Target Name: JAKMIP3
NCBI ID: G282973
Other Name(s): NECC2 | Neuroendocrine long coiled-coil 2 | OTTHUMP00000210418 | bA140A10.5 | JAKMIP3 variant 5 | FLJ37857 | Janus kinase and microtubule interacting protein 3 | Jamip3 | JKIP3_HUMAN | FLJ41432 | neuroendocrine long coiled-coil 2 | Janus kinase and microtubule-interacting protein 3 (isoform e) | Janus kinase and microtubule-interacting protein 3 | Janus kinase and microtubule interacting protein 3, transcript variant 5 | C10orf39 | neuroendocrine long coiled-coil protein 2 | Neuroendocrine long coiled-coil protein 2 | C10orf14

JAKMIP3: A Potential Drug Target Or Biomarker

JAKMIP3 (NECC2), a protein that belongs to the Janus kinase (JAK) family, is a key regulator of cell signaling pathways that play a crucial role in many physiological processes. The JAK family is a large family of non-protein kinases that are involved in cell signaling, including the regulation of cell growth, differentiation, and survival. JAKMIP3 is one of the members of the JAK family that has been identified as a potential drug target or biomarker.

The JAK family is characterized by the presence of a catalytic domain and a carboxylic acid residue, which is important for the formation of a covalent complex with a variety of ligands. The JAK family is involved in the regulation of many cellular processes, including cell growth , differentiation, and the regulation of cell survival. Many of these processes are regulated by the JAK kinase, which is a protein that consists of a catalytic domain and a carboxylic acid residue. The JAK kinase is involved in the regulation of many cellular processes, including cell growth, differentiation, and the regulation of cell survival.

JAKMIP3 is a protein that belongs to the JAK family and is involved in the regulation of many cellular processes. JAKMIP3 is a 12 kDa protein that is composed of 45 amino acid residues. It has a catalytic domain that is characterized by the presence of a zinc atom and a carboxylic acid residue. The catalytic domain is responsible for the catalytic activity of JAKMIP3 and is involved in the regulation of many cellular processes.

One of the key functions of JAKMIP3 is its role in the regulation of cell signaling pathways. JAKMIP3 is involved in the regulation of many cellular processes, including the regulation of cell growth, differentiation, and the regulation of cell survival. JAKMIP3 plays a crucial role in the regulation of cell signaling pathways by interacting with several different signaling pathways.

JAKMIP3 is involved in the regulation of the RAS/MAPK signaling pathway. This signaling pathway is involved in the regulation of cell growth, differentiation, and survival. JAKMIP3 is a key regulator of this pathway by interacting with the RAS protein, which is a protein that is involved in the regulation of cell signaling pathways.

JAKMIP3 is also involved in the regulation of the TGF-β signaling pathway. This signaling pathway is involved in the regulation of cell growth, differentiation, and survival. JAKMIP3 is a key regulator of this pathway by interacting with the TGF-β1 protein, which is a protein that is involved in the regulation of cell signaling pathways.

JAKMIP3 is also involved in the regulation of the NF-kappa-B signaling pathway. This signaling pathway is involved in the regulation of cell growth, differentiation, and survival. JAKMIP3 is a key regulator of this pathway by interacting with the NF-kappa-B protein, which is a protein that is involved in the regulation of cell signaling pathways.

JAKMIP3 is a protein that is involved in the regulation of many cellular processes. It is a key regulator of the RAS/MAPK, TGF-β1, and NF-kappa-B signaling pathways. These signaling pathways are involved in the regulation of cell growth, differentiation , and survival. As a result, JAKMIP3 is a potential drug target or biomarker for a variety of diseases.

In conclusion, JAKMIP3 is a protein that is involved in the regulation of many cellular processes. It is a key regulator of the RAS/MAPK, TGF-β1, and NF-kappa-B signaling pathways. These signaling pathways are involved in the regulation of cell growth, differentiation, and survival. As a result, JAKMIP3 is a potential drug target or biomarker for a variety of diseases. Further research is needed to fully understand the role of JAKMIP3 in the regulation of cellular processes and its potential as a drug.

Protein Name: Janus Kinase And Microtubule Interacting Protein 3

More Common Targets

JAM2 | JAM3 | JAML | Janus Kinase | JARID2 | JAZF1 | JAZF1-AS1 | JCAD | JDP2 | JHY | JKAMP | JMJD1C | JMJD1C-AS1 | JMJD4 | JMJD6 | JMJD7 | JMJD7-PLA2G4B | JMJD8 | JMY | JOSD1 | JOSD2 | JPH1 | JPH2 | JPH3 | JPH4 | JPT1 | JPT2 | JPX | JRK | JRKL | JSRP1 | JTB | JUN | JUNB | JUND | JUP | K(ATP) Channel | KAAG1 | Kainate Receptor (GluR) | Kallikrein | KALRN | KANK1 | KANK2 | KANK3 | KANK4 | KANSL1 | KANSL1-AS1 | KANSL1L | KANSL2 | KANSL3 | KANTR | KARS1 | KARS1P1 | KARS1P2 | KASH5 | KAT14 | KAT2A | KAT2B | KAT5 | KAT6A | KAT6A-AS1 | KAT6B | KAT7 | KAT8 | Katanin Complex | KATNA1 | KATNAL1 | KATNAL2 | KATNB1 | KATNBL1 | KATNBL1P6 | KATNIP | KAZALD1 | KAZN | KAZN-AS1 | KBTBD11 | KBTBD12 | KBTBD13 | KBTBD2 | KBTBD3 | KBTBD4 | KBTBD6 | KBTBD7 | KBTBD8 | KC6 | KCMF1 | KCNA1 | KCNA10 | KCNA2 | KCNA3 | KCNA4 | KCNA5 | KCNA6 | KCNA7 | KCNAB1 | KCNAB2 | KCNAB3 | KCNB1 | KCNB2 | KCNC1