Target Name: AFAP1
NCBI ID: G60312
Other Name(s): AFAP-110 | AFAP110 | Actin filament associated protein 1, transcript variant A | Actin filament-associated protein, 110 kDa | AFAP | actin filament associated protein 1 | AFAP1_HUMAN | AFAP1 variant A | actin filament-associated protein, 110 kDa | Actin filament-associated protein 1 | Actin filament-associated protein 1 (isoform A) | 110 kDa actin filament-associated protein

Key Regulator of Liver-specific Transcription Factor, NF-C2

Afap1 (AFAP-110) is a protein that is expressed in the liver and other tissues of the body. It is a member of the adaptor protein family, which plays a critical role in the transfer of genetic information from the DNA to the cytosol. The liver is one of the most important organs for the production and storage of proteins, and AFAP1 is involved in the regulation of various cellular processes that are essential for the survival and function of the liver.

The Importance of AFAP1

AFAP1 is a key regulator of the liver-specific transcription factor, NF-C2. This transcription factor is responsible for ensuring the expression of genes that are essential for the development and maintenance of the liver, as well as for regulating the entry of foreign particles into the liver. AFAP1 helps to ensure that the NF-C2 transcription factor is activated and that the genes it controls are expressed in the liver, which is critical for the development and function of the organ.

AFAP1 is also involved in the regulation of the expression of genes involved in cell signaling pathways that are critical for the survival and function of the liver. For example, AFAP1 has been shown to be involved in the regulation of the expression of genes involved in the production of bile acids, which are essential for the digestion and absorption of fat in the body.

An Overview of AFAP1's Structure and Function

The structure of AFAP1 is highly conserved across different species, and it is characterized by a conserved N-terminus and a conserved C-terminus. The N-terminus of AFAP1 is a 尾-sheet that is composed of three尾-strands, while the C-terminus is a 纬-phosphorylated cysteine residue.

AFAP1 is a protein that is expressed in a variety of tissues and organs, including the liver, heart, and pancreas. It is primarily expressed in the liver, where it is involved in the regulation of cellular processes that are critical for the development and maintenance of the organ.

The Role of AFAP1 in the Development and Maintenance of the Liver

AFAP1 is involved in the development and maintenance of the liver, which is a critical organ for the production and storage of proteins. The liver is responsible for filtering the blood, removing harmful substances from the body, and synthesizing a variety of proteins that are essential for the survival and function of the body.

AFAP1 is involved in the regulation of the expression of genes that are essential for the development and maintenance of the liver. For example, it has been shown to be involved in the regulation of the expression of genes involved in the production of bile acids, which are essential for the digestion and absorption of fat in the body.

AFAP1 is also involved in the regulation of the expression of genes involved in cell signaling pathways that are critical for the survival and function of the liver. For example, it has been shown to be involved in the regulation of the expression of genes involved in the production of collagen, a protein that is involved in the structure and function of many tissues and organs in the body.

The Potential Role of AFAP1 as a Drug Target

The potential use of AFAP1 as a drug target is an exciting area of research, as it is involved in the regulation of various cellular processes that are critical for the survival and function of the body. AFAP1 is an attractive target for drugs that are designed to promote the growth and development of tissues and organs, as well as to treat a variety of diseases.

One of the key advantages of AFAP1 as a drug target is its involvement in the regulation of cellular processes that are critical for the development and maintenance of the liver. The liver is a critical organ for the production and storage of proteins, and drugs that are able to promote the growth and development of the liver could be effective in treating a variety of diseases.

Another advantage of AFAP1 as a drug target is its involvement in the regulation of cell signaling pathways that are critical for the survival and function of the body. Many diseases are caused by the disruption of

Protein Name: Actin Filament Associated Protein 1

Functions: Can cross-link actin filaments into both network and bundle structures (By similarity). May modulate changes in actin filament integrity and induce lamellipodia formation. May function as an adapter molecule that links other proteins, such as SRC and PKC to the actin cytoskeleton. Seems to play a role in the development and progression of prostate adenocarcinoma by regulating cell-matrix adhesions and migration in the cancer cells

More Common Targets

AFAP1-AS1 | AFAP1L1 | AFAP1L2 | AFDN | AFDN-DT | AFF1 | AFF1-AS1 | AFF2 | AFF3 | AFF4 | AFG1L | AFG3L1P | AFG3L2 | AFG3L2P1 | AFM | AFMID | AFP | AFTPH | AGA | AGA-DT | AGAP1 | AGAP1-IT1 | AGAP10P | AGAP11 | AGAP12P | AGAP14P | AGAP2 | AGAP2-AS1 | AGAP3 | AGAP4 | AGAP5 | AGAP6 | AGAP7P | AGAP9 | AGBL1 | AGBL2 | AGBL3 | AGBL4 | AGBL5 | AGER | AGFG1 | AGFG2 | AGGF1 | Aggrecanase | AGK | AGKP1 | AGL | AGMAT | AGMO | AGO1 | AGO2 | AGO3 | AGO4 | AGPAT1 | AGPAT2 | AGPAT3 | AGPAT4 | AGPAT4-IT1 | AGPAT5 | AGPS | AGR2 | AGR3 | AGRN | AGRP | AGS-16 | AGT | AGTPBP1 | AGTR1 | AGTR2 | AGTRAP | AGXT | AGXT2 | AHCTF1 | AHCTF1P1 | AHCY | AHCYL1 | AHCYL2 | AHCYP1 | AHCYP2 | AHDC1 | AHI1 | AHI1-DT | AHNAK | AHNAK2 | AHR | AHRR | AHSA1 | AHSA2P | AHSG | AHSP | AICDA | AIDA | AIDAP1 | AIF1 | AIF1L | AIFM1 | AIFM2 | AIFM3 | AIG1 | AIM2