Basic Information

Insect: Xestia xanthographa
Gene Symbol: STAT5B
Assembly: GCA_905147715.1
Location: LR990665.1:20774093-20811272[-]

Transcription Factor Domain

TF Family: STAT
Domain: STAT_bind domain
PFAM: PF02864
TF Group: Beta-Scaffold Factors
Description: STAT proteins (Signal Transducers and Activators of Transcription) are a family of transcription factors that are specifically activated to regulate gene transcription when cells encounter cytokines and growth factors. This family represents the DNA binding domain of STAT, which has an ig-like fold. STAT proteins also include an SH2 domain Pfam:PF00017.
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 27 0.35 8.9e+03 -0.8 0.3 54 125 135 209 123 213 0.76

2 27 5.2e-39 1.3e-34 121.6 0.4 1 126 331 462 331 464 0.93

3 27 1.4e-06 0.036 16.6 0.0 95 126 465 498 461 500 0.92

4 27 1.5e-06 0.038 16.6 0.0 95 126 501 534 498 536 0.92

5 27 1.4e-06 0.035 16.7 0.1 95 126 537 570 533 572 0.91

6 27 1.3e-06 0.033 16.7 0.1 95 126 573 606 568 608 0.91

7 27 1.5e-06 0.037 16.6 0.0 95 126 609 642 606 644 0.91

8 27 1.9e-06 0.048 16.2 0.0 95 126 645 678 641 680 0.92

9 27 1.9e-06 0.048 16.2 0.0 95 126 681 714 677 716 0.92

10 27 3.8e-06 0.097 15.2 0.1 96 126 718 750 715 752 0.91

11 27 1.6e-06 0.039 16.5 0.0 96 126 754 786 751 788 0.92

12 27 1.6e-06 0.039 16.5 0.0 96 126 790 822 787 824 0.92

13 27 1.6e-06 0.039 16.5 0.0 96 126 826 858 823 860 0.92

14 27 1.6e-06 0.039 16.5 0.0 96 126 862 894 859 896 0.92

15 27 1.6e-06 0.039 16.5 0.0 96 126 898 930 895 932 0.92

16 27 6.8e-06 0.17 14.5 0.0 95 126 933 966 930 968 0.92

17 27 1.3e-06 0.033 16.7 0.1 95 126 969 1002 964 1004 0.91

18 27 1.6e-06 0.039 16.5 0.0 96 126 1006 1038 1003 1040 0.92

19 27 1.5e-06 0.038 16.6 0.0 95 126 1041 1074 1038 1076 0.92

20 27 1.4e-06 0.036 16.6 0.0 95 126 1077 1110 1073 1112 0.92

21 27 1.6e-06 0.039 16.5 0.0 96 126 1114 1146 1111 1148 0.92

22 27 1.9e-06 0.049 16.2 0.0 96 126 1150 1182 1147 1184 0.92

23 27 1.6e-06 0.039 16.5 0.0 96 126 1186 1218 1183 1220 0.92

24 27 1.6e-06 0.039 16.5 0.0 96 126 1222 1254 1219 1256 0.92

25 27 1.5e-06 0.039 16.5 0.0 96 126 1258 1290 1255 1293 0.92

26 27 1.6e-06 0.039 16.5 0.0 96 126 1294 1326 1291 1328 0.92

27 27 3.6e-13 9e-09 38.0 0.1 95 133 1329 1369 1325 1369 0.96

#	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	27	0.35	8.9e+03	-0.8	0.3	54	125	135	209	123	213	0.76
2	27	5.2e-39	1.3e-34	121.6	0.4	1	126	331	462	331	464	0.93
3	27	1.4e-06	0.036	16.6	0.0	95	126	465	498	461	500	0.92
4	27	1.5e-06	0.038	16.6	0.0	95	126	501	534	498	536	0.92
5	27	1.4e-06	0.035	16.7	0.1	95	126	537	570	533	572	0.91
6	27	1.3e-06	0.033	16.7	0.1	95	126	573	606	568	608	0.91
7	27	1.5e-06	0.037	16.6	0.0	95	126	609	642	606	644	0.91
8	27	1.9e-06	0.048	16.2	0.0	95	126	645	678	641	680	0.92
9	27	1.9e-06	0.048	16.2	0.0	95	126	681	714	677	716	0.92
10	27	3.8e-06	0.097	15.2	0.1	96	126	718	750	715	752	0.91
11	27	1.6e-06	0.039	16.5	0.0	96	126	754	786	751	788	0.92
12	27	1.6e-06	0.039	16.5	0.0	96	126	790	822	787	824	0.92
13	27	1.6e-06	0.039	16.5	0.0	96	126	826	858	823	860	0.92
14	27	1.6e-06	0.039	16.5	0.0	96	126	862	894	859	896	0.92
15	27	1.6e-06	0.039	16.5	0.0	96	126	898	930	895	932	0.92
16	27	6.8e-06	0.17	14.5	0.0	95	126	933	966	930	968	0.92
17	27	1.3e-06	0.033	16.7	0.1	95	126	969	1002	964	1004	0.91
18	27	1.6e-06	0.039	16.5	0.0	96	126	1006	1038	1003	1040	0.92
19	27	1.5e-06	0.038	16.6	0.0	95	126	1041	1074	1038	1076	0.92
20	27	1.4e-06	0.036	16.6	0.0	95	126	1077	1110	1073	1112	0.92
21	27	1.6e-06	0.039	16.5	0.0	96	126	1114	1146	1111	1148	0.92
22	27	1.9e-06	0.049	16.2	0.0	96	126	1150	1182	1147	1184	0.92
23	27	1.6e-06	0.039	16.5	0.0	96	126	1186	1218	1183	1220	0.92
24	27	1.6e-06	0.039	16.5	0.0	96	126	1222	1254	1219	1256	0.92
25	27	1.5e-06	0.039	16.5	0.0	96	126	1258	1290	1255	1293	0.92
26	27	1.6e-06	0.039	16.5	0.0	96	126	1294	1326	1291	1328	0.92
27	27	3.6e-13	9e-09	38.0	0.1	95	133	1329	1369	1325	1369	0.96

Sequence Information

Coding Sequence: ATGTCTCTCTGGACTAGAGCTCAGCAGCTACCACCTGAGAGCCTGCAGAAGGTACGCACCATCTATGGAGACCACTTCCCCATTGAAGTTCGTCACTGCCTCGCACCTTGGATCGAGAGCCGCATATGGACAGCGGAACCTGATGAGCAGCAACGCTTCTTCGTAGACGAGTTGGTGCAGGAGATCCAAGCTCACGCCGACCTCATGCTGTCCCCAGACATGTTCGTCACCAAGATGAAGCTCCTGGACGCCGCCAAGAACTTCCACATGCAGTACAGCCACGCTCCCCACGAGCTGTACGCGTACATGCGCCGCTCGCTGGCGCTAGAGATGGACGTCATACAGAACGCGATGGGGGGCACGCCCTACGTCGCGCAGCCGCAGACCGAGAGGAAGTATAGCGAGTTAATAACGGGTCTACAAACAGTCCGCCAGAAGGTGAACATCGTCGGTGAAGAGATACGCACTCTGCAGGCGAACATTGAGTCGTTCTCGCTGCAATACCACGAGTGTCTGAAGAACAAAGGGCACATGAACTATCTGCAGCAGTCGATGACGAACGAGCGCCGCGACCTGGTGGCGTGTCTGCGCGTTCAGATCGAGGAGACCGAGAGGAAACTCAACGCACTGGTGGCACAGATCAGTCAGTCGCAGATGGAGCTGGTGGACCACATGAAGGAGAACATCGCCAACCTGCGCCAGCTGCAGAGCCAGGTCTTAGACGAGGAGCTCATCAAATGGAAACGCGAGCAGCAACTAAGCGGCAACGGGGTCCCCATGCAGTCGAACCTGAACACCATCCAGGAGTGGTGCGAGCTGCTGGCAGACCTCATCTGGCTGACGAGGCAGCAGGTCAACAACGTCGCGCGCATCAACACCAAGACCATCGTCGAGCTGCGACAGCCGCATCTCGCCGAGATGCTGGACGAGATGAGCAAGCAGGTGACCGGGTTGCTGTCAACCCTGGTGACATCTACCTTCGTGATCGAGAAGCAACCGCCGCAGGTCATGAAGACCAATACACGTTTCACGGCTACTGTCCGGTTACTAGTCGGGGGTCAGCTCAACGTGTACATGACGCCGCCACGAGTCAGCGTCGTAATAATATCAGAGCAGCAGGCTCAGCTGCTGCTGAAGAGCGAGACCCAGGCCGGGAAGGGCCAGCAGCCGGTGGAGTGTGGCGACATCCTGAACAACACCGGCACCATGGAGTACCAGCCCACCAGCCGGCAACTCAGCGTCAGCTTCCGGAACATCTCGCTGCGCAAGATCAAGCGCGCGGAGAAGAAGGGCACGGAGAGCGTCATGGACGAGAAGCTCACGCTGCTGTTCCGCTCACAGTTCAACGTGGGCGGCGGAGAGCTGGTGTTCCAAGTGAGTACACTATACATACAGAAGGGCACGGAGAGCGTCATGGACGAGAAGCTCACGCTGCTGTTCCGCTCACAGTTCAACGTGGGCGGCGGAGAGCTGGTGTTCCAAGTGAGTACACTATACATACAGAAGGGCACGGAGAGCGTCATGGACGAGAAGCTCACGCTGCTGTTCCGCTCACAGTTCAACGTGGGCGGCGGAGAGCTGGTGTTCCAAGTGAGTACACTATACATACAGAAGGGCACGGAGAGCGTCATGGACGAGAAGCTCACGCTGCTGTTCCGCTCACAGTTCAACGTGGGCGGCAGAGAGCTGGTGTTCCAAGTGAGTACACTATACATACAGAAGGGCACGGAGAGCGTCATGGACGAGAAGCTCACGCTGCTGTTCCGCTCACAGTTCAACGTGGGCGGCGGAGAGCTGGTGTTCCAAGTGAGTACACTATACATACAGAAGGGCACGGAGAGCGTCATGGACGAGAAGCTCACGCTGCTGTTCCGCTCACAGTTCAACGTGGGCGGCAGAGAGCTGGTGTTCCAAGTAAGTACACTATACATACAGAAGGGCACGGAGTGCGTCATGGACGAGAAGCTCACGCTGCTGTTCCGCTCACAGTTCAACGTGGGCGGCGGAGAGCTGGTGTTCCAAGTGAGTACACTATACATACAGAAGGGCACGGAGTGCGTCATGGACGAGAAGCTCACGCTGCTGTTCCGCTCACAGTTCAACGTGGGCGGCGGAGAGCTGGTGTTCCAAGTGAGTACACTATACATACAGAAGGACACGGAGAGCGTCATGGACGAGAAGCTCACGCTGCTGTTCCGCTCACAGTTCAACGTGGGCGGCGGAGAGCTGGTGTTCCAAGTGAGTACACTATACATACAGAAGGGCACGGAGAGCGTCATGGACGAGAAGCTCACGCTGCTGTTCCGCTCACAGTTCAACGTGGGCGGCGGAGAGCTGGTGTTCCAAGTGAGTACACTATACATACAGAAGGGCACGGAGAGCGTCATGGACGAGAAGCTCACGCTGCTGTTCCGCTCACAGTTCAACGTGGGCGGCGGAGAGCTGGTGTTCCAAGTGAGTACACTATACATACAGAAGGGCACGGAGAGCGTCATGGACGAGAAGCTCACGCTGCTGTTCCGCTCACAGTTCAACGTGGGCGGCGGAGAGCTGGTGTTCCAAGTGAGTACACTATACATACAGAAGGGCACGGAGAGCGTCATGGACGAGAAGCTCACGCTGCTGTTCCGCTCACAGTTCAACGTGGGCGGCGGAGAACTGGTGTTCCAAGTGAGTACACTATACATACAGAAGGGCACGGAGAGCGTCATGGACGAGAAGCTCACGCTGCTGTTCCGCTCACAGTTCAACGTGGGCGGCGGAGAGCTGGTGTTCCAAGTGAGTACACTATACATACAGAAGGGCACGGAGAGCGTCATGGACGAGAAGCTCCCGCTGCTGTTCCGCTCACAGTTCAACGTGGGCGGCGGAGAGCTGGTGTTCCAAGTGAGTACACTATACATACAGAAGGGCACGGAGAGCGTCATGGACGAGAAGCTCACGCTGCTGTTCCGCTCACAGTTCAACGTGGGCGGCGGAGAGCTGGTGTTCCAAGTGAGTACACTATACATACAGAAGGGCACGGAGAGCGTCATGGACGAGAAGCTCACGCTGCTGTTCCGCTCACAGTTCAACGTGGGCGGCGGAGAGCTGGTGTTCCAAGTGAGTACACTATACATACAGAAGGGCACGGAGAGCGTCATGGACGAGAAGCTCACGCTGCTGTTCCGCTCACAGTTCAACGTGGGCGGCGGAGAGCTGGTGTTCCAAGTGAGTACACTATACATACAGAAGGGCACGGAGAGCGTCATGGACGAGAAGCTCACGCTGCTGTTCCGCTCACAGTTCAACGTGGGCGGCGGAGAGCTGGTGTTCCAAGTGAGTACACTATACATACAGAAGGGCACGGAGAGCGTCATGGACGAGAAGCTCACGCTGCTGTTCCGCTCACAGTTCAACGTGGGCGGCGGAGAGCTGGTGTTCCAAGTGAGTACACTATACATACAGAAGGGCATGGAGAGTGTCATGGACGAGAAGCTCACGCTGCTGTTCCGCTCACAGTTCAACGTGGGCGGCGGAGAGCTGGTGTTCCAAGTGAGTACACTATACATACAGAAGGGCACGGAGAGCGTCATGGACGAGAAGCTCACGCTGCTGTTCCGCTCACAGTTCAACGTGGGCGGCGGAGAGCTGGTGTTCCAAGTGAGTACACTATACATACAGAAGGGCACGGAGAGCGTCATGGACGAGAAGCTCACGCTGCTGTTCCGCTCACAGTTCAACGTGGGCGGCGGAGAGCTGGTGTTCCAAGTGAGTACACTATACATACAGAAGGGCACGGAGAGCGTCATGGACGAGAAGCTCACGCTGCTGTTCCGCTCACAGTTCAACGTGGGCGGCGGAGAGCTGGTGTTCCAAGTGAGTACACTATACATACAGAAGGGCACGGAGAGCGTCATGGACGAGAAGCTCACGCTGCTGTTCCGCTCACAGTTCAACGTGGGCGGCGGAGAGCTGGTGTTCCAAGTGAGTACACTATACATACAGAAGGGCACGGAGTGCGTCATGGACGAGAAGCTCACGCTGCTGTTCCGCTCACAGTTCAACGTGGGCGGCAGAGAGCTGGTGTTCCAAGTGTGGACGCTCTCGCTGCCTGTCGTAGTGATCGTGCACGGCAACCAGGAGCCGCACGGCTGGGCCACCGTCACCTGGGACAACGCCTTCAGCCCGCCCGGCCGAGTGCCCTTCGCCGTGCCCGACAAGGTGACCTGGGGTCAGCTAGCCGAGACCCTCCGCATCAAGTTCTGTTCGGCTACAGGCGGAGATCTCTCTGAAGACAAAAGTAAAGATGCTCAACTAGGTGGTGCTTTGAATCAAATATTCGCTATGCGCCCCAGCTGTATCGCCCCACTAAAGAACGAGCTAAAGGATGAATATTTGATCATCTATCGCAAGTCCAAGGATACGTCGATGACTCTGCCGTATTATGCGTGTCGAGTGCAGCTGGATTCGCTGCATGACCGTCAACGAGAATTGACTTGCAAATATCCAGAGCTGGAGGTGCTGCTCCAGTTCCAGATTCCCAACAGCGTGAATTTCTTCAATTTCGTGATGGAGGAGATGCGTGAGGTGTTGGAGCGTGGTCGCGACAGAGAGTGTCAgtcgtttaaaattaaaaacggtGCTTCTGAAGAGACTGTTCTCACAatgattaaaaacttgtatagaTCTCAATATGGTaacatgtaa
Protein Sequence: MSLWTRAQQLPPESLQKVRTIYGDHFPIEVRHCLAPWIESRIWTAEPDEQQRFFVDELVQEIQAHADLMLSPDMFVTKMKLLDAAKNFHMQYSHAPHELYAYMRRSLALEMDVIQNAMGGTPYVAQPQTERKYSELITGLQTVRQKVNIVGEEIRTLQANIESFSLQYHECLKNKGHMNYLQQSMTNERRDLVACLRVQIEETERKLNALVAQISQSQMELVDHMKENIANLRQLQSQVLDEELIKWKREQQLSGNGVPMQSNLNTIQEWCELLADLIWLTRQQVNNVARINTKTIVELRQPHLAEMLDEMSKQVTGLLSTLVTSTFVIEKQPPQVMKTNTRFTATVRLLVGGQLNVYMTPPRVSVVIISEQQAQLLLKSETQAGKGQQPVECGDILNNTGTMEYQPTSRQLSVSFRNISLRKIKRAEKKGTESVMDEKLTLLFRSQFNVGGGELVFQVSTLYIQKGTESVMDEKLTLLFRSQFNVGGGELVFQVSTLYIQKGTESVMDEKLTLLFRSQFNVGGGELVFQVSTLYIQKGTESVMDEKLTLLFRSQFNVGGRELVFQVSTLYIQKGTESVMDEKLTLLFRSQFNVGGGELVFQVSTLYIQKGTESVMDEKLTLLFRSQFNVGGRELVFQVSTLYIQKGTECVMDEKLTLLFRSQFNVGGGELVFQVSTLYIQKGTECVMDEKLTLLFRSQFNVGGGELVFQVSTLYIQKDTESVMDEKLTLLFRSQFNVGGGELVFQVSTLYIQKGTESVMDEKLTLLFRSQFNVGGGELVFQVSTLYIQKGTESVMDEKLTLLFRSQFNVGGGELVFQVSTLYIQKGTESVMDEKLTLLFRSQFNVGGGELVFQVSTLYIQKGTESVMDEKLTLLFRSQFNVGGGELVFQVSTLYIQKGTESVMDEKLTLLFRSQFNVGGGELVFQVSTLYIQKGTESVMDEKLPLLFRSQFNVGGGELVFQVSTLYIQKGTESVMDEKLTLLFRSQFNVGGGELVFQVSTLYIQKGTESVMDEKLTLLFRSQFNVGGGELVFQVSTLYIQKGTESVMDEKLTLLFRSQFNVGGGELVFQVSTLYIQKGTESVMDEKLTLLFRSQFNVGGGELVFQVSTLYIQKGTESVMDEKLTLLFRSQFNVGGGELVFQVSTLYIQKGMESVMDEKLTLLFRSQFNVGGGELVFQVSTLYIQKGTESVMDEKLTLLFRSQFNVGGGELVFQVSTLYIQKGTESVMDEKLTLLFRSQFNVGGGELVFQVSTLYIQKGTESVMDEKLTLLFRSQFNVGGGELVFQVSTLYIQKGTESVMDEKLTLLFRSQFNVGGGELVFQVSTLYIQKGTECVMDEKLTLLFRSQFNVGGRELVFQVWTLSLPVVVIVHGNQEPHGWATVTWDNAFSPPGRVPFAVPDKVTWGQLAETLRIKFCSATGGDLSEDKSKDAQLGGALNQIFAMRPSCIAPLKNELKDEYLIIYRKSKDTSMTLPYYACRVQLDSLHDRQRELTCKYPELEVLLQFQIPNSVNFFNFVMEEMREVLERGRDRECQSFKIKNGASEETVLTMIKNLYRSQYGNM*

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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