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TEDC2
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TEDC2

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TEDC2
Identifiers
Aliases TEDC2, C16orf59, chromosome 16 open reading frame 59, tubulin epsilon and delta complex 2
External IDs MGI: 1919266 HomoloGene: 45943 GeneCards: TEDC2
Orthologs
Species Human Mouse
Entrez
Ensembl
UniProt
RefSeq (mRNA)

NM_025108

NM_028056

RefSeq (protein)

NP_079384

NP_082332

Location (UCSC) Chr 16: 2.46 – 2.46 Mb Chr 17: 24.43 – 24.44 Mb
PubMed search
Wikidata
View/Edit Human View/Edit Mouse

Tubulin epsilon and delta complex 2 (TEDC2), also known as Chromosome 16 open reading frame 59 (C16orf59), is a protein that in humans is encoded by the TEDC2 gene. Its NCBI accession number is NP_079384.2.

Gene

A diagram from NCBI showing TEDC2 and its gene neighborhood on chromosome 16.

Locus

TEDC2 is found on chromosome 16 at location 16p13.3, or chr16:2,460,080-2,464,963 (spanning 4883 bp) on the plus strand.

Homology and Evolution

Orthologs

TEDC2 appeared between 684-797 million years ago. Its most distant ortholog is found in Branchiostoma floridae, the Florida lancelet, which diverged from other chordates around 684 million years ago. However, the gene arose more recently than 797 million years ago, when protostomes and deuterostomes diverged, as it is not found in any invertebrates. A table showing 20 selected orthologs is below, found with NCBI BLAST.

Genus and species Common name Clade Date of divergence (estimated) Accession number Length Identity Similarity
Homo sapiens Human Mammalia 0 MYA NP_079384.2 433 aa 100% 100%
Pan troglodytes Chimpanzee Mammalia 6.65 MYA XP_001163226.2 433 aa 98% 98%
Mus musculus House mouse Mammalia 90 MYA NP_082332.1 436 aa 62% 72%
Orcinus orca Orca Mammalia 96 MYA XP_012388677.1 445 aa 71% 78%
Vulpes vulpes Red fox Mammalia 96 MYA XP_025840713.1 432 aa 68% 74%
Dasypus novemcinctus Nine-banded armadillo Mammalia 105 MYA XP_012385078.1 469 aa 69% 77%
Cyanistes caeruleus Eurasian blue tit Aves 312 MYA XP_023792200.1 366 aa 44% 59%
Pygoscelis adeliae Adélie penguin Aves 312 MYA XP_009325519.1 490 aa 43% 58%
Columba livia Rock dove Aves 312 MYA XP_021147488.1 511 aa 43% 56%
Numida meleagris Helmeted guineafowl Aves 312 MYA XP_021267460.1 574 aa 40% 67%
Dromaius novaehollandiae Emu Aves 312 MYA XP_025956253.1 547 aa 40% 68%
Anolis carolinensis Green anole Reptilia 312 MYA XP_008122311.2 473 aa 32% 47%
Python bivittatus Burmese python Reptilia 312 MYA XP_007433089.1 607 aa 32% 50%
Pogona vitticeps Bearded dragon Reptilia 312 MYA XP_020663843.1 578 aa 31% 45%
Xenopus tropicalis Western clawed frog Amphibia 352 MYA XP_002932464.1 452 aa 30% 45%
Lepisosteus oculatus Spotted gar Osteichthyes 435 MYA XP_015215377.1 193 aa 37% 48%
Scleropages formosus Asian arowana Osteichthyes 435 MYA XP_018598511.1 186 aa 29% 47%
Paramormyrops kingsleyae Elephantfish Osteichthyes 435 MYA XP_023666461.1 473 aa 29% 46%
Callorhinchus milii Australian ghostshark Chondrichthyes 473 MYA XP_007891790.1 540 aa 32% 49%
Branchiostoma floridae Florida lancelet Cephalochordata 684 MYA XP_002611730.1 602 aa 23% 42%

Paralogs

There are no other members of the TEDC2 gene family, as it has no paralogs in any living organisms.

