Factors @ Stark Lab

Gene Name	Type	Activity (log2) in S2 cells (avg/min/max)	Cluster	Data available
Gene Name	Type	Activity (log2) in S2 cells (avg/min/max)	Cluster	S2	Kc167	BG3	OSC	HeLa
CG9932 (FBgn0262160)	TF	(-1.64/-4.26/-0.82)	3	◼	◻	◻	◻	◻

Factor activity

Celltype:
S2

Additional information

CG9932 [FlyBase] | CG9932 [FlyMine] | CG9932 [BDGP]

H. sapiens orthologues¹

None.

Functionally similar transcription factors and cofactors

Similarity:

Euclidean distance

TF	Euclidean distance (rank)
wor	0.896 (1)
CG17181	0.901 (2)
tio	0.968 (3)
Snoo	0.988 (4)
Kr-h1	1.001 (5)

All TFs

Cofactor	Euclidean distance (rank)
H	1.444 (1)
MBD-like	1.869 (2)
CtBP	1.918 (3)
Sin3A	2.385 (4)
bon	2.640 (5)

All cofactors

Pearson correlation

TF	Pearson correlation (rank)
CG7372	0.984 (1)
Dr	0.982 (2)
CG8944	0.980 (3)
bap	0.978 (4)
fru	0.978 (5)

All TFs.

Cofactor	Pearson correlation (rank)
H	0.972 (1)
MBD-like	0.966 (2)
Su(z)2	0.964 (3)
CtBP	0.959 (4)
Psc	0.951 (5)

All cofactors.

CDS DNA Sequence²

ATGGACCTGCCTTCAATGGTGCAGCGTTCAGGAGACACGCTCATCGTGCGCAGCGTGGTCAGCGGCAATCAGCTGTACACGGAGCAGGGTGGCCACCAGCCCACCAGCGGGAACACGGGACACATGACGAGCAACTCGACCAGCAATACGCCAGTGGCACAGGCGGGCTCATCCCTTTTGGAGCGACATGTGGAGCGTTTCCGGCTGCAGCAGTTGTTGCAACAACAGCGTCAAGCAGCAGCTGTAGTTGCCGTTGTGAACAGCGTGCAGCAGCAGCAGCAACAGCAACCACAGCAGGTCGGCATGGATGCCAAGGAGGAGGGTCTGCCGCAATGCAAGATCAAGCGGAACTATAGCTGCAACCACTGTGCGTACTTTACACAGAATCCGCGCTATCACTTGACCCATCTGCGCGATGTGCACGGCGAGAAGATAGTGATCAACAAGTGCAAGCTGTGCCTGTACGCATCGCGACATTTCCAGAAGCTGGTGCGGCACATGAAAATGGTGCACGGCTGCACGGACGGCATTCCCAGTGGTCATGGTCAGGCCAGGGGCAAGAGGGGCATGAGCCGGGAGGCACGCAAGCGCCGGCTGGAGGAGAGCGTGGGTGTAATGGGTGGCCAATCCCTGACAGTTACCGTTCCGGATGTGCCCACGCTGGAGCAAGTGAAGCGAGAGCTGCTCCTGCAGGAGGAGAAGCTGCAGCGGGACATTCAGGCCTTCAACCAGCGACAGCGCGAGGAGCAGCAGCGCGAACAGCAGCGGGAACTGGAACTGGTGGCCACCAGTGCGTATGAGCGACAAATGCAGGTCCTTCGCGACTACGAGCGTCAGTCGCCCGCCGAACCACCAACTCCTTCGCCTACCAGCGGATCGGCAACGCCCCCCTCCAACGGGGAGGAGCCCCAGAACCGGCTGCTCAAGTGTAGCGCCTGCGAGTTCACCACCCTCTATCGAACCCAACTGCGTGCCCACGAGCTGGCCGAGCACGGCAAGACCAAGTTCTTCCGCTGCGACAAGTGCAGCTATGTGACCCACATCAAGGCGCGCTTTAGCAAGCACGTCAAGTACCACTCCATGCCGATGATCAAGTGCGTCACCTGCGACTTCCGCACGCCCTACAAATGGAATCTGGACAGGCACATGAAGAATCATGGCGGCGCGGGAGCCTTCAAGTGCGCCGCTTGCGACTTTACCGCTGACATCAAGCAATCGCTGACGGTCCACGAGATGAACCACCATGTGCCACCGGTGGGCAATGCCGGCTCCATTTGGCCAAGACGCCAGAATAAAGTCGGAGCGAGCGAGATGTGCGAGGATTTCCTCAGCGATTCCGCCGAGCTGGAGGATCAATATAACAACAACAACGTCGATGACGAACTGGACGGCGTCGATGATGCCGACGAGGCAATGAGTGGAGGGGAGGAGCAACCGTTGCACCTCCATCACTACGGCAAACGGAGCAAGTACGACGATGAGGAGGAGCCCACAGATCTCTCGCAGAAGGGCGGATGCTCCTCGGACACCTCCAGTGTGGGAACGCCCACGCCGAGGGCACAGCGAACCATGCCCAATCTCATACCGATCAGCAAGGGGGCCAAAGACGTATTAAACCTTTCGAAGGAGACGAATGCTTCGCGCAGTTCCCTGACGGAAATTGCCTCCATGTTCTTCAATGAGAAACAGATCTCGGAGATGCTTGACAAGTCGGATGTGCCACAATTGTCGCCGGCAACGACTGTGGCCTCCCAGAACTCGACGCGCAGCCAATTGACCAAGAAATCCAGCTTCATGGACAAACTGAAGACGGGGGCGCAGCACGAGAATCTGGTGTGCCAGTGCGGTCATGTGGCCAAGTGCCTTTCGGAGTCGATCATCCACGGCAAGAGCTGTCACGCCTCGGCGGTGATCATCGACGAAGATGAAGCTGGTCTGCACGAGGACGATGGCGACGATCGGCTGGAGATCGATGAGGATGACGAAGATCACCACTCGCATTCGGCCCTGAATCTCAGTGTGACGGGATCGACGCGTTGCCAGCACTGCCGGCACCGCTGCAAGTCCTCCACAGATCTGATGCACCATCTGAAGCAGTGCGTCGAGGCGATCCGTTGCGCCAACGAGATGTACGACTCGAATTCCGGCGAGAGTGGCGATCGGCGACCGGACTCGCAGAGCCTCCAGCAGCAGGCGGCCGTCCAGCAGCAGCGGGTGTGCATCTGGAACAAGGCCACCAAGGAGATCATCGCCGCAGCGGCCGCATCCCTACAGCAGGACAAGAACAACCACAACCTGGTTAAGTCCCCAACCGGAAGTCAGGCGGCCAGTAACGAGGAGAACAGCTACTATGGCGTAGAAACGGCACCCGGATACGGCGAGGTAACCAAAAAGATGACACCGGAGGAAGAGGCAGCCAACTCCTCGCTGAAGAAGGTGTACAAGTGTCCGCACTGCAGCTTCTGGGCCTCCACGGCATCCCGCTTCCACGTCCACATCGTGGGCCATCTGAACAAGAAGCCCTTTGAGTGCTCCCTCTGCTCGTACCGCTCCAACTGGCGCTGGGACATCACCAAGCACATCCGATTGAAGACGATCCGCGATCCCTCGCACAAGACGGCCAAGGTACTGATGAACGACGAGACGGGCCGCCGGAACTACACCAAGTACAACAAGTACATCACCCTGATGAAGGTAACAGAGGAGGATGGTGATCCCAAGCTGATGAAGTCCGGCGAGATGACACCGAACCAGGTGGCCTCGTTGGCCTTCCTCAAGGACTATGCCAAGGTGGGCTCGGTTTCCGGGCAGGATATCACATTGGAACCAGTGCTTCCCAACAAACCCAATGTACTGGACGATGCCCATTTGGCGGACAACCTTATACGGATTCCCTTGCTGGCCACCATGATGAATGCCGCCATGGCGCAACAGCAACACCAGCAGCAACAGCAGAAGGAGCATCAGTCCACGATGATCACGCCCTCTGTGACCATTTCCCCGGTGAAGAGATCCAATCAGGCATCCGTTATGCAGGGCAAGCCCAGCGACGATCTGATCACCGAGGTCCACCAGGAGGGCAATGAGAAGAGGACCGTCTATCGGTGCCGCAAGTGTAACTTCGGGCACCAGAATCGCGATGCTGTGCTGGCGCACGTAAAGATTCACTACCAGGACGCCAGCTATCCGAAGTCCAACTCTGGGAACTCCAGTACTTCGCCACTGCAGGTATCCGTGGGCGGAAGTCCACAATTCTACATGAACAAGGTCTTTGCCGCCATGTGCCTGTCGCAGACCCAGTCACAGTCGTCGCCCAACTCCGGCTCTGCCGGAACAAGTCCGGCCATCTCGGCCGGTCTGCTGCAGCGGGCCATACAGGAGGCCCAGCACTCGCCAACTCCGAACGCCAGCGCTCTAAGCGGACTTGCTTTGGCGTTGGCGGGCGGAAAGCCACAAGCCAATACGACGAAAGCCAGTGCCGCCTCCATTTTAGAGCACGGTGAGCAGAAAGCGAGTCAAAACGAGGCAAGTGCCGACAGTCTGACGTCGCCGAACACCACCACCACGAACTCAACCACTAGTAGAACCACCAAAGACACCACCGCCAGATCGCTGCAGGATCTGCTCACCTCACCGCGCAGTGCCAGAAATGGAAATCATCCTTCTAACGCTAACAGTAACTCGGTTGTGGGAAATGGACTCCGGCTGGATGCCGTCTACGTCGCCTCATCCACCAACAATACCACAACACCACCACCACCTCCCACCAACTCAGTCAGCAAGCCCAATGCATCGCCTTTGCCAGTAACTACCACTCCTACTCCTATTTCTACTGCCACACCGCTGGCTCATCCATTGGGTGCGGGTAACCACAGATCATCCTCATCCCATCACAATGACCAAAATCATGCTCCACCCTCACACATGGCCGGTGATGGTTGCCACCTGGCGTCGGGTCTAACCCATGCCCACATCATAAACACTAACACGAAAGCCAATCCCAGCTCCAATTCCTTTCCCTCGTCATCGTCGTCGTCATCATCGTCTTCGATGGCCTCCACTTCATCGGCCGCCGGCTCTGCGTCCGCCTCGGCGTCCTCCACCACATCGTCGCCACCGCCGCCGGCAGCCTCATCCTCCGCCAGCGCCTACATGGCTGCCATGGCGCCGCAGAAACATGTGCCAACCGTTGCGCAGATGTCGCATCCGCAGACGAGATTCCATAGCCATAGTCCAGGTAGTCCCAGCTTGCTGACCATGGCCGATGGCGATCGACGCGAACCGTCGCCGTATCGCTGTGGCCACTGCCACCAGGTCTCGAATTGGAAGCATGTCATCCAGCGGCACTGTCGCTTAAAGCATTCCGGGGATATTCGGATCGAGACCCTTGAGCGAGGAGCCAGTGTCTCGGCGAACGCACCACCCATCTACCGACCCCTGGGAGCAGGTGCCAGCAACGAATCCCAGTCCCACATCCACAATCCGTCGAATCCCATCACCAGCAACATCCTGAAGTCCGGCAGCAACACGAATGCCAACAGCAACATCAACAGCAATAGTGCGCAGCCCCTGCTGCTGACCACCAAGCAGCTGGAGCAGATCTTCCACACACCGCTCTCCGCCAGCGCCGCAGCCGTGGTGAATGCGGCCAACACCCAGCAGGATATCCAAGCGGCGGCAGCCTATTGGGCAGCAGCCTGCAAAGCAGTGGTGGCCAACAGCAGCGCCGAGGAGTTGCTGCAGTTGCAGCAGAATGACCAGATCGAGATAACCCGCCTGCCGACCACGACAGAGCACTCCATCGGATCCAGCGGCAACAATACCAAGAGCAAGCAGCAAAAGTGTCCGGTCTGTCCGTACATCTCGGAGAGCAAATCCCAGATGAACTACCATGTGTCGCTGCACAAGCCCACGCAATACGAGTGCCGCCTGTGCACATTTGTGTGTGCCAAAAAGCAGCATCTGAGCAGCCACATGAGAACGGTGCACCAGCAGCAGATGGTGGCATCGGGAGCAGGTGCAGCCGCAGGAGCAGCCGGAGGAGTAGGAGGCGGCGGAGCTGCCTCACTGGGTCTGGACTTTAGTGTGGCCCTGCAGTTGGCCGCAGCTGCCAAGCAGGTGCAACAACTGCCCGCCTCAACACCACTCTCCATCGATTTGTCCCAGATCCAGATGGATGCCGCCTCCGATGCGGAGCTCAATCCACAGCAACTGCCGCCGGAGTACCAGTACAAGCTGATTAGTTACTGTCCCAGGTGTCCGGCTCGCTTTGCCCAGAAGCACAATGACGAGCGCAATGCCAAGCAAGAGCTAGAGCAGCATTTGCTGGCCCACAGCGATCAGGAGCCGGAGGATCAGGATCCGAGCTATGTCTGCGCCTATTGTGAGTATCGTACGTCGGAGGAGACTATGCTCCAACTGCACCGTGCGGTGCACATGTCCCACTACCAGGAAAAGTGCCAGGAGCTCTATAGGAACTGCAAGGAGGATGTCGAGTATCCGGCACCCAAGTTGCTGCAGCTGACTGGTCCCGAAACCATTTGGGTGGTGGATAACGAATTGAGCTTGCAACTGCTGCAGCAGACTACCGGCGGTGCAGTTAGTACCTCCACCGGTGGGTTTGACAACCAGAACTCTCTGCTCAAGAAGCAGCTGGAATCGGGCGGTGGTCAGATGGTCCCACTTCCCCTGAAAGTATCCGTTAACAAAAACGAGGCGGAAGTCCCCGAGGAGGACGAGGAGCGACATAGCAGCTCCACACCGTCGACCAGCGCTTCGGTGGCCACCAGTGATTTGGCCGCAGATGGCAGCAGTGATGCAGGATCCGTTGACATGCCCCAGTCCATTCCGGCACCGGAACGCTGCCTCCACTGTCCATTCGAGACGCAGCAGCACGAGGAGCTGATGCAGCATCTACAGAAGCACGCCTGCGTAAATCCTCCACCTCCGAACTGCCAGAAATGTGCCCATTGTGATTACAATGCCAATGAGGAGGCGGAAATGGAGGAGCACACGGCGCTGCATTTCAATGCTGGTGAGAAGCTCAAGTCCGTGGAGTTCTTTACCTGCTACGATCAGCTGGAGATCAGCGTTGAGCGGGAACCGGAAGAAACCGCTGACTCAAAGGTGGAGCAGACCGAGCACAACAACAACCAGGACAATGTGATGAACGCCAATGTGCAGCAGCAGCAGCAACAGCAGCCAAGCAGCAGCGGCCCAGATGAACAGCCAGCTGTCGAGGGAATGGAGGAGTCGTCGGCCAAAAAGTCCAGCACAAAGTTGATTCTGTACAAGAACGATGGCGGCTTGAGTGTGAAGCTCTCCCAGGATGAGGGCGCCAATTCAGAGTCCCAGAAGAGCGAGAATATCAGCGATCGCCTGCGCAGAAGGATCCTTCGGGGAAGTGCCAACCAGTCGGAGGACGCCACTTCCACCTCCGGCCAGGAGCGACCCGCAACACCGGAAAAAATGATACTGGTCAATGCCCAGACGGGCAAAGTCATTTCCAGAAAG

CDS AA Sequence²

MDLPSMVQRSGDTLIVRSVVSGNQLYTEQGGHQPTSGNTGHMTSNSTSNTPVAQAGSSLLERHVERFRLQQLLQQQRQAAAVVAVVNSVQQQQQQQPQQVGMDAKEEGLPQCKIKRNYSCNHCAYFTQNPRYHLTHLRDVHGEKIVINKCKLCLYASRHFQKLVRHMKMVHGCTDGIPSGHGQARGKRGMSREARKRRLEESVGVMGGQSLTVTVPDVPTLEQVKRELLLQEEKLQRDIQAFNQRQREEQQREQQRELELVATSAYERQMQVLRDYERQSPAEPPTPSPTSGSATPPSNGEEPQNRLLKCSACEFTTLYRTQLRAHELAEHGKTKFFRCDKCSYVTHIKARFSKHVKYHSMPMIKCVTCDFRTPYKWNLDRHMKNHGGAGAFKCAACDFTADIKQSLTVHEMNHHVPPVGNAGSIWPRRQNKVGASEMCEDFLSDSAELEDQYNNNNVDDELDGVDDADEAMSGGEEQPLHLHHYGKRSKYDDEEEPTDLSQKGGCSSDTSSVGTPTPRAQRTMPNLIPISKGAKDVLNLSKETNASRSSLTEIASMFFNEKQISEMLDKSDVPQLSPATTVASQNSTRSQLTKKSSFMDKLKTGAQHENLVCQCGHVAKCLSESIIHGKSCHASAVIIDEDEAGLHEDDGDDRLEIDEDDEDHHSHSALNLSVTGSTRCQHCRHRCKSSTDLMHHLKQCVEAIRCANEMYDSNSGESGDRRPDSQSLQQQAAVQQQRVCIWNKATKEIIAAAAASLQQDKNNHNLVKSPTGSQAASNEENSYYGVETAPGYGEVTKKMTPEEEAANSSLKKVYKCPHCSFWASTASRFHVHIVGHLNKKPFECSLCSYRSNWRWDITKHIRLKTIRDPSHKTAKVLMNDETGRRNYTKYNKYITLMKVTEEDGDPKLMKSGEMTPNQVASLAFLKDYAKVGSVSGQDITLEPVLPNKPNVLDDAHLADNLIRIPLLATMMNAAMAQQQHQQQQQKEHQSTMITPSVTISPVKRSNQASVMQGKPSDDLITEVHQEGNEKRTVYRCRKCNFGHQNRDAVLAHVKIHYQDASYPKSNSGNSSTSPLQVSVGGSPQFYMNKVFAAMCLSQTQSQSSPNSGSAGTSPAISAGLLQRAIQEAQHSPTPNASALSGLALALAGGKPQANTTKASAASILEHGEQKASQNEASADSLTSPNTTTTNSTTSRTTKDTTARSLQDLLTSPRSARNGNHPSNANSNSVVGNGLRLDAVYVASSTNNTTTPPPPPTNSVSKPNASPLPVTTTPTPISTATPLAHPLGAGNHRSSSSHHNDQNHAPPSHMAGDGCHLASGLTHAHIINTNTKANPSSNSFPSSSSSSSSSSMASTSSAAGSASASASSTTSSPPPPAASSSASAYMAAMAPQKHVPTVAQMSHPQTRFHSHSPGSPSLLTMADGDRREPSPYRCGHCHQVSNWKHVIQRHCRLKHSGDIRIETLERGASVSANAPPIYRPLGAGASNESQSHIHNPSNPITSNILKSGSNTNANSNINSNSAQPLLLTTKQLEQIFHTPLSASAAAVVNAANTQQDIQAAAAYWAAACKAVVANSSAEELLQLQQNDQIEITRLPTTTEHSIGSSGNNTKSKQQKCPVCPYISESKSQMNYHVSLHKPTQYECRLCTFVCAKKQHLSSHMRTVHQQQMVASGAGAAAGAAGGVGGGGAASLGLDFSVALQLAAAAKQVQQLPASTPLSIDLSQIQMDAASDAELNPQQLPPEYQYKLISYCPRCPARFAQKHNDERNAKQELEQHLLAHSDQEPEDQDPSYVCAYCEYRTSEETMLQLHRAVHMSHYQEKCQELYRNCKEDVEYPAPKLLQLTGPETIWVVDNELSLQLLQQTTGGAVSTSTGGFDNQNSLLKKQLESGGGQMVPLPLKVSVNKNEAEVPEEDEERHSSSTPSTSASVATSDLAADGSSDAGSVDMPQSIPAPERCLHCPFETQQHEELMQHLQKHACVNPPPPNCQKCAHCDYNANEEAEMEEHTALHFNAGEKLKSVEFFTCYDQLEISVEREPEETADSKVEQTEHNNNQDNVMNANVQQQQQQQPSSSGPDEQPAVEGMEESSAKKSSTKLILYKNDGGLSVKLSQDEGANSESQKSENISDRLRRRILRGSANQSEDATSTSGQERPATPEKMILVNAQTGKVISRK

¹ H. sapiens orthologs were obtained from InParanoid8, in particular D.melanogaster-H.sapiens.orthoXML.
² Genomic sequences of the transcription factors were obtained from the dm3/BDGP Release 5 genome assembly. In the case of cofactors, the genomic sequences stand for our results obtained by deep sequencing.