Basic Information

Insect: Criorhina ranunculi
Gene Symbol: -
Assembly: GCA_951813785.1
Location: OX638383.1:31510686-31516978[+]

Transcription Factor Domain

TF Family: Nrf1
Domain: Nrf1_DNA-bind domain
PFAM: PF10491
TF Group: Basic Domians group
Description: In Drosophila, the erect wing (ewg) protein is required for proper development of the central nervous system and the indirect flight muscles. The fly ewg gene encodes a novel DNA-binding domain that is also found in four genes previously identified in sea urchin, chicken, zebrafish, and human [1]. Nuclear respiratory factor-1 is a transcriptional activator that has been implicated in the nuclear control of respiratory chain expression in vertebrates. The first 26 amino acids of nuclear respiratory factor-1 are required for the binding of dynein light chain. The interaction with dynein light chain is observed for both ewg and Nrf-1, transcription factors that are structurally and functionally similar between humans and Drosophila [2]. The highest level of expression of both ewg and Nrf-1 was found in the central nervous system, somites, first branchial arch, optic vesicle, and otic vesicle. In the mouse Nrf-1 protein, Swiss-Prot:Q8C4C0 there is also an NLS domain at 88-116, and a DNA binding and dimerisation domain at 127-282. Ewg is a site-specific transcriptional activator, and evolutionarily conserved regions of ewg contribute both positively and negatively to transcriptional activity [3].
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 1 2.1e-14 2.3e-10 40.8 0.0 107 209 8 106 2 110 0.86

