Dani007661.2


Basic Information
Transcription Factor Domain
Sequence Information
Similer Transcription Factors

Basic Information

Insect
Dryomyza anilis
Gene Symbol
Nfat5
Assembly
GCA_951804985.1
Location
OX638130.1:126364549-126388825[-]

Transcription Factor Domain

TF Family
RHD
Domain
RHD domain
PFAM
PF00554
TF Group
Beta-Scaffold Factors
Description
Proteins containing the Rel homology domain (RHD) are eukaryotic transcription factors. The RHD is composed of two structural domains. This is the N-terminal DNA-binding domain that is similar to that found in P53. The C-terminal domain has an immunoglobulin-like fold (See PF16179) that functions as a dimerisation domain [1-2].
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 6.9e-36 5.1e-32 112.2 0.7 1 168 309 468 309 469 0.97
2 3 5 3.7e+04 -16.0 15.8 129 129 1071 1071 1022 1099 0.57
3 3 5 3.7e+04 -11.0 10.6 58 76 1082 1101 1056 1118 0.69

Sequence Information

Coding Sequence
ATGTCCACCTCATCCACAATGTCGCCGCGCATACATCGCAAGGGCTTTCGCACACCCTCCAAAAGGCATCCCGGCAAAGCGTTACCCGGCAAAATGCATCCCATTTCCAGGATTGGTCCTGGCAAAATACCACCCGGCAAACGTTTTCCACAACGGCCACACCCACCACCCTGTGATAATTCCAATGATAGTGGCTTCGGGTTTGATCAACATCTGGAGGTACAACAAAGtagtagcagtagcagcagtagtagtagtagcaacaacaacaacaacagcaacaacagtcaTCCCACCAACAGCCAGTTACAACAGTCTTCACCGCCGCAGCATGTAATACGCGCCATACCAGCCTccagCACAACAAGAACTGCACACAAAAGACACTacaataacagcagcagcaacaccgaTGATAACGACGATGAACAAGATGATGAAGATTTCTGCACAGACGATTCACAGGATTACTGTACCAATCAATATGCAGCTGGTGGTGCCATCGCCTCGCCCACATCCTCTGCATACTCTTCATCATCATCTATAGGTTCTGGCATTAGCTCCACGGGatcagtagcagcagcagtttATACACAATTGGAGGATCAATCACatcagccacaacagcagcagcagcaaacaaCTCCAAATCGTTTAAaacgcaaaattcatcaaactCAAGTTGAACTGGACAATGATGATGCCTGCAGTGAAGATGCCTTTATACGCAAAATTGCCAACGCCTCGGCGGTCACCGATGAAGTTGTTTGTTTTGAGCCAAGGCCAGCTCAAGTGGTACAGCCGCCAACACCAGCTGCAAAATTTATTGCCAATGGCACGCGCACAGTCGCACGCGTTGCACACAAACGCCAACCGGCGGCAGCACAGAACAGCGTTGCCACCTCCTCCAATGGCCGCATACAACTTGAGATTGTATCGCAGCCGGAGCAGCAACATCGTGCGCGTTATCAAACCGAAGGCAGTCGTGGTGCCGTCAAGGATCGCAGCGGCAATGGTTTTCCGATCGTCCGTCTCATGGGCTACAATAAGCCCGCACTCCTGCAAGTATTCATTGGCACCGACATTGGTCGCGTGGCGCCGCACATGTTCTACCAGGCCTGCAAGGTGGCTGGCAAGAATTCGACGCAGTGCAACGAGAAGAAGGTCGATGGCACCATGGTGATCGAGATTGATTTTAAGCCCGAAACAGATATGCTGATCAATTGTGATTGCGTTGGCATCTTGAAGGAACGCAATGTTGATGTTGAGCATCGTTTCCCCGATCACTTGACGCAGAAGAACAAAAAGAAGTCAACACGTTGTCGCATGGTCTTCCGCACACAGCTCACACACGAAGATGGCACCATGGAGACGCTGCAAGTCTGTTCGAATCCTATTATTTGCACTCAACCACCTGGTGTGCcggaaatttgcaaaaaatcccTCAACTCTTGCCCCGTCGATGGCGGACTCGAACTCTTTATAATTGGCAAAAACTTTCTAAAAGACACACATGTCATCTTTCAGGAGACATACGAGAGCGCCGATCTCGATGATCCTAATTCGGAGATTGCGGTGCGTCATCAAATGGTTGGCGATCTGTGGGAGCAGACAGTGATGCCGGACAAGGAGTATTTGCAGCAGACTCACCTCATCTGCACCGTACCGCCGTACATCCATCAAAACATTCTGAAGCCTGTTACCGTGCAGGTGGCCATCATCTCCAGCGGCAAGAAGAGCGAATCACACTCGTTTGTTTACACCCCAAAGGGCAGCTACACGACACTGGCGGCTGCCACCACGTTAAGTAACTCATTACATGGTAGCTTATCAGCGGCACAagATCCCACGCAGTACATGGACACCAGCCCCTCCTCGATGACCGGCACCGATGCCGTCTCAGCTCTTTGGAACACCGAGACCAAACACGAACTGGACTCGGGCATGATGCCGCCACCCATCAGCAACCAAATGCCTATGGGCGTTGTGCGTCGCCCCTCGCTGCCCACGAGCAACACTCCTATGATAACCGACCAGCAGCTGGCGCAACTCAATGCGGTCGCTGTTGCTGCGGAGGCACTCAAAACCGAGCTGCTCGACGAGTCATCACAGCAGTCGCTCGCCGACGTAATGCAAGCGCCGGAGACGGCTGGCGGACCGCACAGTCCAAATGCCATGCAGTATCACACACGCTACGGCCGCAAGGCCAGCATGGACACCATAATGTATGACTCGAACAGCATGAATGGCTTCCCAGTGCCGCCGCCACCAGCAGCAGCACTTGCCACCGCACAGATGGAGGTGGCGGCAGTGGCAGCAGCCGTCGAGTTGGCCGTAAAGAATGAAATCGCCAAGGAGATACTCAACGCTGCCGttgtgcagcagcagcaacatgcgcCTGTTTCCGATAAATTCTTCGACGGCAGCAGCGCCTTTGGCGTTGCACAGTCCGCAGCGGCGGTCAGTTCAGCCGTCGCTGCAGCTGCTGCCTCTTCGGCTGCCATCGATCATACGTTTAGTGATATTTTGCAACAGTCGGCGGCAGCAGGCGCTGTGCTCGAGCGAAGTCTCTCCATCTCGAGCAACTCATCATCGTCCACAGTTGGCTCTCCGCTAGCGACGGGCTCCAACTCATCGCCAGCGCACAATTCGCCGTTGGCACAGGATCTGATACTCAACGCCGAGTCTTCGGCTGCGCTACCGATGCAGCAGCTGCTACAGCAACAGCCACACGACGCAGTCGTCGATGTTTCAAATGCTGCATCACCCAGTGCGCTCGCCACAGACATCATCCTGAATCCGGCTGTGTCGCCCTCGACGCTACTCTGCTCCGCTAATGGCGCCGCCACCGCTCTAGTGCCGAACAATATGTCGCCACATCAAGTAACCATGGCCAACTCCATACTCAACGACATTGCGATGCAAACACAGCCGACGCAACAGGATGCCACCGTTGCAGCGCTTGCGCTCAGCAACATCATAATTGGCCAGCCGTCGGGCGCTGCAGCTGTTAACGGCAACACTGTGCAGCAGGCATCGCCGGTGGTGCAGCCGGAGGTTACATCGGCGACGACGACTGCTGTCAGCAACATGATCATCAAAGCGGCAGCTGACTTTATCTCAAATCAggagcagcaacagcatcatcatcatcaccatcatcatcgccagcagcagcaacaacatcatcaccatcaacagcagcagcaacaacagcatcatcatcagcatcatccgcagcaacagcatcaacatcatcatcagcatcacCCACATCAGCATACAGGGCAGCAACTCAGCAGCGCCGAGTCCATGCTAATGTCCTTGAATAATCCggcagcagctgctgctgtcGCCGCCGATCCGCTGGTCAATTTGTTGCTGACGCATGACGTGCCCAATGCAGCGGTTGCAGTGGCTGCCGCCGCAGCTGTGAGCGAAGTAAAGGCACAGTTTCCGCTGAGCATGCAACCAGCTACATCACAAGAATCTCTTATCGTCGCCTTGGCCACCGAGAATGCCATACAAAAAGCAGTTGCCGCAGCGGCCGTCACACCAAGTGGTGCTGTTGTCGCCACACAACAAACAGCCGCAACAGGCGCTGGCATACTGCCCGGCAGCGTGGTGGCTGGCACAGCAACAGTGCCGCTGCCGCCGCCAATACCGCAGGAGCTGACCACAATGTCGGATCAGGATCTGATCAGCTACATTAATCCGAGCACCTTTGATCAAAGTATGCCAACCTTTAATTTCTACTAA
Protein Sequence
MSTSSTMSPRIHRKGFRTPSKRHPGKALPGKMHPISRIGPGKIPPGKRFPQRPHPPPCDNSNDSGFGFDQHLEVQQSSSSSSSSSSSNNNNNSNNSHPTNSQLQQSSPPQHVIRAIPASSTTRTAHKRHYNNSSSNTDDNDDEQDDEDFCTDDSQDYCTNQYAAGGAIASPTSSAYSSSSSIGSGISSTGSVAAAVYTQLEDQSHQPQQQQQQTTPNRLKRKIHQTQVELDNDDACSEDAFIRKIANASAVTDEVVCFEPRPAQVVQPPTPAAKFIANGTRTVARVAHKRQPAAAQNSVATSSNGRIQLEIVSQPEQQHRARYQTEGSRGAVKDRSGNGFPIVRLMGYNKPALLQVFIGTDIGRVAPHMFYQACKVAGKNSTQCNEKKVDGTMVIEIDFKPETDMLINCDCVGILKERNVDVEHRFPDHLTQKNKKKSTRCRMVFRTQLTHEDGTMETLQVCSNPIICTQPPGVPEICKKSLNSCPVDGGLELFIIGKNFLKDTHVIFQETYESADLDDPNSEIAVRHQMVGDLWEQTVMPDKEYLQQTHLICTVPPYIHQNILKPVTVQVAIISSGKKSESHSFVYTPKGSYTTLAAATTLSNSLHGSLSAAQDPTQYMDTSPSSMTGTDAVSALWNTETKHELDSGMMPPPISNQMPMGVVRRPSLPTSNTPMITDQQLAQLNAVAVAAEALKTELLDESSQQSLADVMQAPETAGGPHSPNAMQYHTRYGRKASMDTIMYDSNSMNGFPVPPPPAAALATAQMEVAAVAAAVELAVKNEIAKEILNAAVVQQQQHAPVSDKFFDGSSAFGVAQSAAAVSSAVAAAAASSAAIDHTFSDILQQSAAAGAVLERSLSISSNSSSSTVGSPLATGSNSSPAHNSPLAQDLILNAESSAALPMQQLLQQQPHDAVVDVSNAASPSALATDIILNPAVSPSTLLCSANGAATALVPNNMSPHQVTMANSILNDIAMQTQPTQQDATVAALALSNIIIGQPSGAAAVNGNTVQQASPVVQPEVTSATTTAVSNMIIKAAADFISNQEQQQHHHHHHHHRQQQQQHHHHQQQQQQQHHHQHHPQQQHQHHHQHHPHQHTGQQLSSAESMLMSLNNPAAAAAVAADPLVNLLLTHDVPNAAVAVAAAAAVSEVKAQFPLSMQPATSQESLIVALATENAIQKAVAAAAVTPSGAVVATQQTAATGAGILPGSVVAGTATVPLPPPIPQELTTMSDQDLISYINPSTFDQSMPTFNFY

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity
-
90% Identity
-
80% Identity
-