FCF1: A Protein Regulator of Gene Expression and Potential Drug Target
FCF1: A Protein Regulator of Gene Expression and Potential Drug Target
FCF1 (Fe-Chloro-Ferrous Compound 1) is a protein that is expressed in various tissues and cells of the human body. It is a key regulator of gene expression and has been shown to play a role in the development and progression of various diseases , including cancer. In recent years, FCF1 has also been identified as a potential drug target and biomarker.
FCF1 is a small protein that is composed of 21 amino acid residues. It has a characteristic feature known as a \"split\" in its amino acid sequence, which is located at its N-terminus. The split allows FCF1 to form a stable complex with the nucleotide GDP and the protein factors that regulate gene expression, such as the transcription factors RNA polymerase II and coregulator T-DNA binding protein (CBFBP).
FCF1 has been shown to play a role in the regulation of gene expression and in the development of various diseases. For example, FCF1 has been shown to be involved in the regulation of cell proliferation and has been linked to the development of cancer. Additionally, FCF1 has been shown to play a role in the regulation of cellular differentiation and has been linked to the development of neurodegenerative diseases.
In addition to its role in gene regulation, FCF1 has also been shown to be a potential drug target and biomarker. The FCF1-GFP fusion protein has been shown to be a highly potent inhibitor of cancer cell growth and has been shown to be effective in preclinical studies in the treatment of various cancers. Additionally, FCF1 has been shown to be a good biomarker for monitoring the efficacy of cancer therapies.
FCF1 has also been shown to play a role in the regulation of cellular signaling pathways, including the TGF-β pathway. This pathway is involved in the regulation of cell growth, differentiation, and survival and has been implicated in a wide range of diseases, including cancer. FCF1 has been shown to be involved in the regulation of TGF-β signaling and has been linked to the development of various diseases.
In conclusion, FCF1 is a protein that has been shown to play a role in the regulation of gene expression and in the development of various diseases. Its unique structure and function as a regulator of nucleotide-protein interactions makes it a potential drug target and biomarker . Further research is needed to fully understand the role of FCF1 in disease development and to develop effective treatments.
Protein Name: FCF1 RRNA-processing Protein
Functions: Part of the small subunit (SSU) processome, first precursor of the small eukaryotic ribosomal subunit. During the assembly of the SSU processome in the nucleolus, many ribosome biogenesis factors, an RNA chaperone and ribosomal proteins associate with the nascent pre-rRNA and work in concert to generate RNA folding, modifications, rearrangements and cleavage as well as targeted degradation of pre-ribosomal RNA by the RNA exosome
More Common Targets
FCF1P11 | FCF1P2 | FCF1P5 | FCGBP | FCGR1A | FCGR1BP | FCGR1CP | FCGR2A | FCGR2B | FCGR2C | FCGR3A | FCGR3B | FCGRT | FCHO1 | FCHO2 | FCHSD1 | FCHSD2 | FCMR | FCN1 | FCN2 | FCN3 | FCRL1 | FCRL2 | FCRL3 | FCRL4 | FCRL5 | FCRL6 | FCRLA | FCRLB | FCSK | FDCSP | FDFT1 | FDPS | FDPSP2 | FDPSP4 | FDPSP5 | FDPSP6 | FDPSP7 | FDX1 | FDX2 | FDXACB1 | FDXR | FECH | FEM1A | FEM1AP4 | FEM1B | FEM1C | FEN1 | FENDRR | FER | FER1L4 | FER1L5 | FER1L6 | FER1L6-AS1 | FER1L6-AS2 | FERD3L | FERMT1 | FERMT2 | FERMT3 | Ferritin | FES | Fetal Hemoglobin (HbF) | FETUB | FEV | FEZ1 | FEZ2 | FEZF1 | FEZF1-AS1 | FEZF2 | FFAR1 | FFAR2 | FFAR3 | FFAR4 | FGA | FGB | FGD1 | FGD2 | FGD3 | FGD4 | FGD5 | FGD5-AS1 | FGD5P1 | FGD6 | FGF1 | FGF10 | FGF10-AS1 | FGF11 | FGF12 | FGF12-AS2 | FGF13 | FGF13-AS1 | FGF14 | FGF14-AS1 | FGF14-AS2 | FGF14-IT1 | FGF16 | FGF17 | FGF18 | FGF19 | FGF2
