Mmyr004782.1


Basic Information
Transcription Factor Domain
Sequence Information
Similer Transcription Factors

Basic Information

Insect
Microdon myrmicae
Gene Symbol
CAMTA1
Assembly
GCA_963931805.1
Location
OZ007496.1:205585369-205602072[-]

Transcription Factor Domain

TF Family
CG-1
Domain
CG-1 domain
PFAM
PF03859
TF Group
Unclassified Structure
Description
CG-1 domains are highly conserved domains of about 130 amino-acid residues containing a predicted bipartite NLS and named after a partial cDNA clone isolated from parsley encoding a sequence-specific DNA-binding protein [2]. CG-1 domains are associated with CAMTA proteins (for CAlModulin -binding Transcription Activator) that are transcription factors containing a calmodulin -binding domain and ankyrins (ANK) motifs [1].
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 1 4.8e-15 1.6e-10 41.6 0.2 78 116 34 71 30 71 0.93

Sequence Information

Coding Sequence
ATGTACCTATCCGCTGCGGACACGACGTCCCACTGGATTTTCTCAAAACCAAAAACACAAGATCAATTAAATTGCATCGTACCCCCAATGTTCTCAACTTTAAAGtGCATCTATGGATGTTATGTCCATTCCGCCATTCTACCAACATTCCATCGCAGATGTTACTGGTTACTTCAGAATCCTGACATCGTGCTCGTTCACTACCTCAATGTTCCTTACCCGGATGATAACAAGATGGCTGTTATAGCTCCTAGTCTGACTCTTTGGGGTGATAAAAAAGAGTGGACCAAGGAGGAGTTGGTTAGCCAGCTGAAACCAATGTTATCCACGGTTTTCAGTGATGAAGACTCTGATTCAGGAAACGATATCGAGATATCGaatgccgaaacTGTGGAATCTATTGTGAGTCAATTAATGGAAAAACAACGACTAGCTAGACAGGCAGCTCTAGTGAAACAACTTGAATGCGGATGCCCAGATTCGACATGTGCCGATGGCAAGTCCTGCTCACATCCCATGCGTAGGATTGGCATCATGAAATCACTGACGGAAAAACGCAACGACTCCTACAATCAAGTTACCAGTACAACTCCAAATGTTCTAATCGGACCTAAGGTGTATTCGCGCTGGCCGGAGCGGAAGGCACGCTTCGGAATGCCTGCTGAGACAGAATTCGAACGCCAAAACGGCGAAATCAAATTCCAAGTTGTCCCCTCCAATATGGAACAATCACAGCAACAGCACCAGCAGTTAAATCGACACCAACAACTGTTTGCCTCCCGAAATAATTTGATATCGAACCCATCCCAGGCAACCACACACAGCTTCGGAACTAATGCTGTAAACTTCAATCAGCAAGCCTTCGCCAATGCGTCTAATCATAACAATCAAATGAATTTAAATCGCAATAATATGAATCAGATAATAatcaaccaacagcagcagcagcaacagcaacagcaggccAACATTAATGGGCTGGGTAACAATGTAATTGCTACTTCAACATCGGTGACCACATTCTCCGGCAGCAGCACCAACAACAACAATCCAAACCAACAATTATCGGTTCTGTCGCCCCGACAAATTAGTTTGCAAAACTCAAACGATCGaaatgaattaaataataactcTTTGAATCCCAGTCAGGGTCATATGCAACACCAATCATCGCAACTTCATCAACAGCACCCTTCACAGCAAACCCCGGCAGCATCGCACCACCTCCACCATCAGCAGCAACACAATGATTTAAATATACCATCCTCCCAACCCGAACACAATCCATTCAAACAGCAACAAGGACAGCAGCACCATCATCTTCGCGCCAGTTTGGCAACCACCCCGTCAATCACAACACTTTCAGCAGCCAGTTCTCCATCCTCTACCGCCCAGAATCATCACTCTCACCCTCACCAACAATTGGAACATCAGCAGCACCCTCACAACTTGCACCACccccagcaacagcaacagcagcaggcGACGTTAATTGAAAGTAATAGCATCAATCAGGGGCAATCATCGAATCTAATTAGCAATAGCTCGGATGACAATGGAAATAGCATGGGGGTTGGTGACAGCACGACGGGCAGCTGTGGTCAAGGCTCTCAACCGATGTCTACCGATATCACTGGCTCTATGCTTAACTTGTCACAGGTGAACGATACTGAACATATCCTCGATGCGGAGTTAGATGACGCTGAGACTAGTTTTCCAGGCCTTACACTTACATCACATTCGTCTGCTTGTGCCGAGAATTCAACAAATGCTACAGTTACGCTAAATGAGGCATCGTTACAGGAAAAAAAGGAACCGTCTTTATCTGCATCAGACAGAACAGTATCAGATGTTAGTGAATCACTTGCATTCTTCAATGAAACTCTGGATTTGTCACAAGAGGACATCCAAAGGACATTGATCGCCAACATGCCATTTGGAACGGGAAGTACTGCAGTCAACAATCAGCACGATGATCGTGTTACGTGTGATCTAAATCCTATGGATTTTATTACGAACGTCTGTGACGTCAACGACAACATTAAGAGGAATACGCGAAGTCATGAAGATGATGACACTGAAGATGTTTTTGTTAATTTGGACGCATTCGATATGTTAGTTGAGTTTCCTGAGTTGGAATTCGATGGGAAACATGAATCTACAAATCTCTCCTTTGAAAGCAATCAATCCAGAGTTCAGTCGAATACAAATCGAAGAATTCTGACAATCAGTGATTACAGTCCAGAATGGGCATATCCCGAAGGAGGTGTCAAAGTTTTAGTTACCGGTCCATGGAAATTGTCAAGTTCATATACTGTGCTTTTTGATTCGGTACCAGTACCAACAGTTTTAGTTCAAGATGGAGTCTTGCGGTGTTTCTGTCCAGCTCATGAGGTTGGATTGGCTACTGTACAAGTAGCAAGTGAAGGTTTTGTCATATCGAATTCAGTTATCTTCGAGTATAAATCTAACCCGAATCCGGAAGCTGTTTTTGATGGCACTGCTAACGATAGCCTCTATAAGTTCACCTTATTGAGTCGGCTGTCATCGATCGATGAGAAAATGCAAATTAAATTGGAACCGAAAGATGGAGGTAGCTCATCAAGTGGACAGTTTTGCCCAGAGGATTTTGCATTAGTCATGGCGGCTAACTTTGAAGAACGCATGGTAACCTATTGCCATCAGCTGTCAAAtaagttgtggcgaactaatacACCGGGCTCATGGACAACAAGTGGTTGTAAAGGAATGACAATGTTGCATTTGGCTTCGGCGTTGGGTTATTCCAAATTGGTCTGTACTATGCTCAACTGGAGATCAGAAAACCCAAATATTATTTTAGATACCGAAATTGATGCTCTAAGTCAGGACATTTATGGATATACTCCTATGACTTGGGCCTGTGCCAGAGGCCACACGGAAACAGCTTTAATTCTCTATAAATGGAACCAAAAtgccataaaaataaaaaatcttgCTCTACAGACACCACTGGATGTAGCTAGGTCAAAGGGATTTAAATATCTGATGTCTGAGCTCACTCGCTTGGAGAGTGATAGGAGCCGGAACAACAATGTGATGCGATCTTCATACGATATAGGCAAAGAGGTGAAACATCTCACTTGTGACATGCTAAGTAATCAGACGATTAAGGACGAACTGTTGGGAAGTAATAGCTCAGAGAATTCTTCTGATAGCCAGAACACCGATACCGCAGATGTCAATAGAAGCCATGATGGTGTGTTCCTAAGACCGATCGCTGTTGCAAGCAATCAGTCTCCGCCGAACAATAACCGATATTCGAAAAGATCATCTGTAGACAGTGGAATTAATATGGATATGAAATCTTTCTCGAAGTGTGGAAAGCCGTTGCGTGAACAGAATAAGTTATCAagCTATGACAGTAGCGATGCATATTCGCTGTCCATCGACTCAACACTTGAAGGATTCTCAGGCTTAAGTAGCTCGAGCTCACTATTGTCACCGTTACGTAAAATGGATTTCGCACTATGCGAAGTATCAACCTGTGGCTCTAGCCCAATGGCCGAAAAGCACGACGGATCCATGTCGGATATCGAAGACGACCCAGACGGTACATGTAATAATGAATCTGAGACGAGCGTAGGGGAATCCGATGCAAAGGTGCTAACATTAGCCGAACACATCATTGCCGCCATGCCCGAGAGGATTAAGAATGAATCCGATGAAATGATGATCCTTGGAAGTCCAATGTCAGAGTCATTGCACGTTGAGAACTCTGGCATTGGCAATATGCAAGATAGCTTCATGGATCCTCTATTGGATTCCTTGCCAACAACAAATTTTGACAATGACTTCACATTTGACTTCAGTGACCATAATTACCGCTACCATGACGTTAGTACGCCATGCTCTAGTTTAAGTCCAGCCAGCTCGGGACCTTTGCAATCTCCGGCTAGTTATTCAATTCCCCCAGATCCTCCTATGAGTTCACCTAGCCCTCCACCATCAACCAAGCAACTAACTGAGTTTCTTCAAGCATCGAATAACACCCAGCAACGTCCATTTGAAGCGGACTTTTCTAAACTTACTTTGACTGCTACTGAGCAGCATTCATTTCAATATTCCACATCGGAATGCAGTCGTTCCACGTGA
Protein Sequence
MYLSAADTTSHWIFSKPKTQDQLNCIVPPMFSTLKCIYGCYVHSAILPTFHRRCYWLLQNPDIVLVHYLNVPYPDDNKMAVIAPSLTLWGDKKEWTKEELVSQLKPMLSTVFSDEDSDSGNDIEISNAETVESIVSQLMEKQRLARQAALVKQLECGCPDSTCADGKSCSHPMRRIGIMKSLTEKRNDSYNQVTSTTPNVLIGPKVYSRWPERKARFGMPAETEFERQNGEIKFQVVPSNMEQSQQQHQQLNRHQQLFASRNNLISNPSQATTHSFGTNAVNFNQQAFANASNHNNQMNLNRNNMNQIIINQQQQQQQQQQANINGLGNNVIATSTSVTTFSGSSTNNNNPNQQLSVLSPRQISLQNSNDRNELNNNSLNPSQGHMQHQSSQLHQQHPSQQTPAASHHLHHQQQHNDLNIPSSQPEHNPFKQQQGQQHHHLRASLATTPSITTLSAASSPSSTAQNHHSHPHQQLEHQQHPHNLHHPQQQQQQQATLIESNSINQGQSSNLISNSSDDNGNSMGVGDSTTGSCGQGSQPMSTDITGSMLNLSQVNDTEHILDAELDDAETSFPGLTLTSHSSACAENSTNATVTLNEASLQEKKEPSLSASDRTVSDVSESLAFFNETLDLSQEDIQRTLIANMPFGTGSTAVNNQHDDRVTCDLNPMDFITNVCDVNDNIKRNTRSHEDDDTEDVFVNLDAFDMLVEFPELEFDGKHESTNLSFESNQSRVQSNTNRRILTISDYSPEWAYPEGGVKVLVTGPWKLSSSYTVLFDSVPVPTVLVQDGVLRCFCPAHEVGLATVQVASEGFVISNSVIFEYKSNPNPEAVFDGTANDSLYKFTLLSRLSSIDEKMQIKLEPKDGGSSSSGQFCPEDFALVMAANFEERMVTYCHQLSNKLWRTNTPGSWTTSGCKGMTMLHLASALGYSKLVCTMLNWRSENPNIILDTEIDALSQDIYGYTPMTWACARGHTETALILYKWNQNAIKIKNLALQTPLDVARSKGFKYLMSELTRLESDRSRNNNVMRSSYDIGKEVKHLTCDMLSNQTIKDELLGSNSSENSSDSQNTDTADVNRSHDGVFLRPIAVASNQSPPNNNRYSKRSSVDSGINMDMKSFSKCGKPLREQNKLSSYDSSDAYSLSIDSTLEGFSGLSSSSSLLSPLRKMDFALCEVSTCGSSPMAEKHDGSMSDIEDDPDGTCNNESETSVGESDAKVLTLAEHIIAAMPERIKNESDEMMILGSPMSESLHVENSGIGNMQDSFMDPLLDSLPTTNFDNDFTFDFSDHNYRYHDVSTPCSSLSPASSGPLQSPASYSIPPDPPMSSPSPPPSTKQLTEFLQASNNTQQRPFEADFSKLTLTATEQHSFQYSTSECSRST

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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