Target Name: TBPL1
NCBI ID: G9519
Other Name(s): TLP | STUD | TBP-related protein | 21 kDa TBP-like protein | 21-kDA TBP-like protein | TRF2 | TBP-like factor | MGC:9620 | TATA box-binding protein-like 1 | TBP-like 1 | TBP-related factor 2 | TLF | TLP21 | TBP-like protein 1 | MGC:8389 | Second TBP of unique DNA protein | TRP | TATA box-binding protein-like protein 1 | TATA box-binding protein-related factor 2 | second TBP of unique DNA protein | TBPL1_HUMAN | TBPL1 variant 1 | TATA-box binding protein like 1 | TATA-box binding protein like 1, transcript variant 1

TBPL1: Regulation of Immune Response, Cytoskeleton and Cell Signaling Pathways

TBPL1 (T-cell Binding protein-like 1) is a protein that is expressed in a variety of tissues, including the brain, spleen, and Peyer's patches. It is a member of the superfamily of transmembrane proteins, which means that it spans the entire thickness of the cell membrane.

TBPL1 is known for its ability to interact with the protein T-cell binding protein (TBP), which is also known as CD90. TBP is a protein that is expressed in many tissues, including the brain, and it is involved in the regulation of immune responses.

Research has shown that TBPL1 and TBP can interact with each other and that this interaction is important for the function of both proteins. This interaction is thought to occur through a protein called scaffold, which is a structure that can form in the cytosome.

Scaffold is a protein that is involved in the regulation of cell shape and is composed of multiple domains, including a transmembrane region, a cytoplasmic region, and an intracellular region. It is thought to play a role in the regulation of the cytoskeleton and in the organization of organelles within the cell.

Research has also shown that TBPL1 and TBP can interact with each other through a protein called adaptor, which is a structure that is involved in the regulation of protein-protein interactions. Adaptor is composed of multiple domains, including a transmembrane region and a cytoplasmic region.

TBPL1 is also known as TLP, which stands for T-cell lymphocyte protein. It is a protein that is expressed in many tissues, including the brain, spleen, and Peyer's patches. It is a member of the superfamily of transmembrane proteins, which means that it spans the entire thickness of the cell membrane.

TBPL1 is involved in many different functions in the body, including the regulation of immune responses, the development and maintenance of tissues, and the regulation of cell signaling pathways. It is thought to play a key role in the regulation of the cytoskeleton and in the organization of organelles within the cell.

Research has also shown that TBPL1 is involved in the regulation of the production of new cells, including cancer cells. This may be because TBPL1 is involved in the regulation of cell proliferation and cell division, which are important processes for the development and maintenance of tissues.

TBPL1 is also involved in the regulation of the immune response, which is important for the regulation of the body's immune system. It is thought to play a key role in the regulation of the activation and proliferation of T-cells, which are a key part of the immune system.

TBPL1 is also involved in the regulation of the production of new hormones, which is important for the regulation of various physiological processes in the body. This may be because TBPL1 is involved in the regulation of cell signaling pathways, which are involved in the production of hormones.

Research has also shown that TBPL1 is involved in the regulation of the transport of molecules across the cell membrane, which is important for the regulation of various physiological processes in the body. This may be because TBPL1 is involved in the regulation of the diffusion of molecules through the cell membrane, which is important for the transport of nutrients, hormones, and other molecules across the membrane.

In conclusion, TBPL1 is a protein that is involved in many different functions in the body, including the regulation of immune responses, the development and maintenance of tissues, and the regulation of cell signaling pathways. It is thought to play a key role in the regulation of the cytoskeleton and in the organization of organelles within the cell, as well as in the regulation of the immune response, the production of new hormones, and the transport of molecules across the cell membrane. Further research is needed to fully understand the role of TBPL1 in these processes and to

Protein Name: TATA-box Binding Protein Like 1

Functions: Part of a specialized transcription system that mediates the transcription of most ribosomal proteins through the 5'-TCT-3' motif which is a core promoter element at these genes. Seems to also mediate the transcription of NF1. Does not bind the TATA box

More Common Targets

TBPL2 | TBR1 | TBRG1 | TBRG4 | TBX1 | TBX10 | TBX15 | TBX18 | TBX18-AS1 | TBX19 | TBX2 | TBX20 | TBX21 | TBX22 | TBX3 | TBX4 | TBX5 | TBX5-AS1 | TBX6 | TBXA2R | TBXAS1 | TBXT | TC2N | TCAF1 | TCAF1P1 | TCAF2 | TCAIM | TCAM1P | TCAP | TCEA1 | TCEA1P2 | TCEA2 | TCEA3 | TCEAL1 | TCEAL2 | TCEAL3 | TCEAL4 | TCEAL5 | TCEAL6 | TCEAL7 | TCEAL8 | TCEAL9 | TCEANC | TCEANC2 | TCERG1 | TCERG1L | TCF12 | TCF12-DT | TCF15 | TCF19 | TCF20 | TCF21 | TCF23 | TCF24 | TCF25 | TCF3 | TCF4 | TCF7 | TCF7L1 | TCF7L2 | TCFL5 | TCHH | TCHHL1 | TCHP | TCIM | TCIRG1 | TCL1A | TCL1B | TCL6 | TCN1 | TCN2 | TCOF1 | TCP1 | TCP10L | TCP10L2 | TCP10L3 | TCP11 | TCP11L1 | TCP11L2 | TCP11X2 | TCTA | TCTE1 | TCTN1 | TCTN2 | TCTN3 | TDG | TDGF1 | TDGF1P3 | TDGP1 | TDH | TDH-AS1 | TDO2 | TDP1 | TDP2 | TDRD1 | TDRD10 | TDRD12 | TDRD15 | TDRD3 | TDRD5