#	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	1	2.1e-14	2.3e-10	40.8	0.0	107	209	8	106	2	110	0.86

Sequence Information

Coding Sequence: atggaCGAAATTGAAGAAGTTCAACAACATAACATGATCTCGAATTTACCGCTTCTGTTTGCCAACGGCTATCCAACGTCACTGGATAAAATCAGCGAAAGTCAATTAGAGAACTTCATACCATTCATGGTACAATGTTCGCTTGGTCATATCAATTTACAGGGAAAAATCGATTACAGTGAACCAGAATGGTGGCCCGAGAATGTTCCCTATACGATACCAttcacaaaaccaaaaaaatttactGGGAATTGgttggaaaaaatgaaagagattGTCATTATCTGTTATCAGTTCCACAAAAGTGTATTTCTACTTAGATTCTGCAATGATCTGGCTGCCTACGAACATGCTAGTCTACGATTTATTAACAATTATAATTCTACGACGTCACTGTTCGACAGGCGAAGCAATAAGCTGTTGGTCACatttagaaatgaaaacatGTCGTATGATCAACCACAACGAAGTCGAAAATGCCTATTACAGCAAAAATCAAAGATCAATTCGCAACAACAACATATGGTTGAGCCAGCGCCCTTTGATATTTATCTCTGTGATAATTGTGATGCTGAACTGTATTCAGAAGAAGCCATTGTGgAACATGAGAAAACCTGCAATTTAGACGATGATGTCATAATTTGTGACTCACCAGAACCTCCCGAAGACAATCAATTAAACTTATCATCAAACACGACTGAAAACAATGAACTCCGTATAGGCTTCTTactcaatttcaatttacaaagTCGAGATCCAGCAACAAAAGACTACTCCTCCAATACCACTACAACCAAAGAGGCTAAAGACACGGCCGCTTCTGCCGCTCCATTGGAAAAACTAAAACGACTTCCGCGACGTAATCGTGCCGTGCATTCCCTCTCACGATGCCCAACAATACCCCTATCGTCGCCAGCTGGTCAGCTTCTTATAAAAACCTCTAAAACCCTTATGACACAAGACTACCTCATGGAACGACTCGATCGAATGGAGCGTTTTTGTTACGCTCCCATCCTTACAAAAGGATCAATCAAGCCGAAATTCCTCGATAAAAAGTATGTAACTCCCGTGTCGCATTGTACGTTCAAAAAACCTCAGGACTATACAATACACACGTATGTATTCCCGCGACGGCAATTTTCCCAACGACAACGCACAGAGAATTTTATGTTCCTAAATTCGCTGTTGATCAAGCGATGTCGTCCGATCTCTGTGCGACTGCGTAAGATCACCGACAACGACATTGTCAAACGGAAACGAGCTATACACTCAAATAAGCTAAATATCAAACTAACCCGCGACACATCTAGAAGTTCAAATTGGAAGATCTCCTCACCATCGGCAGAGATCATTGTAGACACAATTGATTTGTGCTCCTCGGACGACGAATCAGAACATCAGCAGCATGGCCATACTCCAGACAGTAGCAGCAGTTCAATGGCGAATATACCTGCGATAAAGTTACAATTGCAAAAGATTGCCCAGCGCCTTAATTCTGAAGTTACACTGACGGCAATACCACGAGATCCGATAAACGGTTTGATGCGACAGCATTTATTAAACTCTTCACCAACAGTGGTAGCCGCAGCTACATCTACAACAAATTCTAAAGGAAGTTTACATCACAATCGACAGCCACCGACAAAGGATGATCCGAAACTGCCACCACTTAATCGCTACGAAGGTAACATACTTTTGTCACCAACACCAAACGGCACTGTGGGTACCCCAACAAAGCCGCTCCAACCATCAGTGATCATATTCTCGAACTATACCACAAATCCGATCACTATCAATTCCTTTCTTTCGACGGCGTCTGGTACAACGACGTCTACaacaaataataacaacaatgaCCTGATAGTAAGTAGCAGCtatcaaaatgaagaaaatcacCATGAAAgtagttcaaaaaaaaatgtatccgtGGCGGAGTGGTATCCAGCGTCAATAGCGGCAAATAATAATTCAATAAGTAGTACACATAATAGTAGTAGTAATAACGGTAGTAGAACGGTGGGTGTTAGTGAACGTAGCTCAAGAAGTTTGCCATTAATGTCATTCGGTTCGACCAGCCGGATTGTATCAATTGATCTAACATCCTAA
Protein Sequence: MDEIEEVQQHNMISNLPLLFANGYPTSLDKISESQLENFIPFMVQCSLGHINLQGKIDYSEPEWWPENVPYTIPFTKPKKFTGNWLEKMKEIVIICYQFHKSVFLLRFCNDLAAYEHASLRFINNYNSTTSLFDRRSNKLLVTFRNENMSYDQPQRSRKCLLQQKSKINSQQQHMVEPAPFDIYLCDNCDAELYSEEAIVEHEKTCNLDDDVIICDSPEPPEDNQLNLSSNTTENNELRIGFLLNFNLQSRDPATKDYSSNTTTTKEAKDTAASAAPLEKLKRLPRRNRAVHSLSRCPTIPLSSPAGQLLIKTSKTLMTQDYLMERLDRMERFCYAPILTKGSIKPKFLDKKYVTPVSHCTFKKPQDYTIHTYVFPRRQFSQRQRTENFMFLNSLLIKRCRPISVRLRKITDNDIVKRKRAIHSNKLNIKLTRDTSRSSNWKISSPSAEIIVDTIDLCSSDDESEHQQHGHTPDSSSSSMANIPAIKLQLQKIAQRLNSEVTLTAIPRDPINGLMRQHLLNSSPTVVAAATSTTNSKGSLHHNRQPPTKDDPKLPPLNRYEGNILLSPTPNGTVGTPTKPLQPSVIIFSNYTTNPITINSFLSTASGTTTSTTNNNNNDLIVSSSYQNEENHHESSSKKNVSVAEWYPASIAANNNSISSTHNSSSNNGSRTVGVSERSSRSLPLMSFGSTSRIVSIDLTS

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00309957; iTF_01520709; iTF_01522308; iTF_01521620; iTF_00314888; iTF_01541897; iTF_01300554; iTF_00688340; iTF_00991502; iTF_01223124; iTF_01541168; iTF_00314005; iTF_00310749; iTF_00315678; iTF_00311542; iTF_00671958; iTF_00724507; iTF_01116189; iTF_01395581; iTF_00670686; iTF_00671350; iTF_01044478; iTF_00240401; iTF_00672607; iTF_00313184; iTF_00312329;
90% Identity: -
80% Identity: -