Lmig008410.1
Basic Information
- Insect
- Locusta migratoria
- Gene Symbol
- DOCK1
- Assembly
- GCA_026315105.1
- Location
- scaffold217613:203188-338081[+]
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 2 7.1e-77 5.1e-73 244.8 0.0 1 169 133 303 133 303 0.99 2 2 3 2.1e+04 -5.3 1.9 70 79 560 570 550 579 0.36
Sequence Information
- Coding Sequence
- ATGTCAGTTTCCTTCAGGAACCTGATTGTTTCTTTGTGGATACAGGCATCGGTTTTTGGATACTTTCAGCAACCGAAAATGGAACGTTTAGATGCGGCCGTTTCATTGGGAGGAGTAGGAGGAGGAATGGACCATGAGCACCTCAGTCAAGGCAGCCTTAACATAAGTGATGTCAGTAAGTGCAATGACAAGCAGCTAGCTTGCATGACTTGCTTTGCCAGGTTCACACAAAGTGAGGCCCATACACCACCTTATGGAAGTGTGATTCAGAGAACTGTTGAAGTCATCAAGACAACAGATCCTGAATTTGTGGACAGTAGTGGTAGGATGTATGGTGGTGGAGGGGGTCCTGTGGCGCCAGCCACTATGGAGGATGCGGCAAAGGCGGCAGCATACGTCAGAATTGTTGAGCAGCCAGCACCGAAGGCACTGCGCTTCCGGTACGAGTGTGAGGGCCGGTCTGCTGGGAGCATACCTGGTGTAAATAGTACATCAGAAAATAAGACCTTTCCAACAATCAAGGTGGAAGGCTACAAGGGTCGTGCTGTTGTGGTGGTCTCCTGTGTAACAAAGGACCCTCCATACAGGCCGCATCCTCACAATTTGGTTGGCAAGGAAGGCTGCAAGCGTGGTGTGTGCACAGTGGAGATATCGCCTGAAAATATGACTGCCTCTTTCTCCAACCTAGGCATCCAGTGTGTCAAGAAGAAGGATATTGACGAAGCTCTCAAGACAAGGGAGGACATTCGTGTGGATCCTTTTCGCACGGGATTTGCTCATCGAAGCCAACCAACAAGTATAGATCTTAATGCTGTTCGATTATGCTTCCAAGTGTTCCTAGAAGGCAGTGAACGTGGGAAGTTCACCTATCAGTTGCCGCCAGTTGTGTCTGACCCAATTTATGATAAAAAGGCAATGTCAGACCTTGTTATCTGCAAGCTGAGTGATTGCACTGCAACTGTAGCTGGTGGAAAAGAGATTATTCTTCTCTGTGAGAAGGTTGCCAAAGAGGATATCCAGGTACGTTTCTTTGAGGAGCAGGGTGGACAGGTTACGTGGGAAGGCTTTGGCGAGTTTCAGCCAACGCAAGTTCACAAGCAAGTTGCAATTTGCCTCCGAACACCACGTTACCGCACTCTCGACGTTGATCGACCAGTACGTGCCCACATCCAGTTACGTCGACCCAGTGATGGTGCTACATCTGAACCTCTGCCCTTTGAATTGATACCATTGGAATCAGATCCAAAGAGAAAGAGGCCGAAAGAGATGCGTATACCTGAGGTGGAAAAGGCGATGCTCCAGCAGTTTGGCAGTACACTGTATGGGTCCTCGGCACATGCATTACCAATCCAGGCAACTAGCCAAGGACTTGAGCAGAAGCCTCCACCACAGCTCCAGCTGCAAATGCCAATAATGCATCATCCAACCATTAAGAGGGAACCAGTAGAATCAGTGACCACCCCTGGAGCATCTCCTTACATGTTTGCTGGTGCTCAGTCACCAATGTTTGTTGGTGCTGTCTCTGCCTCTGCAAGTCCGTCACATAGTGTAGGACGGACACCATCACCAATGGACTATGTTATGCCTCAACAACAGCAACCTCAACAACAACCACAACCACCTCCTCCTCAACAACAACAACCACCACCACCACCACACCAGCACCACCATCATCATCATCAGCAGCAGCAACAGCAGCAGCAGCAGAACTATCAGATGGAAGCCAAACTACAGGAATTACTGGCAGCTGGTAGGCTGCAGCCAGCCCAATTTCCATCTCAGGCACACTCAGTGCAGCATCCAGTACAAGCTCCAATACAAGTGCCACAACAGAGGATACCAGATGTAGCCAGTGGTGTTGGAGGTGGCACCGAACTCCTAGACCTGGACAGTCAACAGCTGAGTCTAGGAAACATCGACTCAGGCGATTTGACTACCTTTGGTATGTTCTGCAATTCACTTTCAGAGAATCTGTCCAGTAATCTGAACCTCACCGATGGAGGAGGTGCAGCTGCAAATACGGAAGCAGCTAGTGGCACCAGCATGACTGATAGTCTGACAAGACTTGCAAACACTACTATACAGGACATTTGCAGTCTGAACAGCATGTATAAAGGAACTGGACACTGA
- Protein Sequence
- MGGWNPVRESEKYGVAIHNYFEDKPYRIKLSVGETVNILEENGDWYFGYTTKNRALRGIFPKNYIHIKDTTSTKLGNTDGEVFNQPQVVSEITSVLREWGQIWKNLYRTHSKNFKAVEHQILELLQYRSKILSGTLPVDELKEIKQQVTSKIDMGNKMLDLDMVVRDKNGNILSPDITSTIQLYRQHEMATERIKKASMESEKPQKVVTHYSHIVFVSVRNFVCKMTEDAELLMNLYDANTNKAITENYVVRWSKEGLAKDIDQLYNLRVLFTDLGSRDLARSKVYLVCYIIRIGAMEVRDIDHRRSSQVPKKLHAEGMRRPWGVAAMDITLFLCGKMESDEEKHHFIPFLQCAERDNLDGTLRRILLLKEVPQRDHKGHGLWISLKLLHGDIKQVREENPHLVLGNVAVARKMGFPEVILPGDVRNDLYLMLVSGEFSKGSKSTDKNVEVTVKVCNEKGQSIPGVITLGGGVEPLNEYRSVIYYHEDRPRWCEIFKVAIPIEEFKASHLKFTFKHRSSTEAKDKSEKPFAMSYVTLMQENGTTLEDSLHELLVYKIDHKKYEESELAYLSLPSRRIQLTEGQKPAAGGLSLSSKDSFTIETNVCSTKLTQNVDLLGLLNWASHPEGLKDSLAALMKVDGEEVVKFLQDVLDALFNILMENFDSELYDNMVFECLLFIIGLVSDRKYQHFQPVLDLYIQESFSATLAYNKLIVVLKYHIDNASSTDSQDKDMLLRTMKSLQYCMRFVVRSRQLFSELNEGKGQAEFETCLQQLLQSITSLMCYNTDSTLLVQGACLKYLPSTIPDILEVFSATQLSELLKELINKLPPNRLTKQKMMTVNDIVHSKLFLLSECRTILLPVITAQIKELLEARDEGRSGVQYRNKTKSDAKVAKVLGASKQYICSQRGSEEVELCVKILSDIMDLLFRPDIGTTIHDIKELMLTVLRTVIQTVIAMDRDSPLVGNLVAVMISIFRQMKAHHFEVYISHFQTKTDLMDFLMEILLVFKDLVSRPVYPKDWSEMIMLQNSVILKSLRFFSHTIRDYFSQPFEHQAWNNFFHCAITFLTQPALQLDSFSQNKRSRIVARYKDMRRETGFEIRSMWFNLGQYKRQFVPGLVGPFLEMTLIPETELRKATIPIFFDMMQCEFYSSRLTSDSFGDTKRDSSHIKANFCEFEDEMIAKLDILVEGGLGDEHYKELFHEIMMELCKNHSTMHDQGIKFVDTVARLMERLLEYRCIITDENKENRMSCTVNLLDFYSEINRKEMYIRYVNKLCELHLECDNYTEAAFTLKLHSKLLKWSAEPLPPLLRSLRHPTCQTHRELKEALYYDIIHYFDKGKMWESALSICKELISLYEEETYDYLQLSCIHQRMSQFYDSIMKQIRPEPEYFRVAYYGRGFPAFLQNKVFVYRGKEYERLSDFSSRTINQLPNAELMNRLSAPSDEITESPHQYIQINKVEPVMDDRRKRFSGKAISDQIMRYYRVNDVQKFRFSRPFYRRDGASGDLDNEFANLWLERTVLVTSYPFPGILQWFPVISAEVYYVSPLQNAIETMEATNKSLKDLIVAHRADSSLHLNPLTMKIMGIVDAKVMGGIVNYEKAFFTHEYLENHPDDGPSVKMLKDLIAYQVPLLEVAIALHRQRAPPSLAPIQQRMEDCFSEIQSHVEEKYGKKVCDIKFDTPLQNQARRQLSGTSQTIDLHRLSGTSMASSESTSMHQPASKTPVTSPTIGGPIFAKASGGTLKSKKDKGKDKRRSGNKAEKRESASQWYTSELDAVSNRTTPVFELHQELTPKRPLRSEVERERRLSRPSSGQFVPGKFGTSYKFNSSGTSSNRDSV
Similar Transcription Factors
Sequence clustering based on sequence similarity using MMseqs2
- 100% Identity
- -
- 90% Identity
- -
- 80% Identity
- -