GRIA4
Encyclopedia
Glutamate receptor 4 is a protein
that in humans is encoded by the GRIA4 gene
.
with CACNG2
, GRIP1
, PICK1
and PRKCG
.
s acting on RNA (ADARs) that specifically recognize adenosines within double-stranded regions of pre-mRNAs and deaminate them to inosine
. Inosines are recognised as guanosine
by the cells translational machinery. There are three members of the ADAR family ADARs 1-3, with ADAR 1 and ADAR 2 being the only enzymatically active members.ADAR3 is thought to have a regulatory role in the brain. ADAR1 and ADAR 2 are widely expressed in tissues, while ADAR 3 is restricted to the brain. The double-stranded regions of RNA are formed by base-pairing between residues in the close to region of the editing site with residues usually in a neighboring intron but can be an exonic sequence. The region that base pairs with the editing region is known as an Editing Complementary Sequence (ECS).
The R/G editing site is located in exon 13 between the M3 to M4 region. Editing results in a codon change from an Arginine (AGA) to a Glycine (GGA). The location of editing corresponds to a bipartite ligand interaction domain of the receptor.((((((37))))))The R/G site is found at amino acid 769 immediately before the 3-amino-acid-long flip and flop modules introduced by alternative splicing. Flip and Flop forms are present in both edited and nonedited versions of this protein.
The editing complimentary sequence (ECS) is found in an intronic sequence close to the exon. The intronic sequence includes a 5' splice site, and the predicted double-stranded region is 30 base pairs in length. The adenosine residue is mismatched in genomically encoded transcript, however this is not the case following editing. Despite similar sequences to the Q/R site of GluR-B, editing this site does not occur in GluR-3 pre-mRNA. Editing results in the targeted adenosine, which is mismatched prior to editing in the double-stranded RNA structure to become matched after editing. The intronic sequence involved contains a 5' donor splice site.
Editing results in a codon change from (AGA) to (GGA), an R to a G change at the editing site.
Editing at R/G site allows for faster recovery from desensitisation. Unedited Glu-R at this site have slower recovery rates. Editing, therefore, allows sustained response to rapid stimuli. A crosstalk between editing and splicing is likely to occur here. Editing takes place before splicing. All AMPA receptors occur in flip and flop alternatively spliced variants. AMPA receptors that occur in the Flop form desenstise faster than the flip form.
Editing is also thought to affect splicing at this site
Protein
Proteins are biochemical compounds consisting of one or more polypeptides typically folded into a globular or fibrous form, facilitating a biological function. A polypeptide is a single linear polymer chain of amino acids bonded together by peptide bonds between the carboxyl and amino groups of...
that in humans is encoded by the GRIA4 gene
Gene
A gene is a molecular unit of heredity of a living organism. It is a name given to some stretches of DNA and RNA that code for a type of protein or for an RNA chain that has a function in the organism. Living beings depend on genes, as they specify all proteins and functional RNA chains...
.
Interactions
GRIA4 has been shown to interactProtein-protein interaction
Protein–protein interactions occur when two or more proteins bind together, often to carry out their biological function. Many of the most important molecular processes in the cell such as DNA replication are carried out by large molecular machines that are built from a large number of protein...
with CACNG2
CACNG2
Calcium channel, voltage-dependent, gamma subunit 2, also known as CACNG2 or stargazin is a protein that in humans is encoded by the CACNG2 gene.-Function:...
, GRIP1
GRIP1 (gene)
Glutamate receptor-interacting protein 1 is a protein that in humans is encoded by the GRIP1 gene.-Interactions:GRIP1 has been shown to interact with GRIA4, Metabotropic glutamate receptor 3, GRIK2, GRIK3, GRIPAP1, GRIA2 and GRIA3....
, PICK1
PICK1
PRKCA-binding protein is a protein that in humans is encoded by the PICK1 gene.-Interactions:PICK1 has been shown to interact with HER2/neu, ACCN2, Metabotropic glutamate receptor 7, BNC1, Metabotropic glutamate receptor 3, GRIA4, Dopamine transporter, GRIK1, GRIK2, GRIK3, GRIA2 and GRIA3.-Further...
and PRKCG
PRKCG
Protein kinase C gamma type is an enzyme that in humans is encoded by the PRKCG gene.-External Links:* -Further reading:...
