Information report for EMT25266
Gene Details
Functional Annotation
- Refseq: XP_020149274.1 — uncharacterized protein LOC109734478
- TrEMBL: M8CP04 — M8CP04_AEGTA; Regulatory protein NPR1
- STRING: EMT25266 — (Aegilops tauschii)
- GO:0001666 — Biological Process — response to hypoxia
- GO:0008219 — Biological Process — cell death
- GO:0009408 — Biological Process — response to heat
- GO:0009611 — Biological Process — response to wounding
- GO:0009625 — Biological Process — response to insect
- GO:0009682 — Biological Process — induced systemic resistance
- GO:0009862 — Biological Process — systemic acquired resistance, salicylic acid mediated signaling pathway
- GO:0010112 — Biological Process — regulation of systemic acquired resistance
- GO:0031348 — Biological Process — negative regulation of defense response
- GO:0045893 — Biological Process — positive regulation of transcription, DNA-templated
- GO:0050832 — Biological Process — defense response to fungus
- GO:2000022 — Biological Process — regulation of jasmonic acid mediated signaling pathway
- GO:2000031 — Biological Process — regulation of salicylic acid mediated signaling pathway
- GO:0005634 — Cellular Component — nucleus
- GO:0005737 — Cellular Component — cytoplasm
- GO:0003677 — Molecular Function — DNA binding
- GO:0005515 — Molecular Function — protein binding
Family Introduction
- MYB factors represent a family of proteins that include the conserved MYB DNA-binding domain.The first MYB gene identified was the ‘oncogene’ v-Myb derived from the avian myeloblastosis virus . Evidence obtained from sequence comparisons indicates that v-Myb may have originated from a vertebrate gene, which mutated once it became part of the virus. Many vertebrates contain three genes related to v-Myb c-Myb, A-Myb and B-Myb and other similar genes have been identified in insects, plants, fungi and slime moulds. The encoded proteins are crucial to the control of proliferation and differentiation in a number of cell types, and share the conserved MYB DNA-binding domain. This domain generally comprises up to three imperfect repeats, each forming a helix-turn-helix structure of about 53 amino acids. Three regularly spaced tryptophan residues, which form a tryptophan cluster in the three-dimensional helix-turn-helix structure, are characteristic of a MYB repeat. The three repeats in c-Myb are referred to as R1, R2 and R3; and repeats from other MYB proteins are categorised according to their similarity to either R1, R2 or R3.
- In contrast to animals, plants contain a MYB-protein subfamily that is characterised by the R2R3-type MYB domain. MYB proteins can be classified into three subfamilies depending on the number of adjacent repeats in the MYB domain (one, two or three). We refer to MYB-like proteins with one repeat as ‘MYB1R factors’, with two as ‘R2R3-type MYB’ factors, and with three repeats as ‘MYB3R’ factors.
Literature and News
Gene Resources
Homologs
- Hordeum vulgare: MLOC_64708.8, MLOC_64708.7, MLOC_64708.6, MLOC_64708.5, MLOC_64708.4, MLOC_64708.3, MLOC_64708.2, MLOC_64708.10, MLOC_64708.1
- Triticum aestivum: Traes_4AL_D764DEA51, TraesCS7D02G022400
Sequences
CDS Sequence:
- >EMT25266|Aegilops_tauschii|MYB|EMT25266
ATGGGGAGGTCGCCGTCCTGCAGCAGTGAGCCCCCCTTGAAGAAGGGCCCATGGACGGAGGAGGAGGACAGGCTGCTCGTGGACTACATCAAGTTGCATGGCACCGGCGGCAACTGGCGAACCATCCCCAAGCGCGCCGGCCTCAACCGCTGCGGCAAGAGCTGCCGCCTCCGTTGGACCAACTACCTCCACCCCGACATCAAGCGCGGACCCTTCACCGATGAGGAGGAGAAAACCACCATCCACCTCCACTCCATGCTCGGCAACAAGTGGTCGGCGATTGCAACCCATCTGCCAGGAAGGACAGGCAATTTTATCAAGAATTACTGGAACACAAACCTGCGCAAGAAGCTGCTCCACATGGGCATCGACCCCATCACGCACAACCCGCGCACCGACCTCAGCCAGCTTACAGGGCTCCCCAGTCTCCCCGCCACCGCCGCCGCCCCCAGTAATAGCCTCTCCAGCGTCAGCATGCCCCCCAGCACCTGGGACATGAATGCTGCCCAGGCCCACGCTGACGTGGCCAGCTTCGCCGGGGGCGGTCTCAGGATCAAGGACGAAGCTACCAGCTTCACCGGCAGTTACTCAGACATGAAACCTCCTATGATCAAGGATGAAGCCAGCAGCTTTACCGGCAGTCACTCGGAACTGAAACCTCCCAGGATCAAGTACGAAGCCACTAGTTTCACCGGTAGCCACTCGGACATGAAACCTCACAGGATCAAGGACGAAGCCGCCAGCTTCACTGGCAGACACTCGGACATGAAACCTCTCAGGATCAAGGACGAAGCCGCCAGCTTCACCGGCAGTTGCTCGGACAGGAAACCTCCCAGGATCCAGAACGAAGGCAGCTACTCGGGCGCTGGTGCTGGTTGGGACATGAACACTCTCTCCATGCGCCAGTCCAACGCCGCCAAGTTCCATCTCCTCCAGGGCCATTGTTGGGTGATCAGTGCTTCCTTGGGCGCCATGAGAGCTCTTGTTGGGAAGCTGGACATGCTGCTGCTAGATGATTCATCTTCTCAGAAATTCTTCTCCAAGAGGGTGATGGATGGGATGCGTCTCCTCAAAGATGATGTTGAAGAGATAAGCTCCTACCTTGATGAACTGTCAGAGGTGGATGACCATCCCCCAATAGCCATGTGCTGGATGAATGAGGTGCGTGACCTGTCTTACGACATGGAGGATTACATTGACAGCCTTTTATCTGTGCCACCTGACCATTTCAACAAAAACAAGAAGAAGAAAAACAAGAAGATGATGACCATAAAGAAGAGGCTCAAATGGTACAAACAGATCACATACGTCATGCAAGTGTCAGAACATGGTGTCAAGACCAGCAAACGCGTTCATGTTAGTGTTGTCCCTCGTCTTCCCAAGAAGCCCAAGATTGCGGAAACAATTTCAGATTTCAGGATCTATGTCCAGGAGGCTATTGAACGCAACTTGAGGAGACGTACATTCTTGTCCACTGGCCATATGCTTCCAATGCACTATGAAGAAACCAATGATCACGTTGTAATTGATGGCCGGATGAATGAGTTTATCGACTCACTGGTGGCAGATCAGCAGCAGCTCAAGGTGCCTGACACAATATATCTGATATGCGTGAATTCCTGGCATGCAGAACATGTTTTCATGATGAAACCTCTTGATGACGATCACTCAAGAAAGCTGTTCTTTAACAGACTTTTTGGTTCTGGAAGTGACTGCCCTGAAGAATTTAAACAAGTTTCAAATGAAATTGTTGATGTCACAATCGTGGTCAAGTTCTACTTCGGAAAGAACAAGACAAAGGGCTCCATAGTCTGGAAGGATGATCTGGTGAAGCAATGGGTGGCTGAAGCCTTCATCAATACACGAAAAGGGAAAGAAAAAGATCAAAACTGGATGGAGAAAGCTGCAGGAATCTATTTCGATGAACTTATTGATAGAAGATTCATCCAACCTCTAAATATCAACTACAACAATAAGGTGTTGTCCTGTACTGTTCATGAAGTGGTACGTGATCTTCTTGCACACAAGTCTGCAGAAGAGAATTTCATTGTGGTAGTAGATTATAATCGAAAGAATATATCACTTTCTCATAAGGCCCGTCGGCTATCTCTCCTCTTTGCCACTGCAAGGTATGCCAAGACACCAGTAAACATCACAAAGCCGCAAGTTCGGTCACTTAATTTTGTTGGATTGTTCGAGTGCATGCCTTGTATTGGAGAGTTCAAGGTTCTCCGTGTTCTGAACCTTCAACTATCCGGTCATTGTGGCGACCATGACCCCATAGACCTCACTGGGATTTCAGAACTGTTTCAGTTGAGATATTTGAAGATTACAAGTGATGTGTGCATAAAACTACCAAACCAAATGCGAAAGCTGCAATGTTTGGAAACGCTGGATATTATAGATGCACCAAGAGTCACTGCTATCCCATGGGATATTATATATCTCCCACACTTGTTGCACCTAACCCTTCCTGTTGACACAAATCTGCTGGATTGGATTGGCAGCATGACTGACTCCATCATCAGTCTGTGGAGCCTTGGCAACCTGAACTACCTGCAAGATCTTTATCTTACCATTTCTTCTACACATCCTTCTGGCCATCCAGAGAAAAACATGGAAGCTCTGGGTTCTTTACTAGGAGGACATGGCAACCTGAAAATTATAGTAGTGTCTCATGGCCCATCGGTTAAAGATATTGTGGTTCCTGGTGCCTCAAAAGTAATCATTTCCTGGGATGAGTTGGAACCTCTCCCACTTCTCCAGAGATTTGAATGCTCACCGCACAGCTGCGTCATATTTTCCCGAATTCCTAAGTGGGTTAAAAAACTTGGTAACTTGTGCATTCTGAAGATTGCAGTGGTGGAACTGCAGATGAGTTGTGTTGATATTCTCAGAGGATTGCCTGCCCTTACTGCTCTGTCGCTGTATGTGCGGTGCGCGCCTGCTCAAAGGATCCTCTTTGACAAGATGGCCGGGTTCTCAGTTCTCAAGTACTTCAAGTTGAGGTTCACGAGTGGTATCCCATGGCTGAAATTTGAGGCGGATGCAATGCCTAATCTCTGGAAGCTGAAGCTGGGTTTCAATGCAATCCCCCGAATGGACCAACATCAACTAATCCGCATCGAGCATATGCCAGACCTTAAAGAGATCTCTGTAAAATTTGGGGGTATAGCTGCTCTTATAGAGTATGCCGTGAAGACGGTCATTAGTAATCATCTGAGAAATCCTAGAGTCCATGTGTGTTTGGTGACTTCTACTTCCTATGGTGATGAAAGCACAAAAGAGAAACCTCCCACCAACTCGGCGGTCGAGTCGCACATGGCCGCCGCCACGCCAACGGAGACTCCGACCAGCCAGGTCACCACCGCCTTCACCCACTGCGACAGTGTCTCGACAGAGGGTGCTGCTGCTTCCGGGGACGCAGATGTGGAGACGCTCTGCCACCTCTCCAACAATCTCGCCACCGCCTTTCGCCCTCCAGAAGACTTCACCTTCCTCGTCGACATGCGTGCGTACCGCTCCGTGCTCTCCGTCCGGAGTCCCTTCCTTGATGCCGTCTTCGCGCGTCGTGCCGCTGAAGGGGAGGGCAACCCGCTGGACCTCCGGGAGCTTCTGGGTGAGGAGGTGGAGGTCGGGTATGAGGCACTGCAGTTGGTGCTCGAGTACCTGTACACCGGCTGCATCCGCGACCTTCCCAAGTCGGCATGCGTTTGCGCAGACGTGGACGGCTGCGCCCATGTCGGCTGCCTCCCTGCCATCTCGTTCATGGCGCAGGTCATCTTTGCCGCATCCATCTTCCAGGTTGCCGTGCTCACCAACCACTTCCAGCGGCTTCTCCTTGATGTCCTTGATGATGTTGAAGTGGATAACCTTCCATTGATCTTATCTGTTGCGAACTTATGCAATAAATCTTGCATGCATCTGCTCGAGAGATGCCTTGAGATGGTAGTCCGGTCAAATCTTGACATGATTACTCTTGAGAAAGCATTGCCTTCAGATATCATCGAGCAGATTACTGATTCACGGCTAAGTCTTGGACTAGTTTCACCCGAAGATAAGGGATTTCCTAACAAACATGTAAGAAGGATACTCAGAGCTCTTGATTCTGATGATGTGTGTTTAGTGAGGATGCTGCTCAAAGAAGGGCGGACTAATCTTGATGGTGCATTTGCATTGCACCATGCTGTAGAACATTGTGACTCGAAGGTCACAATGGAACTTCTGGATATCGGACTTGCAGATGTTAATCATAGAAATCCAAGAGGTTATACTGTTCTTCACGTTGCTGCCAGGCGAAGAGATCCTAAAATTCTTGTCTCTGTTTTAACCAAAGAAGAAGGAAAACCGTCTCGTGAAGATAGGTTATGCATTAAGATACTGGAGCAAGCTGAAAGAAGGGATCCACAACTTGGAGAAGCATCGGTTTCTCTTGCAATAGCTGGTGACCGTCAACGTGGAAAGCTGTTGTACCTCGAAAATCGAGTTGCTTTGATGAGGATAATGTTTCCAACTGAGGCAAGAATAGCAATGGACATCGCTCAAGTGGATTGTACTTTGAAGTTAACCCTTGATTCTGGGGCAAAACCTCCTCCGGAGAAAGAACTGGCAACCATTGATCTAAATGAAACTCCTTTCCATATGAATGAAGAACACTTAGCTCGGATGAGTACCCTCTCCAAAACAGTTGAACTCTGTAAACGCTTCTTTCCGCGTTGTTCAAATGTGATAGACAAGATTATGGATGATGAACCTGAGCTGGCTCCTCTTCAAAGAGACGCATCCACCGAGAGGACTCAGAGGTTCGGTTACCTGCAGGACGCGGTTCAGAAGGCATTAAGCGAGGACAAGGCTAGTTTTGACAAATCTGGGTCATAG
Protein Sequence:
- >EMT25266|Aegilops_tauschii|MYB|EMT25266
MGRSPSCSSEPPLKKGPWTEEEDRLLVDYIKLHGTGGNWRTIPKRAGLNRCGKSCRLRWTNYLHPDIKRGPFTDEEEKTTIHLHSMLGNKWSAIATHLPGRTGNFIKNYWNTNLRKKLLHMGIDPITHNPRTDLSQLTGLPSLPATAAAPSNSLSSVSMPPSTWDMNAAQAHADVASFAGGGLRIKDEATSFTGSYSDMKPPMIKDEASSFTGSHSELKPPRIKYEATSFTGSHSDMKPHRIKDEAASFTGRHSDMKPLRIKDEAASFTGSCSDRKPPRIQNEGSYSGAGAGWDMNTLSMRQSNAAKFHLLQGHCWVISASLGAMRALVGKLDMLLLDDSSSQKFFSKRVMDGMRLLKDDVEEISSYLDELSEVDDHPPIAMCWMNEVRDLSYDMEDYIDSLLSVPPDHFNKNKKKKNKKMMTIKKRLKWYKQITYVMQVSEHGVKTSKRVHVSVVPRLPKKPKIAETISDFRIYVQEAIERNLRRRTFLSTGHMLPMHYEETNDHVVIDGRMNEFIDSLVADQQQLKVPDTIYLICVNSWHAEHVFMMKPLDDDHSRKLFFNRLFGSGSDCPEEFKQVSNEIVDVTIVVKFYFGKNKTKGSIVWKDDLVKQWVAEAFINTRKGKEKDQNWMEKAAGIYFDELIDRRFIQPLNINYNNKVLSCTVHEVVRDLLAHKSAEENFIVVVDYNRKNISLSHKARRLSLLFATARYAKTPVNITKPQVRSLNFVGLFECMPCIGEFKVLRVLNLQLSGHCGDHDPIDLTGISELFQLRYLKITSDVCIKLPNQMRKLQCLETLDIIDAPRVTAIPWDIIYLPHLLHLTLPVDTNLLDWIGSMTDSIISLWSLGNLNYLQDLYLTISSTHPSGHPEKNMEALGSLLGGHGNLKIIVVSHGPSVKDIVVPGASKVIISWDELEPLPLLQRFECSPHSCVIFSRIPKWVKKLGNLCILKIAVVELQMSCVDILRGLPALTALSLYVRCAPAQRILFDKMAGFSVLKYFKLRFTSGIPWLKFEADAMPNLWKLKLGFNAIPRMDQHQLIRIEHMPDLKEISVKFGGIAALIEYAVKTVISNHLRNPRVHVCLVTSTSYGDESTKEKPPTNSAVESHMAAATPTETPTSQVTTAFTHCDSVSTEGAAASGDADVETLCHLSNNLATAFRPPEDFTFLVDMRAYRSVLSVRSPFLDAVFARRAAEGEGNPLDLRELLGEEVEVGYEALQLVLEYLYTGCIRDLPKSACVCADVDGCAHVGCLPAISFMAQVIFAASIFQVAVLTNHFQRLLLDVLDDVEVDNLPLILSVANLCNKSCMHLLERCLEMVVRSNLDMITLEKALPSDIIEQITDSRLSLGLVSPEDKGFPNKHVRRILRALDSDDVCLVRMLLKEGRTNLDGAFALHHAVEHCDSKVTMELLDIGLADVNHRNPRGYTVLHVAARRRDPKILVSVLTKEEGKPSREDRLCIKILEQAERRDPQLGEASVSLAIAGDRQRGKLLYLENRVALMRIMFPTEARIAMDIAQVDCTLKLTLDSGAKPPPEKELATIDLNETPFHMNEEHLARMSTLSKTVELCKRFFPRCSNVIDKIMDDEPELAPLQRDASTERTQRFGYLQDAVQKALSEDKASFDKSGS