Basic Information

Insect: Zaprionus bogoriensis
Gene Symbol: pros
Assembly: GCA_035046045.1
Location: JAWNOI010000084.1:826514-838750[+]

Transcription Factor Domain

TF Family: HPD
Domain: HPD domain
PFAM: PF05044
TF Group: Helix-turn-helix
Description: Prospero is a large drosophila transcription factor protein that is expressed in all neural lineages of drosophila embryos. It is needed for correct expression of several neural proteins and in determining the cell fates of neural stem cells. Homologues of prospero are found in a wide range of animals including humans with the highest level of similarity being found in the C-terminal 160 amino acids. This region was identified as containing an atypical homeobox domain followed by a prospero domain. However, the structure shows that these two regions form a single stable structural domain as defined here [1]. This homeo-prospero domain binds to DNA.
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 0.31 4.9e+03 -3.0 3.2 55 100 564 610 561 632 0.76

2 2 9.2e-87 1.4e-82 274.9 2.4 1 153 1709 1861 1709 1862 0.99

#	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	0.31	4.9e+03	-3.0	3.2	55	100	564	610	561	632	0.76
2	2	9.2e-87	1.4e-82	274.9	2.4	1	153	1709	1861	1709	1862	0.99

Sequence Information

Coding Sequence: ATGATGTCATCGGAGGAGTACGACGCGGACTGTTTTGGTTTGTACAGCGATGAGAACGATGTGCAGCttaaggcaacaacaacaacagcagcaacagcaacagcaacaacaacaatagcatcgtcggcagcagcagagccagaggcTGACTCTAAGCAGCAACCCCCGCAGCAGGCGAAGAGCGCGGCGAGTCTGTCGCAGCCGCTGCAGGCGAGCAACGGTAACGGGCACTCGGCAgcaacacaagcacaagcaccaatacaactacaaatacaggcacaggcacaaacGAACGGCTCGAACGACGACGCGGCGAATTGCGGCGAAATCGTGAGAGAAGCGGAGAAGCATAGCAAGAGCAGCGACTcggacgacgacggcgacggcgattcCGACTCGGACGACGTCGTCGTAATcgaaggcaacaacaaggcaacggcttcggcgacggcgacgacggcgacgacagcgacgtcggcgactacgacgacgacggcggcagcagcagcagcagtagcagcggcgcAACCACCATCGGCCAACAGCAActgtcgcagccgcagtcgcagtcgcagtagTCGCTGCAGCGCACAGAAACGGCAAATCAGTCAGTCTTCGGCCGTCGGCAAGACAACAACGTGCGCGGCTAAAAaagcaacgacgacgacgtcagcGAGTGCCAAAGCAGCCAGCAATTGCAACAGCTCGAGCTTAGTGAGAAATCGTCGCACGCGCACGCGATCCTTGAGCAAAGACAGTAACGGCAACAGTAatagtaacagcaacagcaacagcaactgcaacagcaacagtagcagccaTTTCAACGggcacggcaacagcaacagtgtgTGTAATAATAGTGTTAATAACAACGGCTGCAGCAACGGCGGCGCAACGGCAACTGCTACCTTCATGAGtagcgctgctgcggctgctgcgggtGCCGCTGGAGGAGcactctacaacaacaacaacagcaatagcaacaacaacagcagcaacaataacaacagtcaaagcaacaacaacaacacttccagtgcagcaacaggcgccacagcaggagcaacagtcgcagcgcTCTCCGGCTGCAGTTCGCCGGGCTCCGTGAACTCCGCCTCATCGCTGCTGACGGCGGCCTTCGGCAATCTATTCGGCGGCTCCTCGGCGAAGATGTTGAACGAGCTGTTTGGCCGGCAGATGAAGCAGGCGCAGGACGCGACCAGTGGGCTGCCCCAGAGCCTCGACAATGCCATGTTGGCTGCCGCCATGGAGACGGCCACCAGTGCGGAGCTGCTCAGCGCGGCTGGCCTCAGTCTGGGCAGCCTCTCAGCCAGCAAGctgatcaacaacaacaacaacaacaacagcagcagcagcaacaacaacagtggcacAGCGCtgagcaacggcagcaacgccCTAATCTCGCCAGGTTCCctcaagagcagcagcagtcgtcgCGTCTCCAACTGCAGTGATCGCTCGCtggaggcggcagcggcggcagcagcagcagatgttGCTGGTGGCTCGCCGCCGCGTGCGGCTTCAGTGAGTTCGCTGAacggcggcgccagcagcaacaccaacgagcagcagcagcagcagcagcagcagcaactgcagcacgaTTTGGTGGCGCATCACATGCTGCGCAACATACTGCAGGGCAAGAAGGAGCTCATGCAGCTCGACCAGGAGCTGCGCACtgccatgcagcagcagcagcagcagcaacagcaacagcagcaggagaagcagcagcaggagctgcactCCAAGctcaaccacaacaacaacaataacaacaacaacagtgttgctgccaccaacaacaacaacaacaacaacagtgttGTGGCCGAGAGCATCAACCTGATCGACGACTGCGACATGGCAGATATCAAAATCAAAAGTGAACCCGAACTGATGACGCAAGCAGCGCAGGTGGCGCACTCGCcgcacagccacagcagcagcagcagcagccacagccacagccacagccacagccagagcaacagccacaacagcagcagcaacagcatcgccAGCAATGGCAGCCTGCGACGCAAGTCCTCGGACTCGCTGGACAGTCTGCAGCGCGAGGAGCGCTGCACGCCGGCAGCGGCTGTGCCCGAGGCGCAGCTGGTGAACGAGGCGCTGCCCAGCAAGAAGGAGGCTGTGGACGCGACGGACATGCTGGACGAGGTGGAGCTGCTGGGGCTGGGCCACTCGCGCAACTCGGACCTGGACTCGCTGGTCTCGCCCAGCCACTcggacatgctgctgctggacaacaacagcaaggacGATGTGCTGGACAACGACGACATCATCGAGGACGACGTGgacgacgaggatgaggaggacgaggacgacgaggtGGGCATGGCGCCGAAGCGCGAGTCGGACGCGCCCAGAGCCGGGGGCCACAAGAAGCCCGGCATGGAGCTGAAGCGCGCACGCGTCGAGCACATTGTGTCCAGCATGCGATGCAGTCCCTCCGCCTCCGCGCAGGCTGGCCAGCTGCAGGTGAACGGCTGCAAGAAGCGCAAGCTCtaccagccgcagcagcacgcCATGGAGCGCTACGTGGCCGCGGCAGCGGGCCTCAACTTCGGGCTGAACCTGCAGAGCATGATGCTCGACCAGGAGGACAGCGAGTCCAACGAGTTGGAGTCGCCGCAGATCCAGCAGAAGCGCGTCGAGAAGAACGCACTGAAGTCGCAGCTGCGCTCCATGCAGGAGCAGCTCGCCGAGATGCAGCAGAAGTACGTGCAGCTCTGCACGCGCATGGAGCAGGAGTCCGAGTGCCAGGAGCTCGACAACGATCACGACCAGGACATGGAGAGCCTTGGCGCCGACCACGAGCAGGATAATGAGCATGAGCAGGAGCGGGAGCGCGAGgctgatgccgatgccgaccCGCAGCAGAACGATGACATCGACCTCTCGCACTCGCCCTCGCTCAGCGAGTCCACGCCCAAGGAGTCGGCCGGACGCGCCGGCTCCAGCTCGCCCCCCTCCGCGCTGAAGGTGCagtgcgccggcagcggcagcaacaagagcgccagcagcgagaACAACGACGCGGCAGCCGCCACGCCCCACATGCTCACCCAGATGATGAGCAAGATGATGTCcggcaagctgcagcagcacaatcCGCTCGCGGGCTCCATGGCGCATCCGGCGCTGCCGCAGGGCTTCcccccgctgctgcagcacatggGCGACATGTCGCACGCGGCCGCCATGTACCAGCAGTTCTTCTTCGAGCAGGAGGCGCGCCTGGCCAAAGAggcagccgagcagcagcagcagcagcagcaacagcagcagcagcaacatcagcagcaacaacagcagcaacagcagcagcagcaggagcagcagcgtcgcttcgagcaggaacaggagcagcagcgccgcaaggaggagcagcagcagcagctgcagcgccagcaacagcatctgcagcagctgcagcagcaacagcagctggagcaacatgttgccgctgcagtgcCGCGCATACAGCTGCAtccgcccgcccgcctgcccaCACGCATGGGCGGGGCAGCGGCCGCCGCCGCGCACAGCGTGCTCAAGACGGAACTCTCCGAGAAGTTCCAGATGCtgcggcagcagagcagcgccagcagcagcggcgccaacagcagcaacagcaacagcagctcgaTGATGCGCATGTCCGGCACGGACCTCGAGGGCCTCGCGGACGTGCTCAAGTCGGAGATAACCACCTCGCTGTCGGCCCTGGTGGACACCATCGTGACGCGCTTCGTGCACCAGCGACGCCTCTTCAGCAAGCAGGCGGACTCGGTGACCGCCGCCGCGGAGCAGCTCAACAAGGACCTCATGCTCGCCTCGCAGATCCTCGACCGCAAGTCGCCGCGCACCAAAGTCGTCGCCGATCGCGgcagcgccggcgccggcgccccCAGCGCCCCCGCGCTCCCGGCCACACAATCAGCGGCAGCTATGTTTCAGACGCCCAAGACGCCGCAGGGCATGAACCCCgtggccgccgccgcgctCTACAACTCGATGACGGGTCCCTTCTGCCTGCCCTCcgatccgcagcagcagcaacagcagcagcaggctgtgcagcagcaacagcagcagcaggccgtgcagcagcagcagcaggcagctgcccagcagcaacagactgcgcagcagcagcagcagagcgcgcagcagacgcagcagcagctcgagcagaacGAGGCACTGAGCCTGGTGGTGACGCCCAAGAAGAAGCGCCACAAGGTGACAGACACGCGCATCACGCCGCGCACCGTCAGCCGCATTTTGGCTCAAGACGGCGTTGTGCCAcccacagcagcagttgccgccgccgccgccgcagccgccgcacagcagcagcaacagcagcagcagcagcaacagcagcagcagcaacaacagcagcagcagcagaacagcggcagcagcagcaacaacagcaatgccaCGCCCGCACAGAGCCCAACGGGGCGCGGTCAGTCCGCTGGCACGTACCacccgccaccaccaccaccacccaTGATGCCCGTGTCCTTGCCCACATCTGTGGCCATACCTAATCCGTCGCTGCACGAGTCCAAGGTCTTCTCGCCGTACAGCCCCTTCTTCAATCCCCACGCGGCGGCGGGTCCGCACGGCCCGCCGCATGGGGGCCAGCCCACCGCTGCCCAGatgcaccaccaccagcaccaccatcagctgcagctctcgtCCAGTCCGCCCGGCAGCCTGGGCGCCCTCATGGACTCGCGCGACTCGCCGCCCCTGCCACATCCGCCCACCATGCTGCATCCGGCCCTGCTGGCAGCCGCCCACCACGGCGGCTCGCCGGACTACAAGACCTGCCTGCGCGCCGTCATGGATGCCCAGGACCGCCAGTCCGAGTGCAACTCGGCCGACATGCAGTTCGATGGAATGCAACCTACTATATCCTTTTTcaaacacgaacaacaacaacaacaacaacaacaacagcagcagcaactgaaatGCAGAAAGCACTCAGTTCTAATGGCCAAcaACAACCATTGCGAATCCTTGACTCCTCTGCACTCTTCTACATTGACGCCGATGCACCTGCGCAAGGCCAAGCTGATGTTCTTCTGGGTGCGGTACCCCAGCTCGGCGGTGCTCAAGATGTACTTCCCGGACATCAAgttcaacaaaaacaacacagCACAATTGGTGAAATGGTTCTCGAATTTTCGAGAATTCTACTACATACAAATGGAGAAATATGCACGACAAGCTGTCACAGAAGGCGTCAAGACACCCGATGATCTGTTGATTGCTGGAGATAGTGAATTATATCGCGTGCTCAATTTGCACTACAATCGCAATAATCACATTGAGGTACCCCAAAATTTTCGCTTTGTGGTCGAACAAACTCTGCGTGAATTTTTCCGTGCAATACAGGGTGGCAAAGACACCGAGCAATCGTGGAAGAAATCCATATACAAGATTATCTCACGCATGGACGATCCCGTGCCCGAGTACTTCAAGTCGCCGAATTTTTTAGAGCAGCTGGAATAA
Protein Sequence: MMSSEEYDADCFGLYSDENDVQLKATTTTAATATATTTIASSAAAEPEADSKQQPPQQAKSAASLSQPLQASNGNGHSAATQAQAPIQLQIQAQAQTNGSNDDAANCGEIVREAEKHSKSSDSDDDGDGDSDSDDVVVIEGNNKATASATATTATTATSATTTTTAAAAAAVAAAQPPSANSNCRSRSRSRSSRCSAQKRQISQSSAVGKTTTCAAKKATTTTSASAKAASNCNSSSLVRNRRTRTRSLSKDSNGNSNSNSNSNSNCNSNSSSHFNGHGNSNSVCNNSVNNNGCSNGGATATATFMSSAAAAAAGAAGGALYNNNNSNSNNNSSNNNNSQSNNNNTSSAATGATAGATVAALSGCSSPGSVNSASSLLTAAFGNLFGGSSAKMLNELFGRQMKQAQDATSGLPQSLDNAMLAAAMETATSAELLSAAGLSLGSLSASKLINNNNNNNSSSSNNNSGTALSNGSNALISPGSLKSSSSRRVSNCSDRSLEAAAAAAAADVAGGSPPRAASVSSLNGGASSNTNEQQQQQQQQQLQHDLVAHHMLRNILQGKKELMQLDQELRTAMQQQQQQQQQQQQEKQQQELHSKLNHNNNNNNNNSVAATNNNNNNNSVVAESINLIDDCDMADIKIKSEPELMTQAAQVAHSPHSHSSSSSSHSHSHSHSQSNSHNSSSNSIASNGSLRRKSSDSLDSLQREERCTPAAAVPEAQLVNEALPSKKEAVDATDMLDEVELLGLGHSRNSDLDSLVSPSHSDMLLLDNNSKDDVLDNDDIIEDDVDDEDEEDEDDEVGMAPKRESDAPRAGGHKKPGMELKRARVEHIVSSMRCSPSASAQAGQLQVNGCKKRKLYQPQQHAMERYVAAAAGLNFGLNLQSMMLDQEDSESNELESPQIQQKRVEKNALKSQLRSMQEQLAEMQQKYVQLCTRMEQESECQELDNDHDQDMESLGADHEQDNEHEQEREREADADADPQQNDDIDLSHSPSLSESTPKESAGRAGSSSPPSALKVQCAGSGSNKSASSENNDAAAATPHMLTQMMSKMMSGKLQQHNPLAGSMAHPALPQGFPPLLQHMGDMSHAAAMYQQFFFEQEARLAKEAAEQQQQQQQQQQQQHQQQQQQQQQQQQEQQRRFEQEQEQQRRKEEQQQQLQRQQQHLQQLQQQQQLEQHVAAAVPRIQLHPPARLPTRMGGAAAAAAHSVLKTELSEKFQMLRQQSSASSSGANSSNSNSSSMMRMSGTDLEGLADVLKSEITTSLSALVDTIVTRFVHQRRLFSKQADSVTAAAEQLNKDLMLASQILDRKSPRTKVVADRGSAGAGAPSAPALPATQSAAAMFQTPKTPQGMNPVAAAALYNSMTGPFCLPSDPQQQQQQQQAVQQQQQQQAVQQQQQAAAQQQQTAQQQQQSAQQTQQQLEQNEALSLVVTPKKKRHKVTDTRITPRTVSRILAQDGVVPPTAAVAAAAAAAAAQQQQQQQQQQQQQQQQQQQQQNSGSSSNNSNATPAQSPTGRGQSAGTYHPPPPPPPMMPVSLPTSVAIPNPSLHESKVFSPYSPFFNPHAAAGPHGPPHGGQPTAAQMHHHQHHHQLQLSSSPPGSLGALMDSRDSPPLPHPPTMLHPALLAAAHHGGSPDYKTCLRAVMDAQDRQSECNSADMQFDGMQPTISFFKHEQQQQQQQQQQQQLKCRKHSVLMANNNHCESLTPLHSSTLTPMHLRKAKLMFFWVRYPSSAVLKMYFPDIKFNKNNTAQLVKWFSNFREFYYIQMEKYARQAVTEGVKTPDDLLIAGDSELYRVLNLHYNRNNHIEVPQNFRFVVEQTLREFFRAIQGGKDTEQSWKKSIYKIISRMDDPVPEYFKSPNFLEQLE

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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