Basic Information

Insect: Anania fuscalis
Gene Symbol: PAXBP1
Assembly: GCA_950371115.1
Location: OX493329.1:19607512-19635749[+]

Transcription Factor Domain

TF Family: GCFC
Domain: GCFC domain
PFAM: PF07842
TF Group: Unclassified Structure
Description: This entry describes a domain found in a number of GC-rich sequence DNA-binding factor proteins and homologues [4, 5], as well as in a number of other proteins including Tuftelin-interacting protein 11 [1]. While the function of the domain is unknown, some of the proteins it is found in are reported to be involved in pre-mRNA splicing [1, 2]. This domain is also found in Sip1, a septin interacting protein [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 7 0.00069 6.5 7.3 0.0 4 39 201 236 198 239 0.90

2 7 0.016 1.5e+02 2.8 0.1 19 39 302 322 297 325 0.91

3 7 0.016 1.5e+02 2.8 0.1 19 39 388 408 383 411 0.91

4 7 0.016 1.5e+02 2.8 0.1 19 39 474 494 469 497 0.91

5 7 0.016 1.5e+02 2.8 0.1 19 39 560 580 555 583 0.91

6 7 0.016 1.5e+02 2.8 0.1 19 39 646 666 641 669 0.91

7 7 3.9e-15 3.7e-11 44.2 0.2 19 189 732 880 727 886 0.75

#	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	7	0.00069	6.5	7.3	0.0	4	39	201	236	198	239	0.90
2	7	0.016	1.5e+02	2.8	0.1	19	39	302	322	297	325	0.91
3	7	0.016	1.5e+02	2.8	0.1	19	39	388	408	383	411	0.91
4	7	0.016	1.5e+02	2.8	0.1	19	39	474	494	469	497	0.91
5	7	0.016	1.5e+02	2.8	0.1	19	39	560	580	555	583	0.91
6	7	0.016	1.5e+02	2.8	0.1	19	39	646	666	641	669	0.91
7	7	3.9e-15	3.7e-11	44.2	0.2	19	189	732	880	727	886	0.75

Sequence Information

Coding Sequence: atgacaaaaacaagcCGATTACAAGAGCTCCATACGGATCGCGACGACGCAGCGGCCAAGCGCGAGTCGTGGCGCGACCGGTTGCTCGCAGCTATACGCACGCGCGAAACTTGTACAGCGCGCTGTACGCAGCTCGACGCTACGTACCGCCGCGCGCAGGCCGTGCGGGGGTACCTCACCGACCTCATCGAGTGTCTGGACGAGAAGATGCCAGAGTTGGAGGCGTTAGAAGCCCGTGCCCTAGCGCTGCACCGCTGGCGGTGCGAGTTCGTAGTGGAGCGGAGACGGGCTGACGTGCGCGACCAGGCCAACGACGTGTTAACACTCACAGCGCGTCCCGGCGCGGCCAAGCCGGTGGAATCTGAGGAGAAGCGTCGTCGCTGCGCCGAGCGCgaaggccgccgccgcgcgcgccgccgcaaGCGAGAGGAGCACGCCGCGGCCACTGGTACTCAGCCGCAGCACAGAGACGGCGATTCAAGCGACGACGAGTTACCACCTGCAGAACTTCACCATTACCAGCGAGAGAGAGACGCGATCCGCGCGGGCAGCACGCAGTTGTTCGCGGACGCGTTAGCCGCGTGGCGCAGCGTGCGCGGCGTGTGCGCCCGCCTCGCGCGCTTCCGGCGCCGCGAGCCCGCGCTCTACAGCGACGCGTACGTGGCCGCCTGCCTGCCGCGCCTGGTCGCGCCCTACGTCAGGCAGCAGCGACGCGTACGTGGCCGCCTGCCTGCCGCGCCTGGTCGCGCCCTACGTCAGGCAGCAGGTATCTATGTGAGGCGTGTGTGCGCTTGTGTGCGCTCTACAGCGACGCGTACGTGGCCGCCTGCCTGCCGCGCCTGGTCGCGCCCTACGTCAGGCAGCAGGTATCTATGTGAGGCGTGTGTGCGCTTGTGTGCGCTCTACAGCGACGCGTACGTGGCCGCCTGCCTGCCGCGCCTGGTCGCGCCCTACGTCAGGCAGCAGCGACGCGTACGTGGCCGCCTGCCTGCCGCGCCTGGTCGCGCCCTACGTCAGGCAGCAGGTATCTATGTGAGGCGTGTGTGCGCTTGTGTGCGCTCTACAGCGACGCGTACGTGGCCGCCTGCCTGCCGCGCCTGGTCGCGCCCTACGTCAGGCAGCAGGTATCTATGTGAGGCGTGTGTGCGCTTGTGTGCGCTCTACAGCGACGCGTACGTGGCCGCCTGCCTGCCGCGCCTGGTCGCGCCCTACGTCAGGCAGCAGCGACGCGTACGTGGCCGCCTGCCTGCCGCGCCTGGTCGCGCCCTACGTCAGGCAGCAGGTATCTATGTGAGGCGTGTGTGCGCTTGTGTGCGCTCTACAGCGACGCGTACGTGGCCGCCTGCCTGCCGCGCCTGGTCGCGCCCTACGTCAGGCAGCAGGTATCTATGTGAGGCGTGTGTGCGCTTGTGTGCGCTCTACAGCGACGCGTACGTGGCCGCCTGCCTGCCGCGCCTGGTCGCGCCCTACGTCAGGCAGCAGCGACGCGTACGTGGCCGCCTGCCTGCCGCGCCTGGTCGCGCCCTACGTCAGGCAGCAGGTATCTATGTGAGGCGTGTGTGCGCTTGTGTGCGCTCTACAGCGACGCGTACGTGGCCGCCTGCCTGCCGCGCCTGGTCGCGCCCTACGTCAGGCAGCAGGTATCTATGTGAGGCGTGTGTGCGCTTGTGTGCGCTCTACAGCGACGCGTACGTGGCCGCCTGCCTGCCGCGCCTGGTCGCGCCCTACGTCAGGCAGCAGCGACGCGTACGTGGCCGCCTGCCTGCCGCGCCTGGTCGCGCCCTACGTCAGGCAGCAGGTATCTATGTGAGGCGTGTGTGCGCTTGTGTGCGCTCTACAGCGACGCGTACGTGGCCGCCTGCCTGCCGCGCCTGGTCGCGCCCTACGTCAGGCAGCAGGTATCTATGTGAGGCGTGTGTGCGCTTGTGTGCGCTCTACAGCGACGCGTACGTGGCCGCCTGCCTGCCGCGCCTGGTCGCGCCCTACGTCAGGCAGCAGCGACGCGTACGTGGCCGCCTGCCTGCCGCGCCTGGTCGCGCCCTACGTCAGGCAGCAGGTATCTATGTGAGGCGTGTGTGCGCTTGTGTGCGCTCTACAGCGACGCGTACGTGGCCGCCTGCCTGCCGCGCCTGGTCGCGCCCTACGTCAGGCAGCAGGTATCTATGTGAGGCGTGTGTGCGCTTGTGTGCGCTCTACAGCGACGCGTACGTGGCCGCCTGCCTGCCGCGCCTGGTCGCGCCCTACGTCAGGCAGCAGCTCGTTCTGTGGAACCCGCTAGCGGACGAAGACAATGAAGATTACGAGAAAATGGACTGGTACAAATGCCTCATGATGTACGGCGTCCGAGCCGAGAAGCTGAGCAGTGGGTCGTCCGGTTCGGAAGACGAGGAGCCTGCGGCCGCGCTGAGCGAGCGCGCCGTGAGGGAAGACCCCGACCTCTGCCTCGTGCCCACGCTGCTCAACCGCGTCGTGCTGCCCAAACTTACTGAGCTGGTAGAGCATGCGTGGGACCCGACGAGCGTTCGCGCGAGCGTGCGGCTGCGACACTTGATAGTTCGCGTAGCGGAGCTGCCtgccgcgcgcgcgccgctcctacgcctcgccgccgccgcgcgcgctcgCCTAGCCGCCGCGCTCTATGCAGACGTGTTCCTGCCGCCGCAAGTCCCGGAAGGCCCAGGCGGGTTATTCTGGAAGCGCTGCTTAGGCGCGGGCGTGCGGCTGTTACGCGCCGCGCTCGCGCTCACCGGCCCACCCGCGCTACTACGCGCCGATACGCTTGTACTTACGCTCATAGacACGCTCAGCATAGCAGCGGGCGCGGCGCCCGGCCCGCAAGCGGCATCGGCGGCGTCCGCGCTCGCAGACACTctgccgcgctccggccgcgtgCGCGCCGCCGCCCTCGCGCGCCTGCGCACCCTCGCCACCCGCGCCCTCGCGCGCCTCGCGCCGCACAACCCGCTGCACCTCCGCCCTCGCGCGCCTGCGCACCCTCGCCACCCGCGCCCTCGCGCGCCTCGCGCCGCACAACCCGCTGCACCTCCGCCCTCGCGCGCCTGCGCACCCTCGCCACCCGCGCCCTCGCGCGCCTCGCGCCGCACAACCCGCTGCACCTGTGAGTactcgcacgcacacacacactacaccaCTGTAGCCGCCCTCGCGCGCCTGCGCACCCTCGCCACCCGCGCCCTCGCGCGCCTCGCGCCGCACAACCCGCTGCACCTCCGCCCTCGCGCGCCTGCGCACCCTCGCCACCCGCGCCCTCGCGCGCCTCGCGCCGCACAACCCGCTGCACCTCCGCCCTCGCGCGCCTGCGCACCCTCGCCACCCGCGCCCTCGCGCGCCTCGCGCCGCACAACCCGCTGCACCTGTGAGTactcgcacgcacacacacactacaccaCTGTAGCCGCCCTCGCGCGCCTGCGCACCCTCGCCACCCGCGCCCTCGCGCGCCTCGCGCCGCACAACCCGCTGCACCTCCGCCCTCGCGCGCCTGCGCACCCTCGCCACCCGCGCCCTCGCGCGCCTCGCGCCGCACAACCCGCTGCACCTCCGCCCTCGCGCGCCTGCGCACCCTCGCCACCCGCGCCCTCGCGCGCCTCGCGCCGCACAACCCGCTGCACCTGTGAGTactcgcacgcacacacacactacaccaCTGTAGCCGCCCTCGCGCGCCTGCGCACCCTCGCCACCCGCGCCCTCGCGCGCCTCGCGCCGCACAACCCGCTGCACCTCCGCCCTCGCGCGCCTGCGCACCCTCGCCACCCGCGCCCTCGCGCGCCTCGCGCCGCACAACCCGCTGCACCTCCGCCCTCGCGCGCCTGCGCACCCTCGCCACCCGCGCCCTCGCGCGCCTCGCGCCGCACAACCCGCTGCACCTGTGAGTactcgcacgcacacacacactacaccaCTGTAGCCGCCCTCGCGCGCCTGCGCACCCTCGCCACCCGCGCCCTCGCGCGCCTCGCGCCGCACAACCCGCTGCACCTGTGA
Protein Sequence: MTKTSRLQELHTDRDDAAAKRESWRDRLLAAIRTRETCTARCTQLDATYRRAQAVRGYLTDLIECLDEKMPELEALEARALALHRWRCEFVVERRRADVRDQANDVLTLTARPGAAKPVESEEKRRRCAEREGRRRARRRKREEHAAATGTQPQHRDGDSSDDELPPAELHHYQRERDAIRAGSTQLFADALAAWRSVRGVCARLARFRRREPALYSDAYVAACLPRLVAPYVRQQRRVRGRLPAAPGRALRQAAGIYVRRVCACVRSTATRTWPPACRAWSRPTSGSRYLCEACVRLCALYSDAYVAACLPRLVAPYVRQQRRVRGRLPAAPGRALRQAAGIYVRRVCACVRSTATRTWPPACRAWSRPTSGSRYLCEACVRLCALYSDAYVAACLPRLVAPYVRQQRRVRGRLPAAPGRALRQAAGIYVRRVCACVRSTATRTWPPACRAWSRPTSGSRYLCEACVRLCALYSDAYVAACLPRLVAPYVRQQRRVRGRLPAAPGRALRQAAGIYVRRVCACVRSTATRTWPPACRAWSRPTSGSRYLCEACVRLCALYSDAYVAACLPRLVAPYVRQQRRVRGRLPAAPGRALRQAAGIYVRRVCACVRSTATRTWPPACRAWSRPTSGSRYLCEACVRLCALYSDAYVAACLPRLVAPYVRQQRRVRGRLPAAPGRALRQAAGIYVRRVCACVRSTATRTWPPACRAWSRPTSGSRYLCEACVRLCALYSDAYVAACLPRLVAPYVRQQLVLWNPLADEDNEDYEKMDWYKCLMMYGVRAEKLSSGSSGSEDEEPAAALSERAVREDPDLCLVPTLLNRVVLPKLTELVEHAWDPTSVRASVRLRHLIVRVAELPAARAPLLRLAAAARARLAAALYADVFLPPQVPEGPGGLFWKRCLGAGVRLLRAALALTGPPALLRADTLVLTLIDTLSIAAGAAPGPQAASAASALADTLPRSGRVRAAALARLRTLATRALARLAPHNPLHLRPRAPAHPRHPRPRAPRAAQPAAPPPSRACAPSPPAPSRASRRTTRCTCEYSHAHTHYTTVAALARLRTLATRALARLAPHNPLHLRPRAPAHPRHPRPRAPRAAQPAAPPPSRACAPSPPAPSRASRRTTRCTCEYSHAHTHYTTVAALARLRTLATRALARLAPHNPLHLRPRAPAHPRHPRPRAPRAAQPAAPPPSRACAPSPPAPSRASRRTTRCTCEYSHAHTHYTTVAALARLRTLATRALARLAPHNPLHLRPRAPAHPRHPRPRAPRAAQPAAPPPSRACAPSPPAPSRASRRTTRCTCEYSHAHTHYTTVAALARLRTLATRALARLAPHNPLHL

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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