Target Name: TRAPPC11
NCBI ID: G60684
Review Report on TRAPPC11 Target / Biomarker Content of Review Report on TRAPPC11 Target / Biomarker
TRAPPC11
Other Name(s): trafficking protein particle complex 11 | Trafficking protein particle complex subunit 11, transcript variant 1 | Trafficking protein particle complex subunit 11, transcript variant 2 | LGMD2S | TRAPPC11 variant 1 | Trafficking protein particle complex subunit 11 (isoform a) | Foie gras homolog | Gryzun homolog | FOIGR | Trafficking protein particle complex subunit 11 | foie gras homolog | trafficking protein particle complex subunit 11 | Trafficking protein particle complex subunit 11 (isoform b) | gryzun homolog | LGMDR18 | GRY | TRAPPC11 variant 2 | TPC11_HUMAN | C4orf41

TRAPPC11: Unlocking The Secrets of Protein Trafficking

Trafficking Protein Particle Complex 11 (TRAPPC11) is a protein that is expressed in various tissues and cells in the human body. It is a member of the trafficking protein family, which includes proteins involved in the transport of proteins from the cytoplasm to various cellular structures. TRAPPC11 is unique because it is involved in the transport of a specific protein, called Trafficking Protein-5 (TAP-5), which is a key regulator of the actinin protein complex.

The actinin protein complex is a protein that is involved in many different cellular processes, including cell signaling, cytoskeletal organization, and cell-cell fusion. It is made up of several different proteins, including TAP-5, which is the protein that TRAPPC11 is responsible for transporting to the cytoplasm.

TRAPPC11 is able to transport TAP-5 to the cytoplasm because it has a unique structure that allows it to interact with the protein in a specific way. This interaction is important for TRAPPC11 to function properly, and is the focus of many research studies aimed at understanding the mechanisms of TRAPPC11.

One of the key features of TRAPPC11 is its ability to form a stable complex with TAP-5. This complex is formed when TRAPPC11 binds to the protein via its transmembrane domain, and this interaction is held together by ionic bonds. This stability is important for TRAPPC11 to transport TAP-5 to the cytoplasm, as it allows the protein to remain in a functional state long enough for it to perform its role in cell signaling.

Another unique feature of TRAPPC11 is its ability to regulate the levels of TAP-5 in the cell. This is done through a process called protein tyrosination, which involves the addition of a tyrosine molecule to the protein. TRAPPC11 has been shown to regulate the levels of TAP-5 via protein tyrosination, and this regulation is important for the function of the protein.

In addition to its role in regulating TAP-5 levels, TRAPPC11 is also involved in the regulation of many other cellular processes. For example, it has been shown to be involved in the regulation of cell adhesion, cell migration, and the production of vesicles in the endoplasmic reticulum.

Despite its importance for numerous cellular processes, TRAPPC11 is still not well understood. Many researchers are still investigating the mechanisms of TRAPPC11, and the precise role that this protein plays in the regulation of cellular processes.

In conclusion, Trafficking Protein Particle Complex 11 (TRAPPC11) is a unique protein that is involved in the regulation of various cellular processes. Its ability to form a stable complex with TAP-5 and its ability to regulate the levels of this protein are just two of the many ways in which TRAPPC11 contributes to cellular regulation. Further research is needed to fully understand the role of this protein in the regulation of cellular processes, and to identify potential drug targets or biomarkers that may be relevant to this research.

Protein Name: Trafficking Protein Particle Complex Subunit 11

Functions: Involved in endoplasmic reticulum to Golgi apparatus trafficking at a very early stage

The "TRAPPC11 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 TRAPPC11 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

TRAPPC12 | TRAPPC13 | TRAPPC14 | TRAPPC2 | TRAPPC2L | TRAPPC3 | TRAPPC3L | TRAPPC4 | TRAPPC5 | TRAPPC6A | TRAPPC6B | TRAPPC8 | TRAPPC9 | TRARG1 | TRAT1 | TRAV1-2 | TRAV10 | TRAV11 | TRAV12-1 | TRAV12-2 | TRAV13-2 | TRAV14DV4 | TRAV19 | TRAV2 | TRAV20 | TRAV21 | TRAV22 | TRAV24 | TRAV25 | TRAV26-1 | TRAV26-2 | TRAV27 | TRAV3 | TRAV34 | TRAV38-2DV8 | TRAV39 | TRAV4 | TRAV41 | TRAV8-1 | TRAV8-2 | TRAV8-3 | TRAV8-4 | TRAV8-6 | TRAV9-1 | TRBC1 | TRBC2 | TRBD1 | TRBD2 | TRBJ1-1 | TRBJ1-2 | TRBJ1-3 | TRBJ1-4 | TRBJ1-5 | TRBJ1-6 | TRBJ2-1 | TRBJ2-2 | TRBJ2-2P | TRBJ2-3 | TRBJ2-4 | TRBJ2-5 | TRBJ2-6 | TRBJ2-7 | TRBV10-1 | TRBV10-2 | TRBV10-3 | TRBV11-1 | TRBV11-2 | TRBV11-3 | TRBV12-3 | TRBV12-4 | TRBV12-5 | TRBV13 | TRBV14 | TRBV15 | TRBV16 | TRBV17 | TRBV18 | TRBV19 | TRBV2 | TRBV20-1 | TRBV21-1 | TRBV21OR9-2 | TRBV22-1 | TRBV23-1 | TRBV24-1 | TRBV25-1 | TRBV27 | TRBV28 | TRBV29-1 | TRBV3-1 | TRBV30 | TRBV4-1 | TRBV4-2 | TRBV4-3 | TRBV5-1 | TRBV5-2 | TRBV5-3 | TRBV5-4 | TRBV5-5 | TRBV5-6