HSPA5-NT Gene Functions and Significance in Diseases (G107987127)

HSPA5-NT Gene Functions and Significance in Diseases

Human sulfated homotropic DNA polymerase type 5 (HSPA5-NT) is a gene that plays a key role in eukaryotic cells. HSPA5-NT is a transcription factor involved in regulating gene expression and DNA replication. In recent years, researchers have discovered that HSPA5-NT plays an important role in many diseases, including cancer, neurodegenerative diseases, and autoimmune diseases.

Function and structure of HSPA5-NT gene

The HSPA5-NT gene belongs to the 1p36.1 region of eukaryotic chromosomes. The gene consists of 199 nucleotides, and its coding region contains a transcription factor binding domain (TBD) and a core transcription factor binding domain (CTB). TBD is the site where the HSPA5-NT gene binds to RNA polymerase, and CTB is the transcription start point of the HSPA5-NT gene.

The relationship between abnormal expression of HSPA5-NT gene and disease

Many diseases are related to abnormal expression of HSPA5-NT gene. For example, overexpression of the HSPA5-NT gene is associated with the occurrence of many cancers, including lung cancer, liver cancer, breast cancer, and kidney cancer. In addition, abnormal expression of the HSPA5-NT gene is also related to neurodegenerative diseases, such as Parkinson's disease, Alzheimer's disease and multiple sclerosis.

Drug screening and therapeutic targets of HSPA5-NT gene

Because the HSPA5-NT gene is abnormally expressed in many diseases, it is considered a potential drug target. To screen drug therapeutic targets for the HSPA5-NT gene, the researchers used a series of methods, including gene knockout, overexpression, and protein binding experiments. These experiments indicate that overexpression of the HSPA5-NT gene is associated with a variety of diseases, and therefore the HSPA5-NT gene may become a potential drug target.

Biological functions of HSPA5-NT gene

The HSPA5-NT gene has multiple functions in cell biology. For example, the HSPA5-NT gene can bind to RNA polymerase and promote gene expression. In addition, the HSPA5-NT gene can also bind DNA polymerase and participate in DNA replication. In the case of overexpression of the HSPA5-NT gene, these functions may be affected, leading to the role of the HSPA5-NT gene in disease.

Pathological significance of HSPA5-NT gene

Overexpression of the HSPA5-NT gene is associated with many diseases. For example, overexpression of the HSPA5-NT gene is associated with the occurrence of cancers such as lung cancer, liver cancer, breast cancer, and kidney cancer. In addition, overexpression of the HSPA5-NT gene is also associated with neurodegenerative diseases, such as Parkinson's disease, Alzheimer's disease, and multiple sclerosis.

in conclusion

The HSPA5-NT gene plays an important role in many diseases and is therefore considered a potential drug target. By using a series of methods, including gene knockout, overexpression and protein binding experiments, drug therapeutic targets of the HSPA5-NT gene can be screened. In the future, researchers will continue to study the role of the HSPA5-NT gene in disease and look for an effective drug to treat many diseases.

Protein Name: HSPA5 Divergent Transcript

The "HSPA5-DT 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 HSPA5-DT 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

More Common Targets

HSPA5P1 | HSPA6 | HSPA7 | HSPA8 | HSPA8P1 | HSPA8P19 | HSPA9 | HSPA9P1 | HSPB1 | HSPB11 | HSPB2 | HSPB2-C11orf52 | HSPB3 | HSPB6 | HSPB7 | HSPB8 | HSPB9 | HSPBAP1 | HSPBP1 | HSPC102 | HSPC324 | HSPD1 | HSPD1P11 | HSPD1P2 | HSPD1P3 | HSPD1P5 | HSPD1P8 | HSPD1P9 | HSPE1 | HSPE1-MOB4 | HSPE1P8 | HSPG2 | HSPH1 | HTATIP2 | HTATSF1 | HTATSF1P2 | HTD2 | HTN1 | HTN3 | HTR1A | HTR1D | HTR1E | HTR1F | HTR2A | HTR2A-AS1 | HTR2B | HTR2C | HTR3A | HTR3B | HTR3C | HTR3D | HTR3E | HTR3E-AS1 | HTR4 | HTR5A | HTR5A-AS1 | HTR5BP | HTR6 | HTR7 | HTR7P1 | HTRA1 | HTRA2 | HTRA3 | HTRA4 | HTT | HTT-AS | HULC | Human chorionic gonadotropin | HUNK | HUS1 | HUS1B | HUWE1 | HVCN1 | HYAL1 | HYAL2 | HYAL3 | HYAL4 | HYAL6P | Hyaluronidase | HYCC1 | HYCC2 | HYDIN | HYI | HYKK | HYLS1 | HYMAI | HYOU1 | HYPK | Hypoxia inducible factor (HIF) | Hypoxia-Inducible Factor Prolyl Hydroxylase | I-kappa-B-kinase (IKK) complex | IAH1 | IAPP | IARS1 | IARS2 | IATPR | IBA57 | IBA57-DT | IBSP | IBTK