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TBC1D30
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TBC1D30

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TBC1D30
Identifiers
Aliases TBC1D30, TBC1 domain family member 30
External IDs OMIM: 615077 MGI: 1921944 HomoloGene: 18930 GeneCards: TBC1D30
Orthologs
Species Human Mouse
Entrez
Ensembl
UniProt
RefSeq (mRNA)

NM_015279
NM_001330186
NM_001330187
NM_001330188
NM_001364838

NM_029057
NM_001361015

RefSeq (protein)

NP_001317115
NP_001317116
NP_001317117
NP_056094
NP_001351767

NP_083333
NP_001347944

Location (UCSC) Chr 12: 64.76 – 64.88 Mb Chr 10: 121.1 – 121.19 Mb
PubMed search
Wikidata
View/Edit Human View/Edit Mouse
A prediction of the 3D structure of the TBC1D30 protein containing 275 of the 944 amino acids, including the RabGAP-TBC domain, modelled with 100% confidence. The colors show the direction of the protein, with red being the first amino acids, and blue/purple being the last amino acids.
A proposed 3D structure for the TBC1D30 protein. The colors show the direction of the protein according to the colors of the rainbow, with red being the start and blue/purple being the end of the protein, or amino acid sequence.

TBC1D30 is a gene in the human genome that encodes the protein of the same name. This protein has two domains, one of which is involved in the processing of the Rab protein. Much of the function of this gene is not yet known, but it is expressed mostly in the brain and adrenal cortex.

Gene

TBC1D30, also known as KIAA0984, is a protein in the 12th chromosome of the human genome at 12q14.3. The gene for the protein includes two domains: the RabGAP-TBC domain, and the DUF4682 domain. This gene spans 100,076 base pairs in the human genome, but gets condensed down into 7,931 bp for the mRNA transcript, and finally 944 amino acids in its isoform X1 with 12 exons.

Transcripts

There are 9 isoforms of TBC1D30, 3 of which are independent of the genome build.

Table 1. Isoforms for TBC1D30
Transcript Name RNA Accession Number Protein Accession Number Size Domains
TBC1 domain family member 30 isoform 1 NM_015279.2 NP_001317117.1 761  aa 2
TBC1 domain family member 30 isoform 2 NM_001330186.2 NP_001317115.1 737 aa 0
TBC1 domain family member 30 isoform 3 NM_001330187.2 NP_001317116.1 647 aa 2
TBC1 domain family member 30 isoform X1 XM_024448901.1 XP_024304669.1 944 aa 2
TBC1 domain family member 30 isoform X2 XM_024448902.1 XP_024304670.1 924 aa 2
TBC1 domain family member 30 isoform X3 XM_024448903.1 XP_024304671.1 900 aa 2
TBC1 domain family member 30 isoform X4 XM_011538078.2 XP_011536380.1 781 aa 2
TBC1 domain family member 30 isoform X5 XM_024448904.1 XP_024304672.1 667 aa 2
TBC1 domain family member 30 isoform X6 XM_017019087.2 XP_016874576.1 647 aa 2

The first three in the list are independent of the reference genome. The latter 6, labelled with an X, are based on NC_000012.12 Reference GRCh38.p13 Primary Assembly. The domains for each isoform that contains domains are the same RabGAB-TBC and DUF4682 domains. The size column shows the number of amino acids in each protein isoform.

Protein

TBC1D30 has an isoelectric point of about 8.5. Antibodies revealed TBC1D30 to have a molecular weight of about 90 kDa.

Gene level regulation

RNA-seq was completed on 95 individuals from 27 different tissues.

The most likely promoter for TBC1D30 is about 1,279 base pairs, with a start at 64,779,516 and an end at 64,780,794.

The TBC1D30 protein has been found in or associated with the cytoplasm and the plasma membrane from antibody studies.

The protein is mostly found to be expressed in tissues of the brain and adrenal glands.

Transcript level regulation

There is a microRNA binding site within the 3' UTR of the TBC1D30 gene for the hsa-miR-194-5p miRNA. This microRNA is involved in the Wnt/Beta-catenin signaling pathway.

Protein level regulation

The protein contains some possible myristoylation, amination, and phosphorylation sites. There are also some degradation sites within the RabGAP-TBC domain.

Homology and evolution

TBC1D30 has a large amount of orthologs. Analysis of these homologs allow us to ascertain the most important amino acids, i.e., the ones that are conserved. The most highly conserved amino acids among vertebrates, invertebrates, fungi, plants, bacteria and protists with available sequences were trp236, arg255, trp259, ile297, asp300, arg303, thr304, leu321, leu325, ala327, gly336, tyr337, cys338, gln339, leu349, glu356, pro399, trp432, trp450, asp451, arg463, and leu466. The RabGAP domain within the gene originated approximately 4 billion years ago, as it is present within Terriglobus roseus, which is an acidobacterium that diverged from humans 4.09 billion years ago. The whole gene likely originated approximately 1.3 billion years ago, as there are still amino acids conserved past the RabGAP domain, and into the DUF4682 domain for Lithospermum erythrorhizon and Nicotiana attenuata. These two plants diverged from humans about 1.275 billions years ago.

A) Unrooted phylogenetic tree of the most distant orthologs. PPu: Porphyridium purpureum (Red Marine Microalga), TRo: Terriglobus roseus, ACa: Acanthamoeba castellanii str. Neff, LEr: Lithospermum erythrorhizon (Purple Gromwell), Nat: Nicotiana attenuata (Coyote Tobacco), ZNe: Zootermopsis nevadensis (Nevada Termite), Obi: Octopus bimaculoides (California Two-Spot Octopus), RTo: Rhodotorula toruloides (Yeast). See Part B for the closer related orthologs to Homo sapiens.
B) Unrooted phylogenetic tree of the closer related orthologs. Dre: Danio rerio (Zebrafish), TEl: Thamnophis elegans (Western Terrestrial Garter Snake), MNe: Macaca nemestrina (Southern Pig-Tailed Macaque), HSa: Homo sapiens, MMu: Mus musculus (House Mouse), GGa: Gallus gallus (Red Junglefowl), ARo: Apteryx rowi (Okarito kiwi), CMy: Chelonia mydas (Green Sea Turtle), XTr: Xenopus tropicalis (Western Clawed Frog), RBi: Rhinatrema bivittatum (Two-Lined Caecilian), ECa: Erpetoichthys calabaricus (Reed Fish).

The gene is evolving at a slower pace than Fibrinogen alpha, which evolves very quickly, but at a faster pace than Cytochrome C, which evolves very slowly.

The rate of divergence, and thus evolution, is compared to that of Fibrinogen alpha, and Cytochrome C. The organisms included, in order of most recent to most distant, are Homo sapiens, Macaca fascicularis, Mus musculus, Monodelphis domestica, Ornithorhynchus anatinus, Gallus gallus, Xenopus tropicalis, Danio rerio, Zootermopsis nevadensis, Trichoplax, Saccharomyces cerevisiae, and Arabidopsis thaliana. For the TBC1D30 line. Cytochrome C used Danio rerio, Zootermopsis nevadensis, Trichoplax, Saccharomyces cerevisiae, and Arabidopsis thaliana. Fibrinogen alpha used Homo sapiens, Macaca fascicularis, Mus musculus, Monodelphis domestica, Ornithorhynchus anatinus, and Gallus gallus.

Interacting proteins

TBC1D30 likely interacts with STX3,ZRANB1 and ESR1. These interactions were found through affinity capture and Western blot, affinity capture and mass spectrometry, and two-hybrid screening respectively.

Clinical significance

A Single Nucleotide Polymorphism (SNP), rs11615287, at the start of the RabGAP-TBC domain is likely to be damaging to the protein.

Studies have investigated how TBC1D30 affects insulin processing.


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