Expression

Transcription Factors

Conserved predicted transcription factor binding sites found in the 5' region upstream of TEDC2 are WT1, ZKSCAN3 (x2), AREB6, MZF1 (x2), ATF6, ER, and P53. This suggests that these transcription factors in particular, and especially ZKSCAN3 and MZF1 on the basis of multiple conserved binding sites, are crucial in the regulation of TEDC2. ZKSCAN3 is a transcriptional repressor of autophagy, and MZF1 is thought to play a role as a tumor suppressor and regulator of cell proliferation. These conserved MZF1 sites, along with the conserved p53 site, suggest that TEDC2 could play a role in cell proliferation and can therefore impact the genesis and development of cancer.

Localization

TEDC2 is predicted to be localized to the nucleus and may also be present in the cytoplasm, mitochondria, peroxisomes, and extracellular space.

Expression

It is highly expressed in the testis and EBV-transformed lymphocytes. It is also highly expressed in lymph node, fetal liver, early erythroid cell, and B-lymphoblasts. It is also seen at higher levels in both embryonic stem cells and induced pluripotent stem cells than fibroblasts. Finally, relative to other genes, TEDC2 expression significantly decreases in breast cancer cells upon estrogen starvation.

Transcript Variants

A table showing which exons are found in the 6 TEDC2 isoforms. Green = contains a start codon. Red = contains a stop codon. Check = Exon included in the final mRNA transcript. -- = exon is excluded from the final mRNA transcript. U = exon is present but is untranslated.

The gene has 10 exons. The gene has 13 alternatively spliced transcripts, with 6 coding for a protein, 1 undergoing nonsense-mediated decay, and 6 being retained introns.

Protein

General Features

TEDC2 is encoded by the TEDC2 gene with NCBI accession number NM_025108.3. The protein is 433 amino acids long with a predicted molecular weight of 46.4 kDa. There is an antibody against the protein, but a sample western blot image is not available.

Domains

TEDC2 contains a domain of unknown function, DUF4693, which in humans spans from proteins 148-431, approximately the last two-thirds of the protein.

Secondary Structure

Using online bioinformatics tools, TEDC2 is predicted to have many alpha helices, and it has two well-conserved predicted beta-pleated sheets near the end of the protein.

Tertiary Structure

The predicted TEDC2 tertiary structure model of highest probability, generated by I-TASSER.

TEDC2 is predicted to form tertiary structure based on its alpha helices. Many of these predicted alpha helices are highly conserved in orthologs, and one example of predicted tertiary structure generated by I-TASSER is shown to the right.

Post-translational Modifications

Graphical representation of TEDC2 showing domains and modification sites, created with DOG.

TEDC2 has a well conserved predicted O-GlcNAc site at S114 in humans. O-GlcNAcylated proteins are found mostly in the nucleus, sometimes also being found in the cytoplasm, and this is a dynamic modification, frequently being removed and reattached.

TEDC2 also has three conserved, predicted C-mannosylation sites. The function of C-mannosylation is still unclear, but it is the attachment of an alpha-mannose to a tryptophan.

TEDC2 also has many possible phosphorylation sites, including seven that are well-conserved. Phosphorylation is an important means of protein regulation, activation, and inactivation, so it is difficult to determine any specific function from the presence of a serine or threonine that could be phosphorylated.

Interactions

Protein-Protein Interactions

KDM1A, a lysine-specific demethylase, was shown to be physically associated with TEDC2. TEDC2 also interacts with FEZ1, a fasciculation and elongation protein. FEZ1, or fasciculation and elongation protein 1, is necessary for axon growth but is also thought to be involved in transcriptional control.

There is also experimental evidence for TEDC2 interaction with TUBE1 and C14orf80. TUBE1, or Tubulin epsilon 1, is involved with the centrioles during cell division, and the function of C14orf80 is unknown. TEDC2 is also co-expressed with CDC45, or cell division control protein 45, which is required for initiation of chromosomal DNA replication, as well as co-expression with CDT1, a DNA replication licensing factor required for pre-replication assembly.

Function and Clinical Significance

The function of TEDC2 is not yet known with certainty by the scientific community, but its expression profile, predicted transcription factor binding sites, and other protein-protein interactions enable some predictions. TEDC2 is localized in the nucleus and is often expressed in developing tissues such as stem cells as well as differentiated fetal tissue, so it likely plays a role in DNA replication and/or cell division. This also fits with TEDC2's predicted or known protein-protein interactions, as it may interact with proteins involved in cell division (TUBE1, CDC45, CDT1), as well as remain under transcriptional control of tumor suppressors (WT1, MZF1, P53). Additionally, given the presence of an estrogen-response element binding-site, it is possible that TEDC2 plays a role in tumor development when mutated.


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