Bros030731.1


Basic Information
Transcription Factor Domain
Sequence Information
Similer Transcription Factors

Basic Information

Insect
Bacillus rossius
Gene Symbol
-
Assembly
GCA_032445375.1
Location
CM063641.1:119343945-119356923[-]

Transcription Factor Domain

TF Family
P53
Domain
P53 domain
PFAM
PF00870
TF Group
Beta-Scaffold Factors
Description
P53 is a tumor suppressor gene product; mutations in p53 or lack of expression are found associated with a large fraction of all human cancers. P53 is activated by DNA damage and acts as a regulator of gene expression that ultimatively blocks progression through the cell cycle. P53 binds to DNA as a tetrameric transcription factor. In its inactive form, p53 is bound to the ring finger protein Mdm2, which promotes its ubiquitinylation and subsequent proteosomal degradation. Phosphorylation of p53 disrupts the Mdm2-p53 complex, while the stable and active p53 binds to regulatory regions of its target genes, such as the cyclin-kinase inhibitor p21, which complexes and inactivates cdk2 and other cyclin complexes [PMID: 20066118, PMID: 12629332, PMID: 1397838, PMID: 6544917, PMID: 19826090, PMID: 19776744, PMID: 6278740, PMID: 221923, PMID: 6318442, PMID: 20030809].This domain is found in p53 transcription factors, where it is responsible for DNA-binding. The DNA-binding domain acts to clamp, or in the case of TonEBP, encircle the DNA target in order to stabilise the protein-DNA complex [PMID: 11780147]. Protein interactions may also serve to stabilise the protein-DNA complex, for example in the STAT-1 dimer the SH2 (Src homology 2) domain in each monomer is coupled to the DNA-binding domain to increase stability [PMID: 9630226]. The DNA-binding domain consists of a beta-sandwich formed of 9 strands in 2 sheets with a Greek-key topology. This structure is found in many transcription factors, often within the DNA-binding domain.
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 6 0.0012 43 6.4 0.1 101 155 63 117 48 119 0.78
2 6 0.022 8e+02 2.3 0.1 102 155 129 182 117 184 0.79
3 6 0.049 1.8e+03 1.1 0.0 103 155 195 247 184 249 0.79
4 6 4.1e-05 1.5 11.2 0.7 87 155 451 521 428 523 0.78
5 6 3.1e-05 1.1 11.6 0.1 76 155 531 607 528 609 0.80
6 6 0.0091 3.2e+02 3.5 0.3 96 148 613 664 606 671 0.80

Sequence Information

Coding Sequence
ATGCCGCCCCGATGCTCCGACTCGCCATACGTCATGCTGCCTGTCAATACTGGAACTTTACCGCCACGAACTAAGTTAAGTTTGAAGATAGAATATTTCGCCGAGTTCTGCAGGCTTCGCACGAGTTACAGCACACCACTGCTTCGGCGAGACACAGCGAGTGGGGACTCGCTACTCGGCGCGGCACGAGTTTCAGCATACCACTGCTTCGGTGAGACACAGCGAGTGGGGACTCGCTACTCGGCGCTGCACGAGTTTCAGCATACCACTGCTTCGGTGAGACACAGCGAGTGGGGACTCGCTACTCGGTGCGGCACGAGTTGCAGCACACCACTGCTTCGGCGAGACACAGCGAGTGGGAACTCGCTACTCGGCGCGGCACGAGTTTCAGCATACCACTGCTTCAGTGAGACACAGCGAGTGGGGACTCGCTACTCGGTGCGGCACGAGTTGCAGCACACCACTGCTTCGGCGAGACACAGCGAGTGGGGACTCGCTACTCGGCGCGGCACGAGTTGCAGCACACCACTGCTTCGGCGAGACACAGCGAGTGGGGACTCGCTACTCGGCGCGGCACGAGTTTCAGCATACCACTGCTTCGGTGAGACACAGCGAGTGGGGACTCGCTACTCGGTGCGGCACGAGTTGCAGCACACCACTGCTTCGGCGAGACACAGCGAGTGGGGACTCGCTACTCGGCGCGGCACGAGTTGCAGCACACCACTGCTTCGGCGAGACACAGCGAGTGGGGACTCGCTACTCGGCGCGGCACGAGTTGCAGCACACCACTGCTTCGGCGAGACACAGCGAGTGGGGACTCGCTACTCGGCGCGGCACGAGTTTCAGCATACCACTGCTTCGGTGAGACACAGCGAGTGGGGACTCGCTACTCGGCGCGGCACGAGTTTCAGCATACCACTGCTTCGCACACCACTGCTTCGGCGAGACACAGCGAGTGGGGACTCGCTACTCGGCGCGGCACGAGTTGCAGCACACCACTGCTTCGGCGAGACACAGCGAGTGGGGACTCGCTACTCGGCGCGGCACGAGTTTCAGCATACCACTGCTTCGCACACCACTGCTTCGGTGAGACACAGCGAGTGGGTACTTGCTACTCGGCGCGGCACGAGTTTCAGCACACCACTGCTTCGGCGAGACACAGCGAGTGGGGACTCGCTACTCGGCGCGGCACGAGTTGCAGCACACCACTGCTTCGCACACCACTGCTTCGATGAGACACAGCGAGTGGGGACTCGCTACTCGGCGTGGCACGAGTTGCAGCACACCTGCTTCAGCGAGACACAGCGAGTGGGGACTCGCTACTCGGCGCGGCACGAGTTGCAGCACACCACTGCTTCGCGAGACACAGCGAGTGGGGACTCGCTACTCGGCGCGGCACGAGTTGCAGCACACCACTGCTTCGGTGAGACACAGCGAATGGGGACTCGCTACTCGGTGCGGCACGAGTTGCAGCACACCACTGCTTCGGTGAGACACAGCGAGTGGGGACTCGCTACTCGGTGCGGCACGAGTTGCAGCACACCACTGCTTCGGCGAGACACAGCGAGTGGGGACTCGCTACTCGGCGTGGCACGAGTTGCAGCACACCTGCTTCAGCGAGACACAGCGAGTGGGGACTCGCTACTCGGCGCGGCACGAGTTGCAGCACACCACTGCTTCGGTGAGACACAGCGAATGGCGACTCGCTACTCGGTGCGGCACGAGTTGCAGCACACCACTGCTTCGGTGAGACACAGCGAGTGGGGACTCGCTACTCGGTGCGGCACGAGTTGCAGCACACCACTGCTTCGGCGAGACACAGCGAGTGGGGACTCGCTACTCGGCGTGGCACGAGTTGCAGCACACCACTGCTTCGGTGAGACACAGCGAATGGGGACTCGCTACTCGGTGCGGCACGAGTTGCAGCACACCTGCTTCAGCGAGACACAGCGAGTGGGGACTCGCTACTCGGGCGGCACGAGTTGCAGCACACCTGCTTCAGCGAGACACAGCGAGTGGGGACTCGCTACTCGGCGCGGCACGAGTTTCAGCACACCACTGCTTCGGCGAGACACAGCGAGTGGGGACTCGCTACTCGAGGGACTGTGGAGCAAGCAAGTGCCGGCGTGTTTTATGTACCACGTTAATTTGTGTGGCGTGACCGGCGGCAACGGAAGTGTCACACTCGTCATGGTTTCTTTTTCCATCCGCCTCCATCTCCGTCGTTATTTAGCAGTCCTTGATGGCGGCCGCGTGTGCCCTTCGGATGTCGGCAGTTTCCACACGCACGCGGCGGGCCGCAGAAATTACCCACCAGCGCTGGCGATGTGGGCGCATTATGGACGCTCGGTGCCCCTGCCTTTGATTGCGGAGACTGACTCGAAGCTAGCGCCAGCGTATCGCTTCGATACCTCCGTGCCTGTTCTTGCAATTCTCTTGTATTATATGAACATCTCTTCCCTGTTCTTCCTGGCCTCCGCTTCCGACCGCTCTCACGTCCTGGCGAGGCCAAGACACCCCGCCCCGGAGTCAACTGCTGGGAAGCTGAAGAGGCGGGCGAGAGATGCTTGTGGCCGCCACCGCGTAGCCACGCCCCGTGGGCGGAGGTTACTGCCCCAGAACTCGAGAGCCTGCTTCCTGTAA
Protein Sequence
MPPRCSDSPYVMLPVNTGTLPPRTKLSLKIEYFAEFCRLRTSYSTPLLRRDTASGDSLLGAARVSAYHCFGETQRVGTRYSALHEFQHTTASVRHSEWGLATRCGTSCSTPLLRRDTASGNSLLGAARVSAYHCFSETQRVGTRYSVRHELQHTTASARHSEWGLATRRGTSCSTPLLRRDTASGDSLLGAARVSAYHCFGETQRVGTRYSVRHELQHTTASARHSEWGLATRRGTSCSTPLLRRDTASGDSLLGAARVAAHHCFGETQRVGTRYSARHEFQHTTASVRHSEWGLATRRGTSFSIPLLRTPLLRRDTASGDSLLGAARVAAHHCFGETQRVGTRYSARHEFQHTTASHTTASVRHSEWVLATRRGTSFSTPLLRRDTASGDSLLGAARVAAHHCFAHHCFDETQRVGTRYSAWHELQHTCFSETQRVGTRYSARHELQHTTASRDTASGDSLLGAARVAAHHCFGETQRMGTRYSVRHELQHTTASVRHSEWGLATRCGTSCSTPLLRRDTASGDSLLGVARVAAHLLQRDTASGDSLLGAARVAAHHCFGETQRMATRYSVRHELQHTTASVRHSEWGLATRCGTSCSTPLLRRDTASGDSLLGVARVAAHHCFGETQRMGTRYSVRHELQHTCFSETQRVGTRYSGGTSCSTPASARHSEWGLATRRGTSFSTPLLRRDTASGDSLLEGLWSKQVPACFMYHVNLCGVTGGNGSVTLVMVSFSIRLHLRRYLAVLDGGRVCPSDVGSFHTHAAGRRNYPPALAMWAHYGRSVPLPLIAETDSKLAPAYRFDTSVPVLAILLYYMNISSLFFLASASDRSHVLARPRHPAPESTAGKLKRRARDACGRHRVATPRGRRLLPQNSRACFL

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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