Basic Information

Insect: Catocala nupta
Gene Symbol: Tulp4
Assembly: GCA_963675205.1
Location: OY776083.1:19613969-19659183[+]

Transcription Factor Domain

TF Family: Tub
Domain: Tub domain
PFAM: PF01167
TF Group: Unclassified Structure
Description: Tubby, an autosomal recessive mutation, mapping to mouse chromosome 7, was recently found to be the result of a splicing defect in a novel gene with unknown function. This mutation maps to the tub gene [3, 4]. The mouse tubby mutation is the cause of maturity-onset obesity, insulin resistance and sensory deficits. By contrast with the rapid juvenile-onset weight gain seen in diabetes (db) and obese (ob) mice, obesity in tubby mice develops gradually, and strongly resembles the late-onset obesity observed in the human population. Excessive deposition of adipose tissue culminates in a two-fold increase of body weight. Tubby mice also suffer retinal degeneration and neurosensory hearing loss. The tripartite character of the tubby phenotype is highly similar to human obesity syndromes, such as Alstrom and Bardet-Biedl. Although these phenotypes indicate a vital role for tubby proteins, no biochemical function has yet been ascribed to any family member [2], although it has been suggested that the phenotypic features of tubby mice may be the result of cellular apoptosis triggered by expression of the mutated tub gene. TUB is the founding-member of the tubby-like proteins, the TULPs. TULPs are found in multicellular organisms from both the plant and animal kingdoms. Ablation of members of this protein family cause disease phenotypes that are indicative of their importance in nervous-system function and development [1]. Mammalian TUB is a hydrophilic protein of ~500 residues. The N-terminal (IPR005398) portion of the protein is conserved neither in length nor sequence, but, in TUB, contains the nuclear localisation signal and may have transcriptional-activation activity. The C-terminal 250 residues are highly conserved. The C-terminal extremity contains a cysteine residue that might play an important role in the normal functioning of these proteins. The crystal structure of the C-terminal core domain from mouse tubby has been determined to 1.9A resolution. This domain is arranged as a 12-stranded, all anti-parallel, closed β-barrel that surrounds a central α helix, (which is at the extreme carboxyl terminus of the protein) that forms most of the hydrophobic core. Structural analyses suggest that TULPs constitute a unique family of bipartite transcription factors [2].
Hmmscan Out: # of c-Evalue i-Evalue score bias hmm coord from hmm coord to ali coord from ali coord to env coord from env coord to acc

1 3 0.0014 46 5.4 0.0 3 75 339 406 337 415 0.81

2 3 0.00017 5.4 8.4 0.1 115 149 521 554 497 618 0.67

3 3 2.4e-32 7.7e-28 99.7 0.3 159 253 1211 1295 1173 1298 0.77

#	of	c-Evalue	i-Evalue	score	bias	hmm coord from	hmm coord to	ali coord from	ali coord to	env coord from	env coord to	acc
1	3	0.0014	46	5.4	0.0	3	75	339	406	337	415	0.81
2	3	0.00017	5.4	8.4	0.1	115	149	521	554	497	618	0.67
3	3	2.4e-32	7.7e-28	99.7	0.3	159	253	1211	1295	1173	1298	0.77

Sequence Information

Coding Sequence: ATGGACGTGTCTGTTGAATTAAAAAGTGTAATCCTCGTAAAATGGAACGAGCCTTATCAGAAGCTGGCGTCATGCGATAGCAGCGGAGTGATCTTCGTGTGGATTAAATACGAGGGTCGCTGGAGCATCGAGCTCATCAATGACAGAAGCACACCAGTCACGCACTTCTCCTGGTCACATGATGGACGGATGGCACTTATTTGTTACCAGGACGGTTTCGTGCTGGTCGGCTCGGTGGCAGGCCAGCGCTACTGGTCGTCCATGTTATCACTTGACGCGCGCATTACCTGCGGCTGCTGGACTCCTGACGACAACCAAGTCTATCTCGGCACCGCCTCCGCACAGCTGGTCGTCATGGATGTTCACGGAGCTATGGTTTCACAGGTTCAACTAGTAGCAGAAGGAGGCATCACTTCAATGGCGTGGTCGTGTGAGAAATTCAAGATGGAGGAAGGTGAAGAGGGGGGCGAGAACAATGGCGGCCATGTCTTAGCTGTAGCACTCGGCAACGGAGAGATCGTGCTGTTGCGCGGTCATGACGACGTCAGCCCTGTGAGGGTCCGGACAGGGCTGAGAGGCAACACTCTGGCTATGGAGTGGGCCAACTCCAGAGAACTTCTGGCCGTGGCTGGAACGTTGCTGGCAGAACCGGACGAGCCACCAGACTCACCTCCGTACAAGAACGTTGTCAAGTTTTATTCGGACACCGGAGCTCTCATCTATACCGTCCTTATACCTTATACACAGGCGCGGGTGACAGCGCTGACGTGGGGCCACGCGGCGCGGCGGCTGTTCGTGGGCGTGGGCGGCGCCGTGTGCACGGCGCGCGTGTGGCGCGTGGTGGCGCCGCTGCAGCTGCTGGCGCGCGtgcgggcggcgcaggcgctgCGCGACCCGCGCCTCGCGCCGCGCCtgccgctgccgccgcgcctGCAGCCCGCACTCGCCAACCTCTTCGCGCATACCATCCGGTGCAATGTGCCGGAAACCAACGAGCTCCGTCGCTTCGTGTCGCGTCCGCCGGTGGCCGGGGGCCGGCTGCACTGCACCATGCTGCGACACGACGACGAGGAGGCGGGCGCCTACACGCTGTACCTCGAGCACCTCGGCGGACTCGTGCCGCTGCTCAAGGGCCGCCGCACCAGCAAGATACGACCAGAGTTCGTCATATTCGATCCACAGGCTGAAGTGGAGCAAGTGACGAGTACGGTGGTGGTCCGagccagcagcagcagcagcagcggtGCTGGCAGCTCGTCCAGCGGTGGCGCAGCCTCGCCCCGCGCCCCCCGCACGCCACGCGCGCCCCGCGCTCCACCTGCGCAACACGCGCACACTTCATCGTCTGATACCGAGCGGGAAGAAGGTTGTTCCGGCTCCCCGAGGCTACAGAGACGCAGGCGTGCGCGAGAGAGACGAAAGGTACGAAGCACCAGTGAGAAGGACGAACCACCCGACGAACTCGCTTATATTGACTCATTACCTGAGGATGTACGTTTAGTAGAAGTTACATCTAATATTTGGGGAACAAAGTTTAAAATGCATGGTTTAGCTAAAAATGTCCCCGCGAATCTAGGCCAAGTTACTTACAAGACCTCTTTGCTTCATCTACAACCGAGGCAGATGACCCTCATGATTACAGAACTAAGGGATGATTACCCTGTGGGCCCAGATCCCAGCTTTAACCCTAACATATTCTCCGAAGATGAGGAGGAAGTTTTTCAGTCCAATGATTCCAACGATTCTCCGTCgcacactaataataatatccgaAGAAAGTTAACTCTTAACGAAAGAATGAACAACACCAACAACATTATCAATCAAAGTGACAATTTTGtctccaataataataattcaaacgcGCCGTCCCTCGCAAGAGCCGAATCATACGATGAGTTTCCTTATATTGATACTAGTGATGCAGTAAACAATGTGCCGGAGAGCGTGTACTCAACGCCAGTGAGACATGCGACTCAAACGACGGAGAGAAGGGTCAATAACCCCGCTAGCGTGCCCAATCGTCACGCGATTTCACCCTTAAGGTGCGAAAGTTCTGTCCCTACCTTGCAATCTCCTAAAAATGCCGTCGCGCCAACAGATATAATATTTGAAAGACCATCGCCACAAACCGTGACGTGTGGCGGTCGTGGCGATTTCTGCGGGGGCCGGACCGACTATAGCGTTAGAGGAGATAACGTCTCACTAAAAGGGAACTTATCTAATTTAGAGCAACAGTCTTTTAGCTTGAATTTAAGTCTCGAGCCGAGTAGACAGGTAACTATAAAAAAGTGCGATAACCATGTCACTGACAATTGCCTTTCCAAGCTCCGCAAAAACATATGCAGTAGAGGCGAATCTGCATCCTACGACATGAACACGAGAATTCTTAAATCGCTCTGCAACAAAAACTATGAGCACGAAGTGCACCCCGACGCTCTCAGTAAGCGCGGCGATGCACTGAAACATTTACAAAAAGGCGAGGATTTAAAGTTCATAGATGAGGAAACGCCTGTAGACACCACTATCAATAATCTCACCGACAAAAGTAGAGAGATGAAGGTACAGAGAACGACGACCGTCGTACCTATCAGTCCCGTCTGTGCGACCGTCCCCGTGTACGACACCATGACTCGCAGTTGCAGCGTCGGCTACCTCGACCTTGTCGACCCTCAGGTTTTGCACGCCCAGGTGAGTCTCACAGCACTGCGAGGGGAACCACCCCGGCGACTGGTGCTCGTGAACAATAAGCGTCACAGAAGGCAGAGACGCCACGTCCGCGCCAGCGACATGAAACAGACTGAAAACACAAAGACGCCGAGCCTGAGAAGGTGCGGTAAATCGAGGAGCCTCGACTCTAGTGAAATGTCTCTGACCGTGGACAAGAGCAAAAGACAGTCGCGGACAGAGACGGCATCGCCGAAAGCGGACGCGACGTCGGCCAATTCTAGCAGTCGGTGTAACAGCACCGGCGGTGAGGACAACAGCGGTACCAGCACGGAGGAGAGCGCGCGGCGCTCGCGGCGCGACTACCCCGTGTGCACGGCGTGCCGCCTGGTGTCGCCGTACGACCGGCGGGACGTGGACGCACGCACGTACGTGTGCGTGGCGTgctcgccgcgcgccgccccgcgcgccgcgcccgtgccgccgccgctgccgcgcGCTGCCGCCACCGACAGCGACTCCGACTACAGCAAGTATTATAGTTCGTTGGAGCAACTTGCGTTGCGGTTGCTGGCATCGCGATCTTCTCGGAAAGCAGCGAGCAAGGAGGCGGCGGCGGTGGCGAGAGAGACCAGCTCGGCTCCTGCCTCGCCTCGACCGCGGCCCGCCAGAAGCCACCCCGCCAGTCCTGCACCTGCTTCCCCCGCCCCGCGGTCCACACCTCGTCGTCATCGCTATTCTTCAGCCTCACCTATAAGGCAACTTTTAAACTCCCCTCTCCTGAACCGAAGAAGAAATAAGAAGCCGTCCGAAAGTTCCGATGACGAGTACTCGACAGGAGGAGGCTATAGCGAGGTCAACGGCAGAAACTATAGAGATCTCGAGACTTTCCAGAAGACACAACTCAGAAATAAGTTAAAACGCGCCACTGGTGCGGCCACAAGCACGGCCACAGCTtcgagcagcagcagcgacaGCCGCGCCACCAACAAGCGCCAGCTCGTGATGCACAACAAGGCGCCGATGTGGAACGAGAACAGCCAGGTCTACCAGCTAGATTTCGGCGGCCGCGTCACGCAGGAGTCCGCTAAGAACTTCCAAATAGAATATCATGGGAAACaggtgATGCAATTTGGTCGCATCGACGGCAACGCTTACACATTGGACTTCCAGTATCCATTCTCAGCACTGCAAGCCTTCGCAGTGGCACTCGCCAACGTCACCCAACGTCTGAAGTAA
Protein Sequence: MDVSVELKSVILVKWNEPYQKLASCDSSGVIFVWIKYEGRWSIELINDRSTPVTHFSWSHDGRMALICYQDGFVLVGSVAGQRYWSSMLSLDARITCGCWTPDDNQVYLGTASAQLVVMDVHGAMVSQVQLVAEGGITSMAWSCEKFKMEEGEEGGENNGGHVLAVALGNGEIVLLRGHDDVSPVRVRTGLRGNTLAMEWANSRELLAVAGTLLAEPDEPPDSPPYKNVVKFYSDTGALIYTVLIPYTQARVTALTWGHAARRLFVGVGGAVCTARVWRVVAPLQLLARVRAAQALRDPRLAPRLPLPPRLQPALANLFAHTIRCNVPETNELRRFVSRPPVAGGRLHCTMLRHDDEEAGAYTLYLEHLGGLVPLLKGRRTSKIRPEFVIFDPQAEVEQVTSTVVVRASSSSSSGAGSSSSGGAASPRAPRTPRAPRAPPAQHAHTSSSDTEREEGCSGSPRLQRRRRARERRKVRSTSEKDEPPDELAYIDSLPEDVRLVEVTSNIWGTKFKMHGLAKNVPANLGQVTYKTSLLHLQPRQMTLMITELRDDYPVGPDPSFNPNIFSEDEEEVFQSNDSNDSPSHTNNNIRRKLTLNERMNNTNNIINQSDNFVSNNNNSNAPSLARAESYDEFPYIDTSDAVNNVPESVYSTPVRHATQTTERRVNNPASVPNRHAISPLRCESSVPTLQSPKNAVAPTDIIFERPSPQTVTCGGRGDFCGGRTDYSVRGDNVSLKGNLSNLEQQSFSLNLSLEPSRQVTIKKCDNHVTDNCLSKLRKNICSRGESASYDMNTRILKSLCNKNYEHEVHPDALSKRGDALKHLQKGEDLKFIDEETPVDTTINNLTDKSREMKVQRTTTVVPISPVCATVPVYDTMTRSCSVGYLDLVDPQVLHAQVSLTALRGEPPRRLVLVNNKRHRRQRRHVRASDMKQTENTKTPSLRRCGKSRSLDSSEMSLTVDKSKRQSRTETASPKADATSANSSSRCNSTGGEDNSGTSTEESARRSRRDYPVCTACRLVSPYDRRDVDARTYVCVACSPRAAPRAAPVPPPLPRAAATDSDSDYSKYYSSLEQLALRLLASRSSRKAASKEAAAVARETSSAPASPRPRPARSHPASPAPASPAPRSTPRRHRYSSASPIRQLLNSPLLNRRRNKKPSESSDDEYSTGGGYSEVNGRNYRDLETFQKTQLRNKLKRATGAATSTATASSSSSDSRATNKRQLVMHNKAPMWNENSQVYQLDFGGRVTQESAKNFQIEYHGKQVMQFGRIDGNAYTLDFQYPFSALQAFAVALANVTQRLK

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00973832;
90% Identity: iTF_00809186;
80% Identity: -