ATIDB : The Arabidopsis thaliana Integrated Database
Names and Synonyms
DGD1
AT3G11670.1
AT3G11670.2
AT3G11670
DIGALACTOSYL DIACYLGLYCEROL DEFICIENT 1
DIGALACTOSYLDIACYLGLYCEROL SYNTHASE 1
AT3G11670
T19F11.7
AT3G11670
Gene Ontology Terms
GO:0009707 [AMIGO Graph]
Term : cellular_component, chloroplast outer membrane
Definition : The outer, i.e. cytoplasm-facing, lipid bilayer of the chloroplast envelope.
GO:0019375 [AMIGO Graph]
Term : biological_process, galactolipid biosynthesis
Definition : The chemical reactions and pathways resulting in the formation of galactolipids, any glycolipid containing one of more residues of galactose and/or N-acetylgalactosamine.
GO:0016757 [AMIGO Graph]
Term : molecular_function, transferase activity, transferring glycosyl groups
Definition : Catalysis of the transfer of a glycosyl group from one compound (donor) to another (acceptor).
GO:0035250 [AMIGO Graph]
Term : molecular_function, UDP-galactosyltransferase activity
Definition : Catalysis of the transfer of a galactose group from UDP-galactose to an acceptor molecule.
GO:0042550 [AMIGO Graph]
Term : biological_process, photosystem I stabilization
Definition : The stabilization of the photosystem I protein complex, resulting from the phosphorylation of its structural protein subunits, in a cell actively involved in photosynthesis.
GO:0006869 [AMIGO Graph]
Term : biological_process, lipid transport
Definition : The directed movement of lipids into, out of, within or between cells. Lipids are compounds soluble in an organic solvent but not, or sparingly, in an aqueous solvent.
GO:0046480 [AMIGO Graph]
Term : molecular_function, galactolipid galactosyltransferase activity
Definition : Catalysis of the reaction: 2 mono-beta-D-galactosyldiacylglycerol = alpha-D-galactosyl-beta-D-galactosyldiacylglycerol + 1,2-diacylglycerol.
GO:0016757 [AMIGO Graph]
Term : molecular_function, transferase activity, transferring glycosyl groups
Definition : Catalysis of the transfer of a glycosyl group from one compound (donor) to another (acceptor).
GO:0005739 [AMIGO Graph]
Term : cellular_component, mitochondrion
Definition : A semiautonomous, self replicating organelle that occurs in varying numbers, shapes, and sizes in the cytoplasm of virtually all eukaryotic cells. It is notably the site of tissue respiration.
MIPS Functional Catalogue Classifications
| [99] |
UNCLASSIFIED PROTEINS |
Gene Predictions [*]
Gene Insertions
Flanking Sequence : T-DNA_LB.SALK_113941.15.45.x [Graphical View|Text]
Location : chromosome 3, base 3682385-3682386
Mapping Score 1
[see FAQ]
Flanking Sequence : T-DNA_LB.T-DNA.SAIL_851_G12.v1 [Graphical View|Text]
Location : chromosome 3, base 3682208-3682209
Mapping Score 5
[see FAQ]
Design Validation Primers
Automatically design primers for insert validation
InterProScan results
Sequences
AT3G11670.1 Sequences
AT3G11670.1, Protein sequence 808 amino acids
MVKETLIPPSSTSMTTGTSSSSSLSMTLSSTNALSFLSKGWREVWDSADADLQLMRDRAN
SVKNLASTFDREIENFLNNSARSAFPVGSPSASSFSNEIGIMKKLQPKISEFRRVYSAPE
ISRKVMERWGPARAKLGMDLSAIKKAIVSEMELDERQGVLEMSRLRRRRNSDRVRFTEFF
AEAERDGEAYFGDWEPIRSLKSRFKEFEKRSSLEILSGFKNSEFVEKLKTSFKSIYKETD
EAKDVPPLDVPELLACLVRQSEPFLDQIGVRKDTCDRIVESLCKCKSQQLWRLPSAQASD
LIENDNHGVDLDMRIASVLQSTGHHYDGGFWTDFVKPETPENKRHVAIVTTASLPWMTGT
AVNPLFRAAYLAKAAKQSVTLVVPWLCESDQELVYPNNLTFSSPEEQESYIRKWLEERIG
FKADFKISFYPGKFSKERRSIFPAGDTSQFISSKDADIAILEEPEHLNWYYHGKRWTDKF
NHVVGIVHTNYLEYIKREKNGALQAFFVNHVNNWVTRAYCDKVLRLSAATQDLPKSVVCN
VHGVNPKFLMIGEKIAEERSRGEQAFSKGAYFLGKMVWAKGYRELIDLMAKHKSELGSFN
LDVYGNGEDAVEVQRAAKKHDLNLNFLKGRDHADDALHKYKVFINPSISDVLCTATAEAL
AMGKFVVCADHPSNEFFRSFPNCLTYKTSEDFVSKVQEAMTKEPLPLTPEQMYNLSWEAA
TQRFMEYSDLDKILNNGEGGRKMRKSRSVPSFNEVVDGGLAFSHYVLTGNDFLRLCTGAT
PRTKDYDNQHCKDLNLVPPHVHKPIFGW*
AT3G11670.1 Sequence 3649 bases
ATTAGCAGCACTCTCACGAAATCGTCGTGACGAAACGATAAACCCTAAGTCATGGTAAAGGAAACTCTAATTCCTCCGTCATCTACGTCAATGACGACCG
GAACATCTTCTTCTTCGTCTCTTTCAATGACGTTATCCTCAACAAACGCGTTATCGTTTTTGTCGAAAGGATGGAGAGAGGTATGGGATTCAGCAGATGC
GGATTTGCAGCTGATGCGAGACAGAGCTAACTCTGTTAAGAATCTAGCATCAACGTTCGATAGAGAGATCGAGAATTTCCTCAATAACTCGGCGAGGTCT
GCGTTTCCCGTTGGTTCACCATCGGCGTCGTCTTTCTCAAATGAAATTGGTATCATGAAGAAGCTTCAGCCGAAGATTTCGGAGTTTCGTAGGGTTTATT
CGGCGCCGGAGATTAGTCGCAAGGTTATGGAGAGATGGGGACCTGCGAGAGCGAAGCTTGGAATGGATCTATCGGCGATTAAGAAGGCGATTGTGTCTGA
GATGGAATTGGATGAGCGTCAGGGAGTTTTGGAGATGAGTAGATTGAGGAGACGGCGTAATAGTGATAGGGTTAGGTTTACGGAGTTTTTCGCGGAGGCT
GAGAGAGATGGAGAAGCTTATTTCGGTGATTGGGAACCGATTAGGTCTTTGAAGAGTAGATTTAAAGAGTTTGAGAAACGAAGCTCGTTAGAAATATTGA
GTGGATTCAAGAACAGTGAATTTGTTGAGAAGCTCAAAACCAGCTTTGTAAGTTTCTCCAACTTTTTGGGAACCTATTTCAAAAGTTTCTTCTATCTTAC
TGTAGAAGTGGCTTCTCTTTCAATAGCCACGACATTTTCGTATGCTGACTTGATAGTTACTGTTCTTGGAATGATTGATTGAGTTTCTTATGGTGTTTGG
CAACTTTTCTAATGGTGCTTTTTTCTTTTGTTTTATTTGCAGAAATCAATTTACAAAGAAACTGATGAGGCTAAGGTTGGTATTTGGAAGTTGGAGCTCT
ATCAGTTTTTCTTGTTACTTTATATATTTTTAGGTCGAGTTCAGTGTTGGATTGGGAGTTTAACTTGGCCTCCTTTTACTTTGGTGCAGGATGTCCCTCC
GTTGGATGTACCTGAACTGTTGGCATGTTTGGTTAGACAATCTGAACCTTTTCTTGATCAGATTGGTGTTAGAAAGGGTAAGATTGCATTTTTCTCTTCA
TGATGGTTAATTATTTTGTCTGTTGTATGTATTGAGTTGTTTCTCTACCATAGGTGGTTTTTCCGTCAAAAGTTTGAATCTTCTCTCTGATATTAGAGTG
TCTTTGTTAAGTGGGTTGCTTGCTTCACCAGAAGTTTAGATGGTGAGATTTGATGTTCTGCATTATCACACTAATCCTGGATATCAAATATGTGTAAGTC
TAGATTCTGTATGAGACAGATCAATCAAATGACATCTGCCGTAGACATAAAAATTTCTAGATGTGTAGGTTATTGGTTTTAAACACCCTTTCTTGTACAT
TATCTTATAGTTTCAGTGTTTACATACAAAGTTCCTGATTCTGTTCTGCTGAATTTTCTTTCAGATACATGTGACCGAATAGTAGAAAGCCTTTGCAAAT
GCAAGAGCCAACAACTTTGGCGTCTGCCATCTGCACAAGCATCCGATTTAATTGAAAATGATAACCATGGAGTTGATTTGGATATGAGGATAGCCAGTGT
TCTTCAAAGCACAGGACACCATTATGATGGTGGGTTTTGGACTGATTTTGTGAAGCCTGAGACACCGGAAAACAAAAGGCATGTGGCAATTGTTACAACA
GCTAGTCTTCCTTGGATGACCGGAACAGCTGTAAATCCGCTATTCAGAGCGGCGTATTTGGCAAAAGCTGCAAAACAGAGTGTTACTCTCGTGGTTCCTT
GGCTCTGCGAATCTGATCAAGAACTAGTGTATCCAAACAATCTCACCTTCAGCTCACCTGAAGAACAAGAGAGTTATATACGTAAATGGTTGGAGGAAAG
GATTGGTTTCAAGGCTGATTTTAAAATCTCCTTTTACCCAGGAAAGGTATGTTGATCATTTTGGATTCTATTTTTTTATTTCTATGGCTGCCAATATGTT
TTTCAATTATTTCTATAGAGTAACTGAGCTTTCTGGTTTCTTATAGTTTTCAAAAGAAAGGCGCAGCATATTTCCTGCTGGTGACACTTCTCAATTTATA
TCGTCAAAAGATGCTGACATTGCTATACTTGAAGAACCTGAACATCTCAACTGGTATTATCACGGCAAGCGTTGGACTGATAAATTCAACCATGTTGTTG
GAATTGTCCACACAAACTACTTAGAGTACATCAAGAGGGAGAAGAATGGAGCTCTTCAAGCATTTTTTGTGAACCATGTAAACAATTGGGTCACACGAGC
GTATTGTGACAAGGTGAATCATCTACTCTATTTCTTCAAGCCTTGTTCTGTTGCTTGAATCCTCTTTACTAATAAATAGTACACGAGCTAATACATATTT
TCTACTCATGAAAGGTTCTTCGCCTCTCTGCGGCAACACAAGATTTACCAAAGTCTGTTGTATGCAATGTCCATGGTGTCAATCCCAAGTTCCTTATGAT
TGGGGAGAAAATTGCTGAAGAGAGATCCCGTGGTGAACAAGCTTTCTCAAAAGGTGCATACTTCTTAGGAAAAATGGTGTGGGCTAAAGGATACAGAGAA
CTAATAGATCTGATGGCTAAACACAAAAGCGAACTTGGGAGCTTCAATCTAGATGTATATGGGAACGGTGAAGATGCAGTCGAGGTCCAACGTGCAGCAA
AGAAACATGACTTGAATCTCAATTTCCTCAAAGGAAGGGACCACGCTGACGATGCTCTTCACAAGTAAGTTCTGAAAAATGTGCTTTGCTTTTAAAAACT
TGTTAAGGTTTCGCTCTTTGATTGTCTTTCCCACATCTTGATGAAGGTACAAAGTGTTCATAAACCCCAGCATCAGCGATGTTCTATGCACAGCAACCGC
AGAAGCACTAGCCATGGGGAAGTTTGTGGTGTGTGCAGATCACCCTTCAAACGAATTCTTTAGATCATTCCCGAACTGCTTAACTTACAAAACATCCGAA
GACTTTGTGTCCAAAGTGCAAGAAGCAATGACGAAAGAGCCACTACCTCTCACTCCTGAACAAATGTACAATCTCTCTTGGGAAGCAGCAACACAGAGGT
TCATGGAGTATTCAGATCTCGATAAGATCTTAAACAATGGAGAGGGAGGAAGGAAGATGCGAAAATCAAGATCGGTTCCGAGCTTTAACGAGGTGGTCGA
TGGAGGATTGGCATTCTCACACTATGTTCTAACAGGGAACGATTTCTTGAGACTATGCACTGGAGCAACACCAAGAACAAAAGACTATGATAATCAACAT
TGCAAGGATCTGAATCTCGTACCACCTCACGTTCACAAGCCAATCTTCGGCTGGTAGATATTTCCCCATAGGCCACCCAGTTATTGCTTGTGACTTATTA
AACCACTACGTTATTGTTATCCTTTTTTACTTTTACAGTTGTTGTAGGTCGTTTGTTTGTTAATAGAAAGGGTAGATTATTATTAGATGTCTTTTTGTAA
AATATCAATACGAAGCGTATTTGATGATATATAAAATAACTATATTGGC
AT3G11670.1 Coding Sequence (CDS) 2424 bases
ATGGTAAAGGAAACTCTAATTCCTCCGTCATCTACGTCAATGACGACCGGAACATCTTCTTCTTCGTCTCTTTCAATGACGTTATCCTCAACAAACGCGT
TATCGTTTTTGTCGAAAGGATGGAGAGAGGTATGGGATTCAGCAGATGCGGATTTGCAGCTGATGCGAGACAGAGCTAACTCTGTTAAGAATCTAGCATC
AACGTTCGATAGAGAGATCGAGAATTTCCTCAATAACTCGGCGAGGTCTGCGTTTCCCGTTGGTTCACCATCGGCGTCGTCTTTCTCAAATGAAATTGGT
ATCATGAAGAAGCTTCAGCCGAAGATTTCGGAGTTTCGTAGGGTTTATTCGGCGCCGGAGATTAGTCGCAAGGTTATGGAGAGATGGGGACCTGCGAGAG
CGAAGCTTGGAATGGATCTATCGGCGATTAAGAAGGCGATTGTGTCTGAGATGGAATTGGATGAGCGTCAGGGAGTTTTGGAGATGAGTAGATTGAGGAG
ACGGCGTAATAGTGATAGGGTTAGGTTTACGGAGTTTTTCGCGGAGGCTGAGAGAGATGGAGAAGCTTATTTCGGTGATTGGGAACCGATTAGGTCTTTG
AAGAGTAGATTTAAAGAGTTTGAGAAACGAAGCTCGTTAGAAATATTGAGTGGATTCAAGAACAGTGAATTTGTTGAGAAGCTCAAAACCAGCTTTAAAT
CAATTTACAAAGAAACTGATGAGGCTAAGGATGTCCCTCCGTTGGATGTACCTGAACTGTTGGCATGTTTGGTTAGACAATCTGAACCTTTTCTTGATCA
GATTGGTGTTAGAAAGGATACATGTGACCGAATAGTAGAAAGCCTTTGCAAATGCAAGAGCCAACAACTTTGGCGTCTGCCATCTGCACAAGCATCCGAT
TTAATTGAAAATGATAACCATGGAGTTGATTTGGATATGAGGATAGCCAGTGTTCTTCAAAGCACAGGACACCATTATGATGGTGGGTTTTGGACTGATT
TTGTGAAGCCTGAGACACCGGAAAACAAAAGGCATGTGGCAATTGTTACAACAGCTAGTCTTCCTTGGATGACCGGAACAGCTGTAAATCCGCTATTCAG
AGCGGCGTATTTGGCAAAAGCTGCAAAACAGAGTGTTACTCTCGTGGTTCCTTGGCTCTGCGAATCTGATCAAGAACTAGTGTATCCAAACAATCTCACC
TTCAGCTCACCTGAAGAACAAGAGAGTTATATACGTAAATGGTTGGAGGAAAGGATTGGTTTCAAGGCTGATTTTAAAATCTCCTTTTACCCAGGAAAGT
TTTCAAAAGAAAGGCGCAGCATATTTCCTGCTGGTGACACTTCTCAATTTATATCGTCAAAAGATGCTGACATTGCTATACTTGAAGAACCTGAACATCT
CAACTGGTATTATCACGGCAAGCGTTGGACTGATAAATTCAACCATGTTGTTGGAATTGTCCACACAAACTACTTAGAGTACATCAAGAGGGAGAAGAAT
GGAGCTCTTCAAGCATTTTTTGTGAACCATGTAAACAATTGGGTCACACGAGCGTATTGTGACAAGGTTCTTCGCCTCTCTGCGGCAACACAAGATTTAC
CAAAGTCTGTTGTATGCAATGTCCATGGTGTCAATCCCAAGTTCCTTATGATTGGGGAGAAAATTGCTGAAGAGAGATCCCGTGGTGAACAAGCTTTCTC
AAAAGGTGCATACTTCTTAGGAAAAATGGTGTGGGCTAAAGGATACAGAGAACTAATAGATCTGATGGCTAAACACAAAAGCGAACTTGGGAGCTTCAAT
CTAGATGTATATGGGAACGGTGAAGATGCAGTCGAGGTCCAACGTGCAGCAAAGAAACATGACTTGAATCTCAATTTCCTCAAAGGAAGGGACCACGCTG
ACGATGCTCTTCACAAGTACAAAGTGTTCATAAACCCCAGCATCAGCGATGTTCTATGCACAGCAACCGCAGAAGCACTAGCCATGGGGAAGTTTGTGGT
GTGTGCAGATCACCCTTCAAACGAATTCTTTAGATCATTCCCGAACTGCTTAACTTACAAAACATCCGAAGACTTTGTGTCCAAAGTGCAAGAAGCAATG
ACGAAAGAGCCACTACCTCTCACTCCTGAACAAATGTACAATCTCTCTTGGGAAGCAGCAACACAGAGGTTCATGGAGTATTCAGATCTCGATAAGATCT
TAAACAATGGAGAGGGAGGAAGGAAGATGCGAAAATCAAGATCGGTTCCGAGCTTTAACGAGGTGGTCGATGGAGGATTGGCATTCTCACACTATGTTCT
AACAGGGAACGATTTCTTGAGACTATGCACTGGAGCAACACCAAGAACAAAAGACTATGATAATCAACATTGCAAGGATCTGAATCTCGTACCACCTCAC
GTTCACAAGCCAATCTTCGGCTGGTAG
AT3G11670.1 cDNA Sequence 2670 bases
ATTAGCAGCACTCTCACGAAATCGTCGTGACGAAACGATAAACCCTAAGTCATGGTAAAGGAAACTCTAATTCCTCCGTCATCTACGTCAATGACGACCG
GAACATCTTCTTCTTCGTCTCTTTCAATGACGTTATCCTCAACAAACGCGTTATCGTTTTTGTCGAAAGGATGGAGAGAGGTATGGGATTCAGCAGATGC
GGATTTGCAGCTGATGCGAGACAGAGCTAACTCTGTTAAGAATCTAGCATCAACGTTCGATAGAGAGATCGAGAATTTCCTCAATAACTCGGCGAGGTCT
GCGTTTCCCGTTGGTTCACCATCGGCGTCGTCTTTCTCAAATGAAATTGGTATCATGAAGAAGCTTCAGCCGAAGATTTCGGAGTTTCGTAGGGTTTATT
CGGCGCCGGAGATTAGTCGCAAGGTTATGGAGAGATGGGGACCTGCGAGAGCGAAGCTTGGAATGGATCTATCGGCGATTAAGAAGGCGATTGTGTCTGA
GATGGAATTGGATGAGCGTCAGGGAGTTTTGGAGATGAGTAGATTGAGGAGACGGCGTAATAGTGATAGGGTTAGGTTTACGGAGTTTTTCGCGGAGGCT
GAGAGAGATGGAGAAGCTTATTTCGGTGATTGGGAACCGATTAGGTCTTTGAAGAGTAGATTTAAAGAGTTTGAGAAACGAAGCTCGTTAGAAATATTGA
GTGGATTCAAGAACAGTGAATTTGTTGAGAAGCTCAAAACCAGCTTTAAATCAATTTACAAAGAAACTGATGAGGCTAAGGATGTCCCTCCGTTGGATGT
ACCTGAACTGTTGGCATGTTTGGTTAGACAATCTGAACCTTTTCTTGATCAGATTGGTGTTAGAAAGGATACATGTGACCGAATAGTAGAAAGCCTTTGC
AAATGCAAGAGCCAACAACTTTGGCGTCTGCCATCTGCACAAGCATCCGATTTAATTGAAAATGATAACCATGGAGTTGATTTGGATATGAGGATAGCCA
GTGTTCTTCAAAGCACAGGACACCATTATGATGGTGGGTTTTGGACTGATTTTGTGAAGCCTGAGACACCGGAAAACAAAAGGCATGTGGCAATTGTTAC
AACAGCTAGTCTTCCTTGGATGACCGGAACAGCTGTAAATCCGCTATTCAGAGCGGCGTATTTGGCAAAAGCTGCAAAACAGAGTGTTACTCTCGTGGTT
CCTTGGCTCTGCGAATCTGATCAAGAACTAGTGTATCCAAACAATCTCACCTTCAGCTCACCTGAAGAACAAGAGAGTTATATACGTAAATGGTTGGAGG
AAAGGATTGGTTTCAAGGCTGATTTTAAAATCTCCTTTTACCCAGGAAAGTTTTCAAAAGAAAGGCGCAGCATATTTCCTGCTGGTGACACTTCTCAATT
TATATCGTCAAAAGATGCTGACATTGCTATACTTGAAGAACCTGAACATCTCAACTGGTATTATCACGGCAAGCGTTGGACTGATAAATTCAACCATGTT
GTTGGAATTGTCCACACAAACTACTTAGAGTACATCAAGAGGGAGAAGAATGGAGCTCTTCAAGCATTTTTTGTGAACCATGTAAACAATTGGGTCACAC
GAGCGTATTGTGACAAGGTTCTTCGCCTCTCTGCGGCAACACAAGATTTACCAAAGTCTGTTGTATGCAATGTCCATGGTGTCAATCCCAAGTTCCTTAT
GATTGGGGAGAAAATTGCTGAAGAGAGATCCCGTGGTGAACAAGCTTTCTCAAAAGGTGCATACTTCTTAGGAAAAATGGTGTGGGCTAAAGGATACAGA
GAACTAATAGATCTGATGGCTAAACACAAAAGCGAACTTGGGAGCTTCAATCTAGATGTATATGGGAACGGTGAAGATGCAGTCGAGGTCCAACGTGCAG
CAAAGAAACATGACTTGAATCTCAATTTCCTCAAAGGAAGGGACCACGCTGACGATGCTCTTCACAAGTACAAAGTGTTCATAAACCCCAGCATCAGCGA
TGTTCTATGCACAGCAACCGCAGAAGCACTAGCCATGGGGAAGTTTGTGGTGTGTGCAGATCACCCTTCAAACGAATTCTTTAGATCATTCCCGAACTGC
TTAACTTACAAAACATCCGAAGACTTTGTGTCCAAAGTGCAAGAAGCAATGACGAAAGAGCCACTACCTCTCACTCCTGAACAAATGTACAATCTCTCTT
GGGAAGCAGCAACACAGAGGTTCATGGAGTATTCAGATCTCGATAAGATCTTAAACAATGGAGAGGGAGGAAGGAAGATGCGAAAATCAAGATCGGTTCC
GAGCTTTAACGAGGTGGTCGATGGAGGATTGGCATTCTCACACTATGTTCTAACAGGGAACGATTTCTTGAGACTATGCACTGGAGCAACACCAAGAACA
AAAGACTATGATAATCAACATTGCAAGGATCTGAATCTCGTACCACCTCACGTTCACAAGCCAATCTTCGGCTGGTAGATATTTCCCCATAGGCCACCCA
GTTATTGCTTGTGACTTATTAAACCACTACGTTATTGTTATCCTTTTTTACTTTTACAGTTGTTGTAGGTCGTTTGTTTGTTAATAGAAAGGGTAGATTA
TTATTAGATGTCTTTTTGTAAAATATCAATACGAAGCGTATTTGATGATATATAAAATAACTATATTGGC
AT3G11670.2 Sequences
AT3G11670.2, Protein sequence 639 amino acids
MVKETLIPPSSTSMTTGTSSSSSLSMTLSSTNALSFLSKGWREVWDSADADLQLMRDRAN
SVKNLