Regulation of Protein Synthesis in EIF1AY (G9086)

Regulation of Protein Synthesis in EIF1AY

EIF1AY, also known as eIF-1A yiorme, is a protein that is expressed in the endoplasmic reticulum (ER) and is involved in various cellular processes. One of its functions is to regulate the amount of protein synthesis in the cell, which is essential for cell growth and survival. Unfortunately, EIF1AY has also been identified as a potential drug target and has been shown to play a role in the development of various diseases, including cancer.

The EIF1AY protein is composed of 115 amino acid residues and has a calculated molecular weight of 13.9 kDa. It is expressed in the ER and is predominantly localized to the endoplasmic reticulum, with a minor presence in the cytoplasm. EIF1AY is a transcription factor that has has been shown to play a role in the regulation of protein synthesis in various cell types.

One of the most significant functions of EIF1AY is its role in the regulation of protein synthesis in the ER. The ER is a organelle that plays a crucial role in the synthesis and folding of proteins. The ER is composed of a network of transmembrane domains, which include ATP-binding sites, calcium-binding sites, and sites for protein-protein interactions. EIF1AY is known to regulate the amount of protein synthesis in the ER by binding to specific DNA sequences in the ER.

EIF1AY has been shown to play a role in the regulation of protein synthesis by binding to specific DNA sequences in the ER. One of the most well-studied functions of EIF1AY is its role in the regulation of the translation of mRNAs from the ER to the cytoplasm. In this process, EIF1AY has been shown to interact with the protein factors known as TRF2 and TAF16, which are involved in the translation of mRNAs from the ER to the cytoplasm. By interacting with these factors, EIF1AY has been shown to regulate the amount of protein synthesis in the ER and to ensure that only the necessary amount of protein is synthesized.

In addition to its role in regulating protein synthesis in the ER, EIF1AY has also been shown to play a role in the regulation of protein degradation in the ER. The ER is involved in the degradation of damaged or unnecessary proteins, and EIF1AY is known to play a role in this process by binding to specific DNA sequences in the ER.

EIF1AY has also been shown to play a role in the regulation of protein synthesis in the nuclei of various cell types. In the nucleus, EIF1AY is known to interact with the protein factors known as histone modifications, which are involved in the regulation of gene expression . By interacting with these factors, EIF1AY has been shown to regulate the amount of protein synthesis in the nucleus and to ensure that only the necessary amount of protein is synthesized.

EIF1AY has also been shown to play a role in the regulation of protein synthesis in the endoplasmic reticulum. In this process, EIF1AY is known to interact with the protein factors known as JNX1 and cullin-3, which are involved in the regulation of protein synthesis in the endoplasmic reticulum. By interacting with these factors, EIF1AY has been shown to regulate the amount of protein synthesis in the endoplasmic reticulum and to ensure that only the necessary amount of protein is synthesized.

In conclusion, EIF1AY is a protein that is involved in various cellular processes, including the regulation of protein synthesis in the ER, the nucleus, and the endoplasmic reticulum. Its functions as a transcription factor and its potential as a drug target make it an attractive target for research in various diseases, including cancer. Further research is needed to fully understand the role of EIF1AY in

Protein Name: Eukaryotic Translation Initiation Factor 1A Y-linked

Functions: Seems to be required for maximal rate of protein biosynthesis. Enhances ribosome dissociation into subunits and stabilizes the binding of the initiator Met-tRNA(I) to 40 S ribosomal subunits (By similarity)

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More Common Targets

EIF1B | EIF1B-AS1 | EIF1P3 | EIF2 complex | EIF2A | EIF2AK1 | EIF2AK2 | EIF2AK3 | EIF2AK3-DT | EIF2AK4 | EIF2B1 | EIF2B2 | EIF2B3 | EIF2B4 | EIF2B5 | EIF2D | EIF2S1 | EIF2S2 | EIF2S2P3 | EIF2S2P4 | EIF2S3 | EIF3A | EIF3B | EIF3C | EIF3CL | EIF3D | EIF3E | EIF3EP1 | EIF3EP2 | EIF3F | EIF3FP2 | EIF3FP3 | EIF3G | EIF3H | EIF3I | EIF3IP1 | EIF3J | EIF3J-DT | EIF3K | EIF3KP1 | EIF3L | EIF3LP2 | EIF3LP3 | EIF3M | EIF4A1 | EIF4A1P4 | EIF4A2 | EIF4A2P4 | EIF4A2P5 | EIF4A3 | EIF4B | EIF4BP1 | EIF4BP3 | EIF4BP7 | EIF4BP9 | EIF4E | EIF4E1B | EIF4E2 | EIF4E3 | EIF4EBP1 | EIF4EBP2 | EIF4EBP3 | EIF4ENIF1 | EIF4F translation-initiation complex | EIF4G1 | EIF4G2 | EIF4G3 | EIF4H | EIF4HP2 | EIF5 | EIF5A | EIF5A2 | EIF5AL1 | EIF5B | EIF6 | EIPR1 | ELAC1 | ELAC2 | ELANE | ELAPOR1 | ELAPOR2 | Elastase | ELAVL1 | ELAVL2 | ELAVL3 | ELAVL4 | ELDR | ELF1 | ELF2 | ELF2P4 | ELF3 | ELF3-AS1 | ELF4 | ELF5 | ELFN1 | ELFN1-AS1 | ELFN2 | ELK1 | ELK2AP | ELK3