Information report for Pp3c3_28570
Gene Details
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Functional Annotation
- DRA2 is a homolog of mammalian nucleoporin 98 and a likely component of the nuclear pore complex in Arabidopsis. It positively participates in the control of the hypocotyl elongation response to plant proximity and control of shade induced gene expression. Nucleoportin which redundantly inhibits flowering together with Nup98b through multiple pathways including clock, photoperiod, and age pathways. Gates flowering in a CONSTANS (CO)-independent mode and bypasses the CO checkpoint in photoperiodic signaling and integrated signals from multiple pathways to directly target FLOWERING LOCUS T (FT) for flowering control.
Homologous
- Brassica napus: BnaC08G0201700ZS, BnaA08G0288900ZS
- Brassica oleracea: Bo8g059390
- Brassica rapa: Bra018441
- Citrullus lanatus: Cla97C09G178300
- Cucumis melo: MELO3C024716
- Cucumis sativus: CsGy2G026970
- Glycine max: Glyma.13G264100, Glyma.12G235000
- Gossypium hirsutum: Gohir.A11G017700, Gohir.D11G017500
- Juglans regia: Jr02_14750
- Lactuca sativa: gene-LSAT_6X80720
- Musa acuminata: Ma02_g03790
- Prunus persica: PRUPE_5G136100
Gene Resources
- Pfam: PF04096
- UniProt: A0A7I4DHK1
- RefSeq: XP_024370387.1
- EMBL: ABEU02000003
- OMA: PMFGNSA
- PANTHER: PTHR33416 , PTHR33416:SF20
- OrthoDB: A0A7I4DHK1
Sequences
CDS Sequence
- >Pp3c3_28570
ATGGCGGGCGTAGCTTTTTCGCCAGTGCAGAATGGGGACAGGTCGCTGTATGGTGGAGGTGGGGGTGGCAAGATGCGAGCTCGGCGAGGTCCGAAGCGAAACAGCACGCCTTACGACCGGCCGGCCGTTGGGCGCCATGCATCGGCAGGGCCGCAGGCTTTAATTAATGCGAATGGAGGGACTGCGGGTGGAAACAGGCGGGAAGGGTGGCTAGGGTCGAGGTTGCTTGGCACTGCCTCCAAGATTGTCACTACCGGAGCTTCGTATTTGTATTCTTCATTTTTCAAGCGTCCGGCTGGGGGCGGTGTTTTTCTTCTTAAAGATGCGGAAAAAACCGCGGGAGAATATGCTGACGGACAAACGGATATGATGTCGCCATCAGCTGCCGAAGCTGAGTCAATGGAAGCCGGTAGTCAGCATGGCGATGAAGACAATTCATCAGAAGTGGAAAGTTGGATAAGGAGGACCTTCCCAGGAGAAGAAGCTGATCGGTTAATTGCGAGTTTAAGGTCGTTTAAGCAGACTGGGGCTGCAGAAGAGCAAGTTGATCATGTAAGCAAAGAACCAAAAACTGCTAATGTTAACCAAGTTCCGGCTCTCGAGTCTGCGCCAAGCAGCGGTCAGCTTTCCGATGCACAGAGGTGGAGGGAAGAACGCACTAAAGCTCGACAAGAGCAGAAAAGTAGCCTTTGGCTAGGTGGTTCTGGAAAAGAAAATGGCACCCGCGCAGGTCCTGGGACCTTTGAGATTGGAGAAACTGTGGCAGTTGATGTTGCAAGGGCCTACATGGGAGAGCGAGTCACAAGAGTGGTTACACCTGTTCGGGAGAAAGTTCCTACTCCAATACGACATTCACCTTACCAGCCTTCGCCTTATTTGGCGAGGAAGCAACAATCAAACAACTTCTCTGCTCAGTATGAATCCGCTACTGTTCCTAATACTTTTGGTCTTCTTTCTCCGGGTGGCATTCGAAGTCGAGACGGTGTTTTTGATGACAATTTGCGAACTCCACCTGTCACTCGAACCGTAGGACATCTTCAGCCTGTTCCTCGCGCCACTGCAGTCAGTTCAGCGATTGGATATCCATTGCCTGGAGAGGGATCGAAAAAGAGAAGTTTTTCAGCCGTAGAGGATGGCGGCTATTCTACAGGTGGGGCTATTCGACGCTTAAGGCCTAGGTCCTCTCTGTACTCGCCAGGTCCAGGTACTGGATTCCAAAGAAGAGGAGGCCTGGGCATGTATCCCCCTCTTCCTAGGATATTACATACGCCTGTTGACGTCAAACAAAAATCGATTACAATGTGGAACCAGAATGCTGATACAGAGGAGAAAGGCGATGTGAAAAATGTTTTGAAACACAAGGAGGGATCCAAAGGTTTAGCAATGGGAATGAATGCAGCTGTACCTGAAAGAGCGAGTGCAACAGCTCGCAAGATCTTAGAAACCTTGGATATAATGACTCCTCCAAAAGAGAAGTCCTTAGAGTCAGAGCTTGCGTTAGTCAGGGATCGTCCATCAACTGAGTTGACAACAAGTATGATGAATGATAAGGCACGTCAGACCATGCAGTCCTGGGATTATGCAGGACCTCAGGAAGAAGCCGGGCCTTCAGGACGGGGTCGCAATCTTGAGAATGATTTGTCCTCTGCTGCTGGGGTTTCAAGGATAGGAGCTGGACATGGCACAAAAACCAGAGGCAAAGGCAAAGCGTCAGCTTCCATCCCATCACATAATTTTGAAGAGAAGAGCACAGATCAAACATCATTTTATTTCCAGGACGCATCTAGGTTGAAAGTCTCAGAGTCTAGTTTGGCTAACTCAAGTCCTGCCTTGGGAAGGAATAAAGGATTCCAGATCAATGCTGATGTTGATGATTCGGATGAAGAGAGTAGAGGTGCAAACTCTACTTTGGTCACTTCAACTGTGACGACTTTTAGTGATGGAAAGTCGACTTGTGCATCAGGAGGTTTTACATTCCAGTCGTCCAATTCTTTTGGTATTGCTATGGAGCCTCCACCGACACCTAAGCCGTTTCCATCACCATCCAGCACAGGGCCTGCACCGAAGCTTAATGGGCAGCCCACTTTCAAGTTCAACACCGGTACTCCAGCAGACAATATAGTATTTAAATTGCCCACATCAGGGTCAGGAGGAGTTGATAATAATGTACATACCAAGGATATGAAGCTCAACTATCAGTCTGATAATAAACCGGACTCTTCACCAAGTAATGTGACTGCACGTGAGACATCCGAACCGGCCCAAGAAGTGAAGGGAGGAACGTCTACATTGAGTTCCTCGTCTCCTGAAACCTCACCTTCTGCGGTCTCTTTAGCCAACTTCGAAACCTCCCGTGCCGAGGCCAAGCCAGCCTCTGCAGGTATGTTCGGTTCAAGCAGTCAGACCACTGGTTTCAGTACGGGGAATTCCTCAGGAGCGACTCTCGTTTCAAATAAGGAGTCGAGCGTATTCAGTTTTGGTAAGTCGGCAGCATCTCCATCCGCAGAACCTGCAACCCAAACATCCCCTACTGCTGGTTCTGGTATGTTTGGAAGCAACGGGACTTCTTCAGCCACTACCTTTACATCTCCTGCTCCAGCATTTGGATCCTCTTCTGCTTTTGGAATGAACAAGGGATCATCTTTGTTCGGGGCAGCAGGCAGTTCTTCAGCAGCACCTACTTTGCAGTCAACAGCTCCCGCAGTAACTTTGGATGATGGGAATAAATCTCAAAAGGTCGCGTTGGGACAGAGCCCGGAAAAGGCTAATGATGGATCAGTAACTGCGCCTGTGACGTTTGGGTTATCTGCTGCTGCGACTACCTCAGCCTCAACGCCATCGACACACGTGTTCTCTACCCCTACATTTGGTGTAGGCGCAAGCTCGCCAGCTCCAGCGTCCAAGTCTGCACCCTTGTTCGGCTTGAAGCCTGCCTCCTTGGATTCCACTCCTGTGGCTTCAACTACTTCACCGTCATCAGTCAGTGCTGGCTTTGGGTTATCCTCTTCTCTTTTTGGCAGTTCAACATTTGGGTCAAGTAATCCAGCTCCTTTATTTGGTGGAGCTTCGAGTGCTCCTGCATTCGGTGCTTCAAGTACTCCAGCTTTTGGAGCATCTAGCACTCCAGCTTTTGGAGCTTCCAGCATACCAACCTTCGGAGCGTCTAGCACTCCTGCATTTGGACCCTCGAGCACAGCGACATTCTCAACTTCTAGTGCTTCGGCATTTGGGACTTCCAGCACTCCAGCTTTCGGGGCTTCCAGCACCCCTGCATTCGGAGCTTCTAGTACTCCGGCATTCGGAGCTTCCAGCACCCCGGCATTCGGAGCTTCTAGTACTCCGGCATTCGGAGCTTCCAGCACCCCGGCATTCGGAGCTTCCAGTACTCCGGCATTCGGAGCTTCCAGCACCCCGGCATTCGGAGCTTCCAGCACCCCGGCATTCGGAGCTTCCAGCACCCCGGCATTCGGAGCTTCCAGTACTCCGGCATTCGGAGCTTCTAGTACTCCGGCATTTGGAGCTTCCAGTACTCCGGCATTTGGAGCTTCCAGTACTCCGGCATTTGGAGCTTCCAGTACTCCGGCATTTGGAGCTTCCAGTACTCCGGCATTTGGAGCTTCCAGTACTCCGGCATTTGGAGCTTCTAGTACTCCGGCATTTGGAGCTTCTAGTACTCCGGCATTCGGAGCTTCCAGTACTCCGGCATTTGGAGTATCTAATGCACCTAACACATCTGGTTTTGGAGGTTTTAGCTCAGAAGTATCAGCACAACCTTCACAGTCTCCTCCCGTCTTCGGTTTTGGAGCTTCAGGCAATGCTGGATCTTCATCTTCTCCAGCCTCATTTGCGTTTGGTGCTTCTGCCGGATCTGGTAATCCCTTTGCTTTTGGTGCATCTACTGGCGCATCACCAACCACTTCAACTGGCGCCTTCGCATTTGGGGCATCTAGTGCTGCATCACCAACCACTTCAACTGGTGCGTTCGCTTTTGGATCATCTAGTGCCGCATCACCCACTACCTCTACTGGTGCTTTCGCATTTGGAGCATCTAGTGCTGCTTCACCCACTACCTCAACTGGTGCATTCGCCTTCGGTGGCTCTAGTGCTGCATCATCTTCACCCTTCAGTTTTGGTGCAAAACCCAGTTCTCCATCTATGTTTGGTACGAGTGGCACTGCACCTGCATTTGGATCTTCTCCGAATGGTGGCATGGGAACCGATATGGAGGACAACATGGCTGATGATGGTCAGATGATGGCCTCTTCACCACCTCCACAACAACAATCTCTTGCATTTGGTGCCTCTCAAAACCCATTCGGTAAACCTTCCACTCCAGTCACCACACCGTCGTCAGTCTTTGGAGGCTTTGGAAGTTCAACAGCCCCTGCCGGTGCTAATCCATTTGCACCATCTCCTCAGCAACCTTCCCCTGCTGCTGCCAACCCCTTCGCGCAATCGCCTCAGCCGGGACAACCTCTCAACTTTGGTGGTGGTGGTTTTGCATTGGGGACAACTGGCCAAGACTCGGGCGCTAAACCCAATAGGAAGTTTATTAAGGCTAAGAGGGCAGGTAGCGTGAAAAGGAAGTAA
Protein Sequence
- >Pp3c3_28570
MAGVAFSPVQNGDRSLYGGGGGGKMRARRGPKRNSTPYDRPAVGRHASAGPQALINANGGTAGGNRREGWLGSRLLGTASKIVTTGASYLYSSFFKRPAGGGVFLLKDAEKTAGEYADGQTDMMSPSAAEAESMEAGSQHGDEDNSSEVESWIRRTFPGEEADRLIASLRSFKQTGAAEEQVDHVSKEPKTANVNQVPALESAPSSGQLSDAQRWREERTKARQEQKSSLWLGGSGKENGTRAGPGTFEIGETVAVDVARAYMGERVTRVVTPVREKVPTPIRHSPYQPSPYLARKQQSNNFSAQYESATVPNTFGLLSPGGIRSRDGVFDDNLRTPPVTRTVGHLQPVPRATAVSSAIGYPLPGEGSKKRSFSAVEDGGYSTGGAIRRLRPRSSLYSPGPGTGFQRRGGLGMYPPLPRILHTPVDVKQKSITMWNQNADTEEKGDVKNVLKHKEGSKGLAMGMNAAVPERASATARKILETLDIMTPPKEKSLESELALVRDRPSTELTTSMMNDKARQTMQSWDYAGPQEEAGPSGRGRNLENDLSSAAGVSRIGAGHGTKTRGKGKASASIPSHNFEEKSTDQTSFYFQDASRLKVSESSLANSSPALGRNKGFQINADVDDSDEESRGANSTLVTSTVTTFSDGKSTCASGGFTFQSSNSFGIAMEPPPTPKPFPSPSSTGPAPKLNGQPTFKFNTGTPADNIVFKLPTSGSGGVDNNVHTKDMKLNYQSDNKPDSSPSNVTARETSEPAQEVKGGTSTLSSSSPETSPSAVSLANFETSRAEAKPASAGMFGSSSQTTGFSTGNSSGATLVSNKESSVFSFGKSAASPSAEPATQTSPTAGSGMFGSNGTSSATTFTSPAPAFGSSSAFGMNKGSSLFGAAGSSSAAPTLQSTAPAVTLDDGNKSQKVALGQSPEKANDGSVTAPVTFGLSAAATTSASTPSTHVFSTPTFGVGASSPAPASKSAPLFGLKPASLDSTPVASTTSPSSVSAGFGLSSSLFGSSTFGSSNPAPLFGGASSAPAFGASSTPAFGASSTPAFGASSIPTFGASSTPAFGPSSTATFSTSSASAFGTSSTPAFGASSTPAFGASSTPAFGASSTPAFGASSTPAFGASSTPAFGASSTPAFGASSTPAFGASSTPAFGASSTPAFGASSTPAFGASSTPAFGASSTPAFGASSTPAFGASSTPAFGASSTPAFGASSTPAFGASSTPAFGASSTPAFGASSTPAFGVSNAPNTSGFGGFSSEVSAQPSQSPPVFGFGASGNAGSSSSPASFAFGASAGSGNPFAFGASTGASPTTSTGAFAFGASSAASPTTSTGAFAFGSSSAASPTTSTGAFAFGASSAASPTTSTGAFAFGGSSAASSSPFSFGAKPSSPSMFGTSGTAPAFGSSPNGGMGTDMEDNMADDGQMMASSPPPQQQSLAFGASQNPFGKPSTPVTTPSSVFGGFGSSTAPAGANPFAPSPQQPSPAAANPFAQSPQPGQPLNFGGGGFALGTTGQDSGAKPNRKFIKAKRAGSVKRK