Basic Information

Insect: Tipula vernalis
Gene Symbol: Hsf
Assembly: GCA_958295665.1
Location: OY282559.1:291018422-291034699[-]

Transcription Factor Domain

TF Family: HSF
Domain: HSF_DNA-bind domain
PFAM: PF00447
TF Group: Helix-turn-helix
Description: Heat shock factor (HSF) is a transcriptional activator of heat shock genes [1, 4]: it binds specifically to heat shock promoter elements, which are palindromic sequences rich with repetitive purine and pyrimidine motifs [1]. Under normal conditions, HSF is a homo-trimeric cytoplasmic protein, but heat shock activation results in relocalisation to the nucleus [2]. Each HSF monomer contains one C-terminal and three N-terminal leucine zipper repeats [3]. Point mutations in these regions result in disruption of cellular localisation, rendering the protein constitutively nuclear [2]. Two sequences flanking the N-terminal zippers fit the consensus of a bi- partite nuclear localisation signal (NLS). Interaction between the N- and C-terminal zippers may result in a structure that masks the NLS sequences: following activation of HSF, these may then be unmasked, resulting in relocalisation of the protein to the nucleus [3]. The DNA-binding component of HSF lies to the N terminus of the first NLS region, and is referred to as the HSF domain.
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 0.16 3.1e+04 -1.1 0.0 33 51 372 390 353 390 0.81

2 3 5.9e-28 1.2e-22 83.7 0.2 23 100 545 622 542 622 0.95

3 3 0.14 2.7e+04 -0.9 2.4 24 96 829 895 806 899 0.67

#	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	0.16	3.1e+04	-1.1	0.0	33	51	372	390	353	390	0.81
2	3	5.9e-28	1.2e-22	83.7	0.2	23	100	545	622	542	622	0.95
3	3	0.14	2.7e+04	-0.9	2.4	24	96	829	895	806	899	0.67

Sequence Information

Coding Sequence: ATGTCAGGCCGACTATTCGACGAGTACACTAACAACTCTGAGGAAATATTCTTCCctcatttaaaatgtttgagTATAACACACAATCGATATTTATCAGATTCGATATTCAATCGAATTATTGCGATGACACCGCAACTAGAAAGTTTAGATATGTCCGGTACACATATTGCATTTCACAAAGGACTTTACAGAAAATTTTATCCTAAATCACAGCTAGACCCTTCCGAAAGTATACTAACATTCCATTTCATATCGCACTTTATACAAACGAACGCAGAACGCATTAAATCGCTAAATTTTAGCGAAACGCTAATCGACGGTATAGCACTATCGCAACTGTCAACAATcgttaatttacatttaacaaaaCTTGAATTGATCAGTTGCGATCAGCTAACAAATGAAGGTGTAAAACATTTAATCAAAACACAACCACAGCTAACATACTTGGATATTTCAAGATCAGTACGATTAACCGATTCAAGTCTGTTCGAAATTTGTAATACGctggaaaatttggaaacgCTTAAGCTAAAGAAATGTCGCGCCCTAACCGATATGGGGGtgagcgaaataaaaaaattaaaaaaacttaaatgctTGGATATATCGGAATGTGAAAATATTACCGGAGTATCGCTGGTCGATGGCTTTGGACGAGAacggaatgaaaatttattggagCTATATGTTAGCGCATTGAATTTGGACGAAGTTGCGGTACTTAAAATTACCGAAAATTTTCCTAGTCTAACTGTGTTGGATGTTAGTTGCTGTTTTAATGGCGTTACTGAATTAGTGGTTCAGAtgattcttaaaaatttattaaagttgcgagagttgaatttaaattattgtgatcagGTTTCCGATGCCGCTTTAACCGGTATGTTTATGACTGAAAAATGCAAGGCATACGAAGAAAAGCGAGAGCTTAGTAAATCTTCAGAAGATCAGAGTCAAGATGAAGTTCGTCCTCTGGCTCGTAATCCGGGTGAACATCCTGTGGTCGAGGTCCTAGAGCGTGTCATCCAGAATAATGGGGTAATACAGCGCAAtcaaccatttaaaatttcattacgcAGTCGTGCCGAAGAGGAAATTGTACGCGAGGCCAAACAAAAGGAATTGctcaaaaatatgtttcaaCACCGCAGCCTAGATAGTGATGCAGATTGGAGTGGATATACCATACGTAATTTAACCGGACTTCGTTCACTACAGCTGATGTCGTGCAATAAAGTTTCAGACATATCACTTCAGTATGGTATCAAATTTTTGGAGCTCAGAGAAATTAGTTTAGCCAAGTGCCAACAAATATCGACGGCTGGCATATCCGAACTAGTTAAGAATTGTCCATCAATCGAGATTATCGATTTATCCGAATGTCACAATATTAATGACTCGGCCATTAAATTAatcacaattaatttaaaacgtttaacTCATTTGTATTTGGATCGTTGTCTCCAGCTATCTGATCACAGTCTAGATcatatcattatcaattgtaagcGAATTAAGGTGGTTGATGTGCGAGGATGTCGGGGCATGTGTAACGAACCTAATTTGAGATTATCGGCATTGGCAACATTGCGTGATGTATCTATGAGTAAACCAGGGCCATATgACGGCAAAAGTTTTATTATACAGAATCAAGCTCAATTTGCACGTGAATTATTACCATTGaattataaacataataatatgGCCAGTTTTATAAGACAATTAAATATGTatggttttcataaaataacCTCGATTGATAATGGTGGCTTAAAATTTGATCGTGACGATATGGAATTCTCACATCCATATTTTCAACGTGGGCACCCATATTTAGTCGATAATATAAAACGTAAAATTGCTCATCCCAAATCCGAAGAAAAGGGATCATCCATAAAACCTGAAATAGTTAATAAAGTTTTAACTGAAGTTAAACTTATGCGCGGACGTCAAGATACACTTGATAGTCGTTTTGTGGCAATGAAACAGGAAAACGAGGCCTTATGGCGAGAAATCGCAGTGCTACGACAGAAACAcatgaaacaacaacaaattgtaaataagctaattcaatttttggtcACGATTGTTCAGCCACAACGTACCGGTCTTAGTGGTATGGGTGGTAAGCGTCGCTTTCAACTTATGATTAATGATACACCACAATCATCAAAAATACCTCGTACAGATGATGAAATCGATTCAGGTCCCATTATTCACGAGCTTGGTGAGGAATTACTAGACGAAGTGTGTGATTCTGATGcggaattgattaatttatcacaaatggGAGCAAATGAAGCTGCAAATTCTCGGTTAATCGATAGTCAATCAAATAATCCTTATGATTCTATTGATGAAGGCCATTATATGATGGGTGATTCACAAGATTGTGATGATTTGGTTATAAATGAAACGGAAAGTATTTCTTCGGATAATCCGGATCAAAACAATGTAAATTACGTGAATGAATATGATGACGATTTTAATGTTCTTGATGAAACCGAACAAATTTTGGCCACACCGCTTGCACGCAAGGAAATGgaaaaacatcaaaaacaaaTGCAACTACATCTTCAGcagcaaaaacaacaacaagctCTTCGCGAGCAACAGAGAAAATCATCACAATTTTACCGACCAAAAGCGACcgcaaataaaagtttattgaaGAATAATAAACAgtcaaataacaataaaaaactatacaataataatgataatcttaataataataataaagtgaatCAACCTGTGCTAGTTAAGGTAgaacaacaaaatacagctacaTTAGGTAATAGAAAGGCTACCTATAGTCCAAATAACAATGCAGCTGTGAATGATGCTACCCTTACTGGTGATAATAAAGGTAATATCGTTGGTGGTGTTAAcattaaaatggaaaaactaCCAATGTACGCCAACCAGGAGGATTTCATGAATGCAGAAATGCCGAATGATATATTCGACGATGAGAATACTTTACAGGACAATCCAGATCCGTCACCCATGATTGGAGGCATTACTCTCGAAGGTGgcacatataatcaaaatttgcCACAAAAGGtagaaaataaaccaaaagcTACAAATAATACaggaaacaaaaatataaacaatattgtTCTGAGGGATGGCTCCGAATCCCCACAACaacaacgaaataaaaataattgggcGCTAACACAACACCAagccaataataaaaatgatgaaatttcaaaGCTGACTACATCAGCTGATTATGATCAACATCTCGAGAGTTTTCAAGGAGAACTGGATTCTTTAAAAGATCTACTACGCGGTGATGGATTATCAGTTGAATCAAATACACTCCTAGGATTGTTCGCTGATTCTGATTTACTAGCACCATATGGGCTATCATTATCAGAGAAGAGCATGGAAGaaaatttcccGGCCTATGGATCTGAACTAATGACTTACCAACCTTCAATTAATTGTGATTTATCTGAGTTGTTAGACGATGATAGTTTTACTGGTGACCATCCTGTAATTAACACGTCATCACAAAAGCCAGCTGTTCCCGAGAATAATACGCGAGGACTACAGACGCCTGTCTACGAGAAAAGTTTTCAATCATTCAAGAAATAG
Protein Sequence: MSGRLFDEYTNNSEEIFFPHLKCLSITHNRYLSDSIFNRIIAMTPQLESLDMSGTHIAFHKGLYRKFYPKSQLDPSESILTFHFISHFIQTNAERIKSLNFSETLIDGIALSQLSTIVNLHLTKLELISCDQLTNEGVKHLIKTQPQLTYLDISRSVRLTDSSLFEICNTLENLETLKLKKCRALTDMGVSEIKKLKKLKCLDISECENITGVSLVDGFGRERNENLLELYVSALNLDEVAVLKITENFPSLTVLDVSCCFNGVTELVVQMILKNLLKLRELNLNYCDQVSDAALTGMFMTEKCKAYEEKRELSKSSEDQSQDEVRPLARNPGEHPVVEVLERVIQNNGVIQRNQPFKISLRSRAEEEIVREAKQKELLKNMFQHRSLDSDADWSGYTIRNLTGLRSLQLMSCNKVSDISLQYGIKFLELREISLAKCQQISTAGISELVKNCPSIEIIDLSECHNINDSAIKLITINLKRLTHLYLDRCLQLSDHSLDHIIINCKRIKVVDVRGCRGMCNEPNLRLSALATLRDVSMSKPGPYDGKSFIIQNQAQFARELLPLNYKHNNMASFIRQLNMYGFHKITSIDNGGLKFDRDDMEFSHPYFQRGHPYLVDNIKRKIAHPKSEEKGSSIKPEIVNKVLTEVKLMRGRQDTLDSRFVAMKQENEALWREIAVLRQKHMKQQQIVNKLIQFLVTIVQPQRTGLSGMGGKRRFQLMINDTPQSSKIPRTDDEIDSGPIIHELGEELLDEVCDSDAELINLSQMGANEAANSRLIDSQSNNPYDSIDEGHYMMGDSQDCDDLVINETESISSDNPDQNNVNYVNEYDDDFNVLDETEQILATPLARKEMEKHQKQMQLHLQQQKQQQALREQQRKSSQFYRPKATANKSLLKNNKQSNNNKKLYNNNDNLNNNNKVNQPVLVKVEQQNTATLGNRKATYSPNNNAAVNDATLTGDNKGNIVGGVNIKMEKLPMYANQEDFMNAEMPNDIFDDENTLQDNPDPSPMIGGITLEGGTYNQNLPQKVENKPKATNNTGNKNINNIVLRDGSESPQQQRNKNNWALTQHQANNKNDEISKLTTSADYDQHLESFQGELDSLKDLLRGDGLSVESNTLLGLFADSDLLAPYGLSLSEKSMEENFPAYGSELMTYQPSINCDLSELLDDDSFTGDHPVINTSSQKPAVPENNTRGLQTPVYEKSFQSFKK

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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