ARL6IP4

ADP-ribosylation-like factor 6 interacting protein 4 (ARL6IP4), also called SRp25 is the gene product of the ARL6IP4 gene located on is_associated_with::chromosome 12q24.31.It is 360 amino acids in length.It is expressed ubiquitously but only in G1/S phase of the is_associated_with::cell cycle. The human and mouse is_associated_with::mRNA of this protein have 77% homology.

Structure
Two types of is_associated_with::amino acid clusters have been observed, a is_associated_with::serine cluster and a basic cluster.

Function
The function of this protein is unknown.However due to sequence homology of the protein with SR splicing factors it is widely believed that the protein is nuclear and may have a role in splicing regulation. The protein is also believed to be a mediator in the is_associated_with::RAC1 signalling pathway.

RNA editing
The pre-mRNA of the ARL6IP4 gene product is subject to is_associated_with::RNA Editing.

Type
A to I RNA editing is catalyzed by a family of adenosine deaminases 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 region close to 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
Editing occurs at a K/R editing site within amino acid position 225 of the final protein.Using RT-PCR and sequencing of 100 individual clones, 7% of isoform 3 of the protein  showed a G instead of an A at this position during sequencing. Other minor editing sites may be potentially present including some in the same exon as the major editing site.Like in the case of IGFBP7 pre-mRNA,editing is unusual as the RNA fold back structure is made up off exonic sequence only.

Effects on protein structure
Editing at this site results in a codon changed from a is_associated_with::Lysine to an is_associated_with::Arginine.This occurs in a highly basic region of the protein.

Effects on protein function
The function of the unedited protein is largely uncharacterised.Therefore the effect of editing on the pre-mRNA on the proteins function is also unknown.The amino acid change is conservative and is unlikely to massively alter protein function. However,the editing site maybe important since the amino acid being altered is a is_associated_with::Lysine, which may be involved in the  regulation of protein expression. Lysines can be sites of is_associated_with::post-translational modification and the conversion of Lysine to an Arginine could affect post translational modification.