Target Name: RNPC3
NCBI ID: G55599
Other Name(s): RNPC3_HUMAN | U11/U12 snRNP 65K | SNRNP65 | CPHD7 | IGHD5 | RNP | U11/U12 snRNP 65 kDa protein | RNA recognition protein | RNA-binding motif protein 40 | RNA-binding region-containing protein 3 | U11/U12 small nuclear ribonucleoprotein 65 kDa protein | RBM40 | RNA binding region (RNP1, RRM) containing 3 | U11/U12-65K | RNA-binding protein 40

RNA-Protein Interactions: Regulation of Cellular Processes

RNA-protein interactions are a crucial aspect of gene regulation and have been implicated in numerous diseases including cancer. One such interaction that has gained attention in recent years is the RNA-protein interaction between the regulator of nuclear poly (A) RNA (RNA-protein interaction) (RNA-protein) complex (RNA-protein interactions) and the human health (pathology).

The RNA-protein interaction is a complex process that involves the regulation of gene expression by RNA and protein interactions. The RNA-protein interactions play a vital role in the regulation of cellular processes, including cell growth, apoptosis, and transcriptional regulation.

One of the key proteins involved in the RNA-protein interaction is the RNA-protein regulator, known as RNPC3. RNPC3 is a protein that was identified as a potential drug target in cancer due to its involvement in the regulation of nuclear poly (A) RNA (RNA-protein interaction) (RNA-protein interactions) complex.

RNA-protein interactions are a crucial aspect of gene regulation and have been implicated in numerous diseases including cancer.

RNA-protein interactions are regulated by a variety of factors, including the structure of the RNA and the protein, the localization of the RNA and the protein, and the strength of the interaction.

One of the key proteins involved in the RNA-protein interaction is the RNA-protein regulator, known as RNPC3. RNPC3 is a protein that was identified as a potential drug target in cancer due to its involvement in the regulation of nuclear poly (A) RNA (RNA-protein interaction) (RNA-protein interactions) complex.

RNA-protein interactions play a vital role in the regulation of cellular processes, including cell growth, apoptosis, and transcriptional regulation. The RNA-protein interactions are regulated by a variety of factors, including the structure of the RNA and the protein, the localization of the RNA and the protein, and the strength of the interaction.

One of the key factors that influence the RNA-protein interaction is the structure of the RNA. The structure of the RNA determines the conformation of the RNA and the stability of the interaction. For example, if the RNA has a specific structure, it may be more stable and more likely to interact with a specific protein.

The structure of the protein is also an important factor in the RNA-protein interaction. The protein can interact with the RNA through various domains, such as the catalytic domain, the transmembrane domain, or the cytoplasmic domain. The specific domain of the protein can affect the strength and specificity of the interaction.

The localization of the RNA and the protein is also an important factor in the RNA-protein interaction. The RNA and the protein can be located in different cellular compartments, such as the cytoplasm, the nucleus, or the endoplasmic reticulum. The localization of the RNA and the protein can affect the strength and specificity of the interaction.

The strength of the RNA-protein interaction is determined by the strength of the interaction between the specific amino acids on the RNA and the specific amino acids on the protein. The strength of the interaction can be influenced by various factors, including the localization of the RNA and the protein, the structure of the RNA and the protein, and the expression level of the RNA and the protein.

In conclusion, RNA-protein interactions play a crucial role in the regulation of cellular processes, including cell growth, apoptosis, and transcriptional regulation. The RNA-protein interactions are regulated by a variety of factors, including the structure of the RNA and the protein, the localization of the RNA and the protein, and the strength of the interaction.

The RNA-protein regulator, known as RNPC3, is a protein that was identified as a potential drug target in cancer due to its involvement in the regulation of nuclear poly (A) RNA (RNA-protein interaction) (RNA-protein interactions) complex.

More studies are needed to fully understand the role of RNPC3 in the regulation of cellular processes and the potential implications of targeting this protein as a drug.

Protein Name: RNA Binding Region (RNP1, RRM) Containing 3

Functions: Participates in pre-mRNA U12-dependent splicing, performed by the minor spliceosome which removes U12-type introns. U12-type introns comprises less than 1% of all non-coding sequences. Binds to the 3'-stem-loop of m(7)G-capped U12 snRNA

More Common Targets

RNPC3-DT | RNPEP | RNPEPL1 | RNPS1 | RNPS1P1 | RNR1 | RNR2 | RNU1-1 | RNU1-100P | RNU1-108P | RNU1-11P | RNU1-134P | RNU1-18P | RNU1-3 | RNU1-31P | RNU1-32P | RNU1-36P | RNU1-38P | RNU1-4 | RNU1-42P | RNU1-55P | RNU1-61P | RNU1-63P | RNU1-72P | RNU1-73P | RNU1-78P | RNU1-7P | RNU1-82P | RNU1-88P | RNU105B | RNU11 | RNU12 | RNU2-1 | RNU2-17P | RNU2-2P | RNU2-4P | RNU2-54P | RNU2-5P | RNU2-6P | RNU4-1 | RNU4-14P | RNU4-2 | RNU4-30P | RNU4-33P | RNU4-38P | RNU4-39P | RNU4-46P | RNU4-53P | RNU4-62P | RNU4-6P | RNU4-76P | RNU4-82P | RNU4-87P | RNU4-91P | RNU4-9P | RNU4ATAC | RNU4ATAC11P | RNU4ATAC18P | RNU5A-1 | RNU5A-4P | RNU5A-8P | RNU5B-1 | RNU5B-4P | RNU5D-1 | RNU5E-1 | RNU5E-6P | RNU5F-1 | RNU6-1 | RNU6-1003P | RNU6-1004P | RNU6-1052P | RNU6-1054P | RNU6-1067P | RNU6-1076P | RNU6-1086P | RNU6-1092P | RNU6-1100P | RNU6-1105P | RNU6-1111P | RNU6-1118P | RNU6-1120P | RNU6-1133P | RNU6-1139P | RNU6-1141P | RNU6-1149P | RNU6-1162P | RNU6-1172P | RNU6-1176P | RNU6-1177P | RNU6-1181P | RNU6-1187P | RNU6-1189P | RNU6-1199P | RNU6-1217P | RNU6-1225P | RNU6-1228P | RNU6-1230P | RNU6-1241P | RNU6-1263P | RNU6-1264P