 | ZNF329 | ZNF330 | ZNF331 | ZNF333 | ZNF334 | ZNF335 | ZNF337 | ZNF33A | ZNF33B | ZNF33BP1 | ZNF34 | ZNF341 | ZNF341-AS1 | ZNF343 | ZNF345 | ZNF346 | ZNF347 | ZNF35 | ZNF350 | ZNF350-AS1 | ZNF354A | ZNF354B | ZNF354C | ZNF355P | ZNF358 | ZNF362 | ZNF365 | ZNF366 | ZNF367 | ZNF37A | ZNF37BP | ZNF382 | ZNF383 | ZNF384