C9orf135

C9orf135 is a gene that encodes a 229 amino acid protein. It is located on Chromosome 9 of the Homo sapiens genome at 9q12.21. The protein has a transmembrane domain from amino acids 124-140 and a glycosylation site at amino acid 75. C9orf135 is part of the GRCh37 gene on Chromosome 9 and is contained within the domain of unknown function superfamily 4572. Also, c9orf135 is known by the name of LOC138255 which is a description of the gene location on Chromosome 9.1. There is some evidence associating the c9orf135 gene with premature ovarian failure. In affected women, an autosomal recessive microduplication occurs which may be linked to premature ovarian failure. A Single Nucleotide Polymorphism (SNP) the c9orf135 gene has been linked to Parkinson's disease; a statistically significant mutation has been seen on a Manhattan plot. Further research is required to establish whether c9orf135 relates to Parkinson's disease.

mRNA
The mRNA of c9orf135 is 906 nucleotides in length. The 5' and 3' Untranslated regions (UTR) contain hairpin loops. The 3' UTR comprises 123 nucleotides and the 5' UTR comprises 18 nucleotides. The mRNA encodes a protein with a secondary structure composed of both beta-sheets and alpha-helices.

Properties of c9orf135
It is likely that c9orf135 is a nuclear protein because it has properties that match attributes of nuclear proteins rather than secretory pathways. Furthermore, there is a nuclear localization signal (PEKVKKL) from amino acid 67 to 73 on c9orf135. C9orf135 is soluble with an average hydrophobicity of -0.772. The negative hydrophobicity value is due to its slightly acidic properties.

Post-translational modifications
Serine phosphorylation sites were seen at amino acid positions 7, 50, 86, 98, and 194. Threonine phosphorylation occurs at 34, 129, 155, and 201. Tyrosine phosphorylation sites occur at 78, 160, 177, and 209. Also, a N-terminal acetylation site is present at amino acid 3. A Signal cleavage site is present between amino acids 11 and 12.

Protein Interaction
PB2 interacts with c9orf135 which was found from a two-hybrid yeast assay. The information provided about PB2 (Polymerase Basic Protein 2) is that it is a viral protein that is involved with the influenza A virus. It is primarily involved in Cap stealing in which it binds the pre-mRNA cap an ultimately cleaves 10-13 nucleotides off. PB2 is also important for starting the replication of viral genomes. PB2 is also known to inhibit type 1 interferon by inhibiting the mitochondrial antiviral signalling protein MAVS.

Mutations
Eleven different common DNA genome variants of the human c9orf135 gene have been identified. All of the mutations within those genome variants have been compiled into the following table. Mutations that were present at levels of 0.01 frequency or higher have been incorporated into the table; synonymous mutations were excluded.

Gene Expression
c9orf135 is expressed in connective tissue and testicular tissue at high levels. It is likely that the expression of c9orf135 is expressed at low levels throughout human cells. It was also found that c9orf135 is found at significantly higher levels in the adult human umbilical cord versus the foetal human umbilical cord. Furthermore, in women with ovarian adenocarcinoma the expression of c9orf135 is much higher in the epithelial cells within the ovaries. Women with polycystic ovarian syndrome have a lower expression of c9orf135 than those people who do not have the condition.

Amino Acid Quantity
A comparison between the c9orf135 from Mus musculus (House Mouse) and Pteropus alecto (Black Flying Fox) is described here. There were no significant amino acids that differed in c9orf135 from the rest of the mouse body. However, in the Black Flying Fox, it was valine poor and tryptophan rich. As seen from the human results, the Black Flying fox only shared the tryptophan surplus results. The House Mouse and Black Flying Fox were both used because they shared 64% and 79% similarity in the c9orf135 genome respectively. Analysis demonstrates that alanine and tyrosine could predict points of interest because they both contained results differing from the rest of the human gene averages.

Homology
c9orf135 is conserved through eukaryotes, ranging from mammals, reptiles and Annelida.

Orthologs
The orthologs of c9orf135 were sequenced in BLAST and 20 orthologs were picked. The orthologs were all multicellular organisms and were limited to aquatic animals, reptiles, amphibians, and warm-blooded animals. Also, protists, bacteria, archea, and fungi did not have orthologs. However, no paralogs were found when c9orf135 was sequenced in BLAST. Please refer to the spreadsheet for the complete list of orthologs to c9orf135. Time tree was a program that was used to find the evolutionary branching shown in MYA There were no paralogs found for c9orf135.

Divergence of c9orf135
A divergence comparison of c9orf135 with fast diverging cytochrome C, and slow diverging fibrinogen is shown in the chart. Overall, c9orf135 has diverged significantly quicker than fibrinogen and slightly slower than cytochrome C.