.
RNA editing
Several ion channels and neurotransmitters receptors pre-mRNa are substrates for ADARs. This includes 5 subunits of the glutamate receptor ionotropic AMPA glutamate receptor subunits (Glur2, Glur3, Glur4) and Kainate receptor subunits (Glur5, Glur6). Glutamate-gated ion channels are made up of four subunits per channel. Their function is in the mediation of fast neurotransmission to the brain. The diversity of the subunits is determined, as well as RNA splicing, by RNA editing events of the individual subunits. This give rise to the necessary diversity of the receptors. GluR4 is a gene product of the GRIA4 gene, and its pre-mRNA is subject to RNA editing.Type
A to I RNA editing is catalyzed by a family of adenosine deaminaseAdenosine deaminase
Adenosine deaminase is an enzyme involved in purine metabolism. It is needed for the breakdown of adenosine from food and for the turnover of nucleic acids in tissues.-Reactions:...
s acting on RNA (ADARs) that specifically recognize adenosines within double-stranded regions of pre-mRNAs and deaminate them to inosine
Inosine
Inosine is a nucleoside that is formed when hypoxanthine is attached to a ribose ring via a β-N9-glycosidic bond....
. Inosines are recognised as guanosine
Guanosine
Guanosine is a purine nucleoside comprising guanine attached to a ribose ring via a β-N9-glycosidic bond. Guanosine can be phosphorylated to become guanosine monophosphate , cyclic guanosine monophosphate , guanosine diphosphate , and guanosine triphosphate...
by the cells translational machinery. There are three members of the ADAR family ADARs 1-3, with ADAR 1 and ADAR 2 being the only enzymatically active members.ADAR3 is thought to have a regulatory role in the brain. ADAR1 and ADAR 2 are widely expressed in tissues, while ADAR 3 is restricted to the brain. The double-stranded regions of RNA are formed by base-pairing between residues in the close to region of the editing site with residues usually in a neighboring intron but can be an exonic sequence. The region that base pairs with the editing region is known as an Editing Complementary Sequence (ECS).
Location
The pre-mRNA of this subunit is edited at one position.The R/G editing site is located in exon 13 between the M3 to M4 region. Editing results in a codon change from an Arginine (AGA) to a Glycine (GGA). The location of editing corresponds to a bipartite ligand interaction domain of the receptor.((((((37))))))The R/G site is found at amino acid 769 immediately before the 3-amino-acid-long flip and flop modules introduced by alternative splicing. Flip and Flop forms are present in both edited and nonedited versions of this protein.
The editing complimentary sequence (ECS) is found in an intronic sequence close to the exon. The intronic sequence includes a 5' splice site, and the predicted double-stranded region is 30 base pairs in length. The adenosine residue is mismatched in genomically encoded transcript, however this is not the case following editing. Despite similar sequences to the Q/R site of GluR-B, editing this site does not occur in GluR-3 pre-mRNA. Editing results in the targeted adenosine, which is mismatched prior to editing in the double-stranded RNA structure to become matched after editing. The intronic sequence involved contains a 5' donor splice site.
Regulation
Editing of GluR-3 is regulated in rat brain from low levels in embryonic stage to a large increase in editing levels at birth. In humans, 80-90% of GRIA3 transcripts are edited. The absence of the Q/R site editing in this glutamate receptor subunit is due to the absence of necessary intronic sequence required to form a duplex.Structure
Editing results in a codon change from (AGA) to (GGA), an R to a G change at the editing site.
Function
Editing at R/G site allows for faster recovery from desensitisation. Unedited Glu-R at this site have slower recovery rates. Editing, therefore, allows sustained response to rapid stimuli. A crosstalk between editing and splicing is likely to occur here. Editing takes place before splicing. All AMPA receptors occur in flip and flop alternatively spliced variants. AMPA receptors that occur in the Flop form desenstise faster than the flip form.
Editing is also thought to affect splicing at this site