Target Name: EVC
NCBI ID: G2121
Review Report on EVC Target / Biomarker Content of Review Report on EVC Target / Biomarker
EVC
Other Name(s): EvC ciliary complex subunit 1 | EVC_HUMAN | EVC variant 1 | EvC complex member EVC (isoform 2) | Ellis van Creveld protein | Ellis van Creveld syndrome protein | Ellis-van Creveld syndrome protein | Ellis van Creveld syndrome | EvC complex member EVC (isoform 1) | EVC1 | EvC complex member EVC | EvC ciliary complex subunit 1, transcript variant 1 | EVCL | EvC ciliary complex subunit 1, transcript variant 2 | DWF-1 | MGC105107 | chromosome alignment-maintaining phosphoprotein 1-like | EVC variant 2

The EvC Cili: Complex Protein Subunits and Their Role in Cellular Movement

The evolution of the genetic code has resulted in an incredible diversity of life forms on Earth. One of the most fascinating aspects of this diversity is the emergence of complex biological systems, such as the EvC ciliary complex subunit 1 (EPC1), which plays a crucial role in the function of the cili (also known as flagella or flagellum), the protein responsible for movement in many organisms. The EvC ciliary complex subunit 1 gene has been identified as a potential drug target and biomarker, which may offer new insights into the biology of this complex system and its potential applications in medicine.

Composition and Functions of the EvC Cili

The EvC cili are a type of protein that forms the basis of the flagellum in many eukaryotic organisms, including humans. The flagellum is a long, thread-like structure that is responsible for the movement of cells, allowing them to move through various body spaces and carry out various functions. The EvC cili are a key component of this structure, as they provide the protein components that make up the flagellum.

The EvC cili consist of several subunits, each of which has a distinct function in the structure and function of the flagellum. The first subunit is known as EvC ciliary complex subunit 1 (EPC1), which is a protein that is responsible for the overall structure and function of the EvC cili. This subunit is made up of several hundred amino acids and is located at the center of the EvC cili.

The second subunit is known as EvC cili complex subunit 2 (EPC2), which is also located at the center of the EvC cili. It is responsible for the formation of the base-pair structure that connects the two subunits of the EvC cili.

The third subunit is known as EvC cili complex subunit 3 (EPC3), which is located on the outside of the EvC cili. It is responsible for the formation of the base-pair structure that connects the two subunits of the EvC cili.

The fourth subunit is known as EvC cili complex subunit 4 (EPC4), which is located on the inside of the EvC cili. It is responsible for the formation of the base-pair structure that connects the two subunits of the EvC cili.

The Role of the EvC cili in Cellular Movement

The EvC cili play a crucial role in the movement of cells. They form the basis of the flagellum, which is responsible for the rotation and movement of the cell. The rotation of the flagellum is achieved through the interaction between the different subunits of the EvC cili.

The first subunit of the EvC cili, EPC1, is responsible for the overall structure and function of the cili. It is the protein that forms the basis of the flagellum and is responsible for the rotation and movement of the cell.

The second subunit of the EvC cili, EPC2, is responsible for the formation of the base-pair structure that connects the two subunits of the EvC cili. This structure is essential for the rotation of the flagellum.

The third subunit of the EvC cili, EPC3, is responsible for the formation of the base-pair structure that connects the two subunits of the EvC cili. This structure is essential for the rotation of the flagellum.

The fourth subunit of the EvC cili, EPC4, is responsible for the formation of the base-pair structure that connects the two subunits of the EvC cili. This structure is essential for the rotation of the flagellum.

The Potential Applications of the EvC cili as a Drug Target or Biomarker

The EvC cili have

Protein Name: EvC Ciliary Complex Subunit 1

Functions: Component of the EvC complex that positively regulates ciliary Hedgehog (Hh) signaling. Involved in endochondral growth and skeletal development

The "EVC 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 EVC 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

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EVC2 | EVI2A | EVI2B | EVI5 | EVI5L | EVL | EVPL | EVPLL | EVX1 | EVX1-AS | EVX2 | EWSAT1 | EWSR1 | EXD1 | EXD2 | EXD3 | EXO1 | EXO5 | EXOC1 | EXOC1L | EXOC2 | EXOC3 | EXOC3-AS1 | EXOC3L1 | EXOC3L2 | EXOC3L4 | EXOC4 | EXOC5 | EXOC5P1 | EXOC6 | EXOC6B | EXOC7 | EXOC8 | Exocyst complex | EXOG | EXOGP1 | Exon junction complex | EXOSC1 | EXOSC10 | EXOSC10-AS1 | EXOSC2 | EXOSC3 | EXOSC4 | EXOSC5 | EXOSC6 | EXOSC7 | EXOSC8 | EXOSC9 | Exosome Complex | EXPH5 | EXT1 | EXT2 | EXTL1 | EXTL2 | EXTL2P1 | EXTL3 | EXTL3-AS1 | EYA1 | EYA2 | EYA3 | EYA4 | EYS | EZH1 | EZH2 | EZHIP | EZR | F10 | F11 | F11-AS1 | F11R | F12 | F13A1 | F13B | F2 | F2R | F2RL1 | F2RL2 | F2RL3 | F3 | F5 | F7 | F8 | F8A1 | F8A2 | F8A3 | F9 | FA2H | FAAH | FAAH2 | FAAHP1 | FAAP100 | FAAP20 | FAAP24 | FABP1 | FABP12 | FABP2 | FABP3 | FABP4 | FABP5 | FABP5P1