Information report for GSMUA_Achr9P29430_001
Gene Details
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Functional Annotation
- Refseq: XP_009419382.1 — PREDICTED: uncharacterized protein LOC103999362 isoform X1
- Swissprot: Q84W56 — RNJ_ARATH; Ribonuclease J
- TrEMBL: M0U4K0 — M0U4K0_MUSAM; Uncharacterized protein
- STRING: GSMUA_Achr9P29430_001 — (Musa acuminata)
- GO:0009658 — Biological Process — chloroplast organization
- GO:0009942 — Biological Process — longitudinal axis specification
- GO:0060918 — Biological Process — auxin transport
- GO:0009507 — Cellular Component — chloroplast
- GO:0003677 — Molecular Function — DNA binding
Family Introduction
- GT factors constitute a plant-specific transcription factor family with a DNA-binding domain that binds GT elements. The DNA-binding domain of GT factor, rich in basic and acidic amino acids and proline and glutamine residues, features a typical trihelix (helix-loop-helix-loop-helix) structure that determines the specific binding of GT elements; thus GT factors are also called trihelix transcription factors. GT elements are highly degenerate cis-elements with A/T-rich core sequences (Villain et al. 1996; Wang et al. 2004). Interaction between GT factors and GT elements has been implicated in the complex transcriptional regulation of many plant genes.
Literature and News
Homologs
- Gossypium arboreum: Cotton_A_16240_BGI-A2_v1.0
- Gossypium hirsutum: Gh_D03G1080, Gh_A07G0459, Gh_A03G0459, Gh_D07G0523
- Panicum virgatum: Pavir.1KG323800.1.p
- Pyrus bretschneideri: Pbr036910.1
- Ricinus communis: 30147.m014528
- Sesamum indicum: XP_011073024.1, XP_011073026.1
- Setaria italica: Seita.1G185600.1.p
- Setaria viridis: Sevir.1G189500.1.p
- Vitis vinifera: GSVIVT01008515001
- Ziziphus jujuba: XP_015881808.1
Sequences
CDS Sequence:
- >GSMUA_Achr9P29430_001|Musa_acuminata|Trihelix|GSMUA_Achr9P29430_001
ATGATTTCTCTCTCCGCCTTCCCCTCTCTCTGCCCCTGCGGCGTCTCCCGGCTGCCCAAGATTCCAAGAACCGCCGTGTGGTGCTCCCTTGGATCTCCTCCCCCGGTCGCAGGTGCCCGAGAATCAAAAGCACCACGTAGAAGATCTAGAAGGACCGATGGAGCAGGGAAAAGTATGGAAGACTCTGTGCAGCGCAAACTTGAACAGTTTTATGAAGGATTAGATGGCCCACCACTCCGTGTTCTTCCAATAGGTGGTCTGGGTGAAATTGGAATGAATTGCATGCTCGTAGGCAACTTTGACCGTTATATCTTAATTGATGCAGGCATCATGTTCCCAGATTATGATGAGTTTGGAGTCCAGAAGATTGTACCTGATACAACATTTATCAAAAGATGGAGCCATAAAATTGAAGCACTTGTTATAACACATGGCCATGAGGATCACATCGGTGCGTTGCCTTGGGTTATACCAGCTCTGGACTCCCACACTCCAATTTTTGCTTCATCTTTTACAATGGAGTTGATCAAGAGACGTTTGAAGGAGTTTGGGATTTTTGTTCCATCCAGGCTTAAGGAATTTAAAGTTCGAAAGAAGTTCCAAGCTGGTCCATTTGAAGTGGAGCCCATCCGAGTAACCCATTCAATCCCTGATTGCTGTGGGTTGGTGCTCCGCTGCAGTGATGGTACTATTTTTCATACTGGTGACTGGAAGATTGATGAGTCACCACTAGATGGCAAAGTTTTTGACCGTGTTGCATTGGAGCAACTTTCCAAAGAAGGGGTGACTTTGATGATGAGTGACTCAACCAATGTTCTGTCACCTGGAAGATCTGTCAGTGAAGCAGCTGTAGCAGATACATTACTGCGACGCATTTCAGAGGCAAAAGGAAGGGTTATAACTACACAATTTGCTTCTAACATACATCGTCTTGGAAGTGTCAAAGCTGCTGCTGATTTAACTGGACGAAAAATGGTATTAGTTGGTATGTCTCTGAGAACTTATTTAGATGCCGCTTTCAAGGATGGAAAGGCTCCAATTGATCCTTCCATTTTGGTGAAAGCAGAGGATATTGATGCTTATGCCCCAAAAGATTTGTTGATTGTGACAACTGGTTCTCAAGCAGAACCAAGAGCTGCACTAAATCTTGCATCCTTTGGCAGCAGCCATTCTCTAAAACTGGGAAAAGATGATGTTGTTTTATATTCTGCTAAGGTAATTCCTGGAAATGAGACTCGAGTGATGAAGATGCTAAACCGCATATCAGAGCTTGGTCCAACGATCATAATGGGCAAAAATGCTGGATTGCATACATCTGGCCATGCCTACCGTGGAGAATTGGAGGAAGTTCTTAAAATTGTGAAACCTCAACATTTTCTACCCATTCATGGGGAACTGTTGTTTTTGAAAGAGCATGAATTACTTGGAAGATCCACTGGGATACGGCATACCGCTGTAATAAAGAACGGAGAGATGCTTGGTGTTTCACATCTCCGGAACAGGAGAGTTCTGTCCAATGGGTTTTCTTCACTAGGAAAGGAGGCATTAGAGTTGATGTATAGTGATGGTGATAAAGCATTTGGAACGTCAGCTGAACTTTGTATTGATGAGAGGTTAAGAATTGCATCTGATGGTATTATAGTTGTCAGCATGGAGATTTTGCGCCCTCAAGCTGTAAATGGTTCATCACAAGCATGTTTAAAAGGAAAAATAAGAATCACCACGCGTTGTTTATGGCTAGATAGAGGAAAGCTTCTGGATGCTCTGTATAAAGCTGCATACGCTGCACTCTCAAGCTGTCCTGTGAATTGTCCGCTGGCTCACATGGAACGAATCGTATCTGAAGTATTAAGGAAGATTGTTAGGAAATACAGCAGCAAAAGGCCTGATGTCATTGCAATTGCAGTGGAGAACACCACTGGAGTTGTAACTGAAGAATTGAAGACTCGATTATCTGGAAAATCTCGTGGTAGTTTTGGGCTCTCTGCTGCTGCTCAGGCATTCAATATGCGTGCAACAAAGCATTCAAGTAGACAGTTCAATGAATATAGTGATTCTTTGCCTTCAAGCAGGCAGCTTGATGAAGTTGGGGATTCTGCCATCGATGTGAACAACATAGAAATGGACTCTTCTGAAGGCGAGAGTTTTGATGCTGATCAAACGTTGCCTGAGGTTGCAACTAAAAACTCTGACCAAGATGAATTATCTTCTCATGCATCCCAAGAACCAGACGATATTGTTGAACTTGTCAAAGCATCTTCTTCTGTCCAACAGACAACAGCTAGTGACTGTGGTTTGGAAGAGAATATGGGTGTTGATAAAAACGTAACACCTGGCAGCAAGGAGCCCAGCAGATTGTTAAATGCTAAGAAATCTGCAAAGCGTAATAAGTGGAAGCCTGAGGAGGTGCAAAGACTGATAATATTACGTGCTGGATTGGATAGCAAATTCCGGAGTGCTAAAGCGAGAATGGTTCTCTGGGAAGAGATATCAACTGATATGTTAAACGATGGAATAAATCGTAGTCCCGCACAATGCAAGTCTCTCTGGGCATCACTGGTTCAGAAATATGAGGAAAGTAGAAGAAATGAGAAAAGTAGAAAAACCTGGCCCCACTTTGCTGCCATGGATGAAGTTTTGTCCGCTGGTGACCAGGCAATGAAATGA
Protein Sequence:
- >GSMUA_Achr9P29430_001|Musa_acuminata|Trihelix|GSMUA_Achr9P29430_001
MISLSAFPSLCPCGVSRLPKIPRTAVWCSLGSPPPVAGARESKAPRRRSRRTDGAGKSMEDSVQRKLEQFYEGLDGPPLRVLPIGGLGEIGMNCMLVGNFDRYILIDAGIMFPDYDEFGVQKIVPDTTFIKRWSHKIEALVITHGHEDHIGALPWVIPALDSHTPIFASSFTMELIKRRLKEFGIFVPSRLKEFKVRKKFQAGPFEVEPIRVTHSIPDCCGLVLRCSDGTIFHTGDWKIDESPLDGKVFDRVALEQLSKEGVTLMMSDSTNVLSPGRSVSEAAVADTLLRRISEAKGRVITTQFASNIHRLGSVKAAADLTGRKMVLVGMSLRTYLDAAFKDGKAPIDPSILVKAEDIDAYAPKDLLIVTTGSQAEPRAALNLASFGSSHSLKLGKDDVVLYSAKVIPGNETRVMKMLNRISELGPTIIMGKNAGLHTSGHAYRGELEEVLKIVKPQHFLPIHGELLFLKEHELLGRSTGIRHTAVIKNGEMLGVSHLRNRRVLSNGFSSLGKEALELMYSDGDKAFGTSAELCIDERLRIASDGIIVVSMEILRPQAVNGSSQACLKGKIRITTRCLWLDRGKLLDALYKAAYAALSSCPVNCPLAHMERIVSEVLRKIVRKYSSKRPDVIAIAVENTTGVVTEELKTRLSGKSRGSFGLSAAAQAFNMRATKHSSRQFNEYSDSLPSSRQLDEVGDSAIDVNNIEMDSSEGESFDADQTLPEVATKNSDQDELSSHASQEPDDIVELVKASSSVQQTTASDCGLEENMGVDKNVTPGSKEPSRLLNAKKSAKRNKWKPEEVQRLIILRAGLDSKFRSAKARMVLWEEISTDMLNDGINRSPAQCKSLWASLVQKYEESRRNEKSRKTWPHFAAMDEVLSAGDQAMK