Basic Information

Insect: Tuberolachnus salignus
Gene Symbol: -
Assembly: GCA_956483605.1
Location: OY101432.1:42075278-42089415[+]

Transcription Factor Domain

TF Family: CSD
Domain: CSD domain
PFAM: PF00313
TF Group: Beta-Scaffold Factors
Description: In molecular biology, the cold-shock domain (CSD) is a protein domain of about 70 amino acids which has been found in prokaryotic and eukaryotic DNA-binding proteins. When Escherichia coli is exposed to a temperature drop from 37 to 10 degrees Celsius, a 4–5 hour lag phase occurs, after which growth is resumed at a reduced rate.During the lag phase, the expression of around 13 proteins, which contain cold shock domains is increased 2–10 fold. These so-called 'cold shock' proteins are thought to help the cell to survive in temperatures lower than optimum growth temperature, by contrast with heat shock proteins, which help the cell to survive in temperatures greater than the optimum, possibly by condensation of the chromosome and organisation of the prokaryotic nucleoid.
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 8 0.011 1.2e+02 3.2 0.0 2 31 576 607 576 618 0.77

2 8 0.14 1.6e+03 -0.4 0.0 3 22 671 690 670 711 0.79

3 8 0.15 1.8e+03 -0.5 0.0 5 33 885 913 882 930 0.75

4 8 0.11 1.3e+03 -0.1 0.0 2 27 1173 1198 1173 1220 0.83

5 8 0.0011 13 6.3 0.0 3 38 1268 1303 1267 1316 0.82

6 8 0.11 1.3e+03 -0.1 0.0 2 27 1493 1518 1493 1540 0.83

7 8 0.0011 13 6.3 0.0 3 38 1588 1623 1587 1636 0.82

8 8 0.002 23 5.5 0.0 2 32 1943 1975 1943 1988 0.75

#	of	c-Evalue	i-Evalue	score	hmm coord from	hmm coord to	ali coord from	ali coord to	env coord from	env coord to	acc
1	8	0.011	1.2e+02	3.2	2	31	576	607	576	618	0.77
2	8	0.14	1.6e+03	-0.4	3	22	671	690	670	711	0.79
3	8	0.15	1.8e+03	-0.5	5	33	885	913	882	930	0.75
4	8	0.11	1.3e+03	-0.1	2	27	1173	1198	1173	1220	0.83
5	8	0.0011	13	6.3	3	38	1268	1303	1267	1316	0.82
6	8	0.11	1.3e+03	-0.1	2	27	1493	1518	1493	1540	0.83
7	8	0.0011	13	6.3	3	38	1588	1623	1587	1636	0.82
8	8	0.002	23	5.5	2	32	1943	1975	1943	1988	0.75

Sequence Information

Coding Sequence: ATGCTGGGCCAAATAACACTGCACGGCATACTAACATGTGTCATCGCGGTgacgatatttattttccaatcgTTCACCTATTTCGTAACGCGGATCAAAaattatgcgaaaaaaaaacATGAAGAAAAAACCACTTCAATTGTGACAACAGATACGACAATATCATCTGATTTGAAACGGAATGATAACAATGCATtgggaaattgtattattgcgcAAGAACTGATTCAAAACCACTTTGACATTCCTCTGTTAGTTGCAGAGAATGAACCAAAAGTGGATAATTGTATTGACAACACCGAAATTTCGATTGCACGCaaagaaaataatgaatttgtCGACCACATGGTTGATGATTCATACATAGCACGTGGTTTGGGTTTGATAACTGCGACTGTTGGACGTGTAGCAGAATTTTACTTATACTCGaggtttaaaaatagtttcgaAAATATTGTCGTTGAACTCAAAGGACGAAATGGTGAATCTGGTAAAATTACAATAGCAAATCGAAATCCCGTGAGTTCTATTGAACCAACATTAATTCCTATCAGTTACATTTATGACGAAGATCGAATAACGGTGACTTATACACCGTTAACGGAAGGCGTGCATACGCTAACATTATGTCGAAACGGTTTATCCATTTGTCGTTCACCATTTTATATATCAGTAGATGCAAGTCCGGCGAATTCCAGATCGCGGGTTCGATTAGGCTCAAAAAAATATAGAGTGCTTACTAAGTCCGTCAAGGGGAAACAAGCAATTATTGAaaccaaatataataacaatataactcCTAAAATAGAATCTAATAAACAAGCTGTTAAAAACAACATTCTGCCGGCATCCGAGGAAAACTGTACAGGAACGAATGTCATGTCTATTATAACTAAATTTGAGTCTAATAGTTCAGgagtcaagaaaaaaaaacaaaaacgtatgtGTAGTATAACTGAACGAGGAGGTGAATATGATTTCACGGATGAAAATTCAATTTCATTTGACGTGAAACCAGAAATGGAAAGAAACATTATTGATACCAATAATTATAACCAGGAAAAGAAATCGACGGTCAAACTCAAAAAATACGTTGAAATGATCAACGATATACCCCAAACAGAAAATACGCCAATTTTTCCAAGACGCAAAGGCAGTGTATTAATTCACGGAGTAACTAAATCAGGACATCGGGAACATTCAATATCTGTGATTTGTGACTTAAACAGTAAAATAGAACGAACTGAAAATTCCGCAGAGCATAATACAAGCACAATCGAGGCGAATCATTGTAATGAAAATATCGATACAGTTTTAAATCATACCAATAAAGAATGTGATTTAACTATTGTTACAAATAAATCATCAATAattgatcaaattgaaaaaacaaataacacattggatcaaaataaattaaaattgaccaACAACGTATTATCTTCACTCAAAGTACCGATTACAGAAACTATTGAGCGTAAAGAATCAGGTCACGAATCGCAAATATACAATACTCGTGAAACAGATGATCAAGAAACACAAACTGAATCACTAGATACTGACAAAGAAACAGACTTAAAAACTACAACCGATAACATATTGGAAGATAATATTGACCTAGTTACCATTGAAAAACCAAATGAGGATTTTATAAATACTACAAACAACGACACTCTTGCAGCATCAGATAAAAGTGaaactaaaatactaaaaactaacACAGACGTGGCACCAGATAAtccattattaaataatgataatttaataccagtaaaaaatgttaatgaaaTTAGAACTAAACATGAAAATTTGGTAATAACTGAAACTCAATCCGAATCTCTAGAAGCAAATAGTGAAATAGATATGAATACTACATTTGACTAcataataaaagataatatagaCCTAGACAATATAGTAGAACCAATCAATGATAAACTGGATATTTTAACAATCGATACAGAACATGATGAAAATGTATGTGAAAGACTAAAAACTAACACAGAAATGACACCAGATAATCCATTgacaaataatgattatttgatACCagagaaaaatgtattcgatatGAATACTACACATGAAACTTTAATAGTAAAAGAAACTCAATTTGAATCAATAGATGCTAACAAAGAAATAGAACTAAAAACTACATCTGATAACATATTGGAAGATAATATAAACCAAGTTACCATTGAAAATCCTATTAAGGATATTACAAATACTACAACCAACGATACTCTTGGAGTATCGGATAAAAGTGAAACTAAAATACTAACAACTAACACAGACGTAACACCAGATAATAcattattagATGCTAACAAAGAAATAGACGTTAAAACTACATCTGATAACATATTGGAACATAATATAAACCAAGTTACCATTGAAGAACCTATTGAAGATATTACAAATACTACAACCAACGATACTCTTACAGTATCGGATAAAAGTGAAACAGAAATACTAAAAACTAACACAGACGTAACACCAGATAATCcattattagACAACatattaaaagataatataGACCTAGACAATATATTTGAACCAGTCAATGATAAACCGGATATTCCAACAATCGATTCTGTACCGGTTAAACGTGTATGTGAAAACCTAAAACTTAACACAGAAATGACAAAAGATAATCCATTGacatataatgattatttaataccCGAGgataatgtaaacgatataaatactaaacatgAAACATTGGTAAGAAGTGAAACTCAATCAGAATCACTAGAATCTAAAAaagaaacagaaataaaaactaCGTCTGATAACATATTGGAAGATAATATTGACCTAGTTACCATTGAAAAACCTACTAAGGATATTACAAATACTACAACCAACGATACTCTTGGAGTATCGGATAAAAGTGAAACTAAAATACTAACAACTAACACAGACGTAACACCAGATAATAcattattagATGCTAACAAAGAAATAGACGTTAAAACTACATCTGATAACATATTGGAACATAATATAAACCAAGTTACCATTGAAGAACCTATTGAAGATATTACAAATACTACAACCAACGATACTCTTGCAGTATCGGATAAAAGTGAAACAGAAATACTAAAAACTAACACAGACGTAACACCAGATAATCcattattagATGCTAACAAAGAAATAGACGTTAAAACTACATCTGATAACATTTTGGAAGATAATATAAACCAAGTTACCATTGAAGAACCTATTGAAGATATTACAAATACTACAACCAACGATACTCTTGCAGTATCGGATAAAAGTGAAACAGAAATACTAAAAACTATCACAGACGTGACACCAGATAATCcattattagATGCTAACAAAGAAATAGACGTTAAAACTACAACCGATAACATATTGGAAGATAATATTGACCTAGTTACCATTGAAAAACCAAATGAGGATTTTACAAATACTACAACCAACGATACTCTTGCAGTATCGGATAAAAGTGAAACAGAAATACTAAAAACTAACACAGACGTAACACCAGATAATCCtttattaggtaataataatttaataccaatgGAAAATGTAAATGAAATTAGAACTAAACATGAAAATTCGGTAATAACTGAAACTCAATCCGAATCTCTAGAagcaaataatgaaatcaaattaaaaactacattaGACAACatattaaaagataatataGACCTAGACAATATATTTGAACCAGTCAATGATAAACCGGATATTCCAACAATCGATTCTGTACCGGTTAAACGTGTATGTGAAAAACTAAAACTTAACACAGAAATGACACCAGATAATCCATTGacatataatgattatttaataccCGAGgataatgtaaacgatataaatactaaacatgAAACATTGGTAAGAATTGAAACTCAATCAGAATCACTAGAATCTAAAAaagaaacagaaataaaaactaCATCTGATAACATATTGGAAGATAATATAAACCAAGTTACCATTGAAGAACCTATTGAAGATATTACAAATACTACAACCAACGATACTCTTGCAGTATCGGATAAAAGTGGAACAGAAATACTAAAAACTAACACAGACGTGACACCAGATAATCcattattagATGCTAACAAAGAAATAGACGTTAAAACTACATCTGATAACATATTGGAACATAATATAAACCAAGTTACCATTGAAGAACCTATTGAAGATATTACAAATACTACAACCAACGATACTCTTGCAGTATCGGATAAAAGTGAAACAGAAATACTAAAAACTATCACAGACGTGACACCAGATAATCcattattagATGCTAACAAAGAAATAGACGTTAAAACTACAACCGATAACATATTGGAAGATAATATTGACCTAGTTACCATTGAAAAACCAAATGAGGATTTTACAAATACTACAACCAACGATACTCTTGCAGTATCGGATAAAAGTGAAACAGAAATACTAAAAACTAACACAGACGTAACACCAGATAATCCtttattaggtaataataatttaataccaatgGAAAATGTAAATGAAATTAGAACTAAACATGAAAATTCGGTAATAACTGAAACTCAATCCGAATCTCTAGAagcaaataatgaaatcaaattaaaaactacattaGACAACatattaaaagataatataGACCTAGACAATATATTTGAACCAGTCAATGATAAACCGGATATTCCAACAATCGATTCTGTACCGGTTAAACGTGTATGTGAAAAACTAAAACTTAACACAGAAATGACACCAGATAATCCATTGacatataatgattatttaataccCGAGgataatgtaaacgatataaatactaaacatgAAACATTGGTAAGAATTGAAACTCAATCAGAATCACTAGAATCTAAAAaagaaacagaaataaaaactaCATCTGATAACATATTGGAAGATAATATAAACCAAGTTACCATTGAAGAACCTATTGAAGATATTACAAATACTACAACCAACGATACTCTTGCAGTATCGGATAAAAGTGGAACAGAAATACTAAAAACTAACACAGACGTGACACCAGATAATCcattattagATGCTAACAAAGAAATAGACGTTAAAACTACATCTGATAACATATTGGAACATAATATAAACCAAGTTACCATTGAAGAACCTATTGAAGATATTACAAATACTACAACCAACGATACTCTTGCAGTATCGGATAAAAGTGGAACAGAAATACTAAAAACTAACACAGACGTGACACCAGATAATCcattattagATGCTAACAAAGAAATAGACGTTAAAACTACATCTGATAACATTTTGGAAGATAATATAAACCAAGTTCCCATTGAAGAACCTATTGAAGATATTACAAATACTACAACCAACGATACTCTTGCAGTATCGGATAAAAGTGAAACAGAAATACTAAAAACTAACACAGACGTGACACCAGATAATCcattattagATGCTAACAAAGAAATAGACGTTAAAACTACATCTGATAACATATTGGAACATAATATAAACCAAGTTACCATTGAAGAacctattgaaaatattacaaatactacAACCAACGATACTCTTGCAGTATCGGATAAGAGTGAAACAGAAATACTAAAAACTAACACAGACGTAACACCAGATAATCCTttattagATTCCAACAAAGAAATAGAATTAAAAACTACATCTGATAACATATTGGAAGATAATATAAACCAAGTTACCATTGAAGAACCTATTGAGGATATTACAAATTCTACAATCAACGATACTCTTGCAGAATCGGTTAAAAGTGAAACTGAAATACTAAAAACTAACGAAGACGTAACACCAGATAAtccattattaaataatgataatttaataccaatggaaaatgtaaatgaaattaaaactaaacatgAAACTTTGGTAATAACTGAAACTCAATCCGAATCTCTAGAAACTAAAAAAGAAATAGAGTTCAAAACTACATCGGAGAACATATTTGAAGATAATATAGACCTAGTAAATTTTGAAGAACCCATAAAATTTAATGCTGATATTGGATCAGTAGAATCATTATCAGAATATAACCTATTAGAACAAATGGAAATTCAAAGCAAAATTTGCATAGGTATTTCTCATGAAACTCAGGTTACAATTGGTTCTCAATCAGGATCAATAGCCGAACTTCCACAAACAAAATTGACACCAGATCTGAACGTATCTAATTTTGACGTTGCAACTAATGATAAACTTATCACAGTTAATTCATTATCAAATGAAGTTTATTTAATACCGGTTGAAAATacaaagataaattatattgatactTCACATGAACCTTTAATTATTAATGAAGTTCAGATGGAATTTCCGATTAAACTTCCAGGAACGGTTACTACTATGATTGCGGAAGATAATAAAGACtatcaaataattaatgaaCCTATTTCTAATACATATACTACAATCGACCACTCTTTATCTAATGATTCTTCTTTGGTGCCTGTTGAAAATATTAGTGAAACTAACTTAGGCAATATATATGTAGCACAGGTTGCAATTTGTACTCAATCTGAATCAGTAGATGAACttaccaaaacaaaaattacattagagTCGAACATAAATAACACTGTCaatgtatttaatgaaaatcttaTCGATGATAATACTGATATGACATCAGGCAATTCACTATCaaacaatgattttttatttccacttaaggacacaaataatattgtcataaatAACACATACAAAGATCTGTTATTAAACAATTCTCGTTCGGTGTTACTAGAAGCAACTGATGATGTAAAAACGCAGACAATATCTGGGATTGAGTCATTGAACATTTGCATACCCACTATGGTTGAAACTAAAAGTGCAAACAAGATTCCATTTTTGAGTGAAGCTCAAAGTGATAACTTAGTGATTGCTCAACAAACGATTAAAACTGATGTAGATACTGAATATAAAACTCTGCAAATAAATGAAACTCAATTAAAATCTCTTGATGATCATAATGAAGTAGAAACAGATATTGCATTGGAGACATACAAATCTCATAGTGTCATGGTATCAATTCAAAAACCTATCAATTCTGAAATAGACATAACAACCGAAAATGTTGACAAagatactaaaaataaaactctgTCAATAAATAAACCACCAGATGAACTTATAAAAGTGGTAACAAAAAGTACGTCAGAGACCTTGCTAAATGTCACCAACCTTCATACTGAAACAGACATTCCTATAGAGGTTCCACTGTCGAACGATGCTCTTGAAGAAACAGTTGAAAATCCAAATGAGCCTGATACATATACTActgacaaattattaatatcgaacTATTCTCCGTTGActtatatttcgaataatactGAAAATCAATCTACAACAGTTTTAAATGAAGAAATCGAAAATTCTGatgctataaataaaaatgccaaacCAGCTTTATTTTGTGACACTGTTGATATAAACAGTTCTGATATTTCAAATAGTCTCTCGAAATATGGAGAGACGTCCAACGAGTTCCCAATTGGTTCTGATCATAATTTACGAGTAAAATCATGTGACAGTCCAGAATTCAAATTGACTACACAGCATATGAAATCATATGATACAGATGGCTTTGAAGAAACGTTTGCACAGTTGGAAGAAACTGACCAAATTCCCATGGATAAAAATacagttgaaaatataaacaacaCGACGATAGATGATAAGTCCTACACAGTAAACGAATCAGACTTAAATGCTATACTATGTGCATCGTCACTCCAAGAAGCTTTGACTCTGTTGGATTCAAAGATAAAGttaaagttgaaaaataatGCTAAAAAGTTGCCTTGTAAGGTTAACACgactatatataattcaaacacGCAAATACCCACCAGTAgcaatagtgaaaaaaatactaactatACAGAAGCCCGAGATTTCTTTAAGCATATAGAGCAACAGtctaaaaaataa
Protein Sequence: MLGQITLHGILTCVIAVTIFIFQSFTYFVTRIKNYAKKKHEEKTTSIVTTDTTISSDLKRNDNNALGNCIIAQELIQNHFDIPLLVAENEPKVDNCIDNTEISIARKENNEFVDHMVDDSYIARGLGLITATVGRVAEFYLYSRFKNSFENIVVELKGRNGESGKITIANRNPVSSIEPTLIPISYIYDEDRITVTYTPLTEGVHTLTLCRNGLSICRSPFYISVDASPANSRSRVRLGSKKYRVLTKSVKGKQAIIETKYNNNITPKIESNKQAVKNNILPASEENCTGTNVMSIITKFESNSSGVKKKKQKRMCSITERGGEYDFTDENSISFDVKPEMERNIIDTNNYNQEKKSTVKLKKYVEMINDIPQTENTPIFPRRKGSVLIHGVTKSGHREHSISVICDLNSKIERTENSAEHNTSTIEANHCNENIDTVLNHTNKECDLTIVTNKSSIIDQIEKTNNTLDQNKLKLTNNVLSSLKVPITETIERKESGHESQIYNTRETDDQETQTESLDTDKETDLKTTTDNILEDNIDLVTIEKPNEDFINTTNNDTLAASDKSETKILKTNTDVAPDNPLLNNDNLIPVKNVNEIRTKHENLVITETQSESLEANSEIDMNTTFDYIIKDNIDLDNIVEPINDKLDILTIDTEHDENVCERLKTNTEMTPDNPLTNNDYLIPEKNVFDMNTTHETLIVKETQFESIDANKEIELKTTSDNILEDNINQVTIENPIKDITNTTTNDTLGVSDKSETKILTTNTDVTPDNTLLDANKEIDVKTTSDNILEHNINQVTIEEPIEDITNTTTNDTLTVSDKSETEILKTNTDVTPDNPLLDNILKDNIDLDNIFEPVNDKPDIPTIDSVPVKRVCENLKLNTEMTKDNPLTYNDYLIPEDNVNDINTKHETLVRSETQSESLESKKETEIKTTSDNILEDNIDLVTIEKPTKDITNTTTNDTLGVSDKSETKILTTNTDVTPDNTLLDANKEIDVKTTSDNILEHNINQVTIEEPIEDITNTTTNDTLAVSDKSETEILKTNTDVTPDNPLLDANKEIDVKTTSDNILEDNINQVTIEEPIEDITNTTTNDTLAVSDKSETEILKTITDVTPDNPLLDANKEIDVKTTTDNILEDNIDLVTIEKPNEDFTNTTTNDTLAVSDKSETEILKTNTDVTPDNPLLGNNNLIPMENVNEIRTKHENSVITETQSESLEANNEIKLKTTLDNILKDNIDLDNIFEPVNDKPDIPTIDSVPVKRVCEKLKLNTEMTPDNPLTYNDYLIPEDNVNDINTKHETLVRIETQSESLESKKETEIKTTSDNILEDNINQVTIEEPIEDITNTTTNDTLAVSDKSGTEILKTNTDVTPDNPLLDANKEIDVKTTSDNILEHNINQVTIEEPIEDITNTTTNDTLAVSDKSETEILKTITDVTPDNPLLDANKEIDVKTTTDNILEDNIDLVTIEKPNEDFTNTTTNDTLAVSDKSETEILKTNTDVTPDNPLLGNNNLIPMENVNEIRTKHENSVITETQSESLEANNEIKLKTTLDNILKDNIDLDNIFEPVNDKPDIPTIDSVPVKRVCEKLKLNTEMTPDNPLTYNDYLIPEDNVNDINTKHETLVRIETQSESLESKKETEIKTTSDNILEDNINQVTIEEPIEDITNTTTNDTLAVSDKSGTEILKTNTDVTPDNPLLDANKEIDVKTTSDNILEHNINQVTIEEPIEDITNTTTNDTLAVSDKSGTEILKTNTDVTPDNPLLDANKEIDVKTTSDNILEDNINQVPIEEPIEDITNTTTNDTLAVSDKSETEILKTNTDVTPDNPLLDANKEIDVKTTSDNILEHNINQVTIEEPIENITNTTTNDTLAVSDKSETEILKTNTDVTPDNPLLDSNKEIELKTTSDNILEDNINQVTIEEPIEDITNSTINDTLAESVKSETEILKTNEDVTPDNPLLNNDNLIPMENVNEIKTKHETLVITETQSESLETKKEIEFKTTSENIFEDNIDLVNFEEPIKFNADIGSVESLSEYNLLEQMEIQSKICIGISHETQVTIGSQSGSIAELPQTKLTPDLNVSNFDVATNDKLITVNSLSNEVYLIPVENTKINYIDTSHEPLIINEVQMEFPIKLPGTVTTMIAEDNKDYQIINEPISNTYTTIDHSLSNDSSLVPVENISETNLGNIYVAQVAICTQSESVDELTKTKITLESNINNTVNVFNENLIDDNTDMTSGNSLSNNDFLFPLKDTNNIVINNTYKDLLLNNSRSVLLEATDDVKTQTISGIESLNICIPTMVETKSANKIPFLSEAQSDNLVIAQQTIKTDVDTEYKTLQINETQLKSLDDHNEVETDIALETYKSHSVMVSIQKPINSEIDITTENVDKDTKNKTLSINKPPDELIKVVTKSTSETLLNVTNLHTETDIPIEVPLSNDALEETVENPNEPDTYTTDKLLISNYSPLTYISNNTENQSTTVLNEEIENSDAINKNAKPALFCDTVDINSSDISNSLSKYGETSNEFPIGSDHNLRVKSCDSPEFKLTTQHMKSYDTDGFEETFAQLEETDQIPMDKNTVENINNTTIDDKSYTVNESDLNAILCASSLQEALTLLDSKIKLKLKNNAKKLPCKVNTTIYNSNTQIPTSSNSEKNTNYTEARDFFKHIEQQSKK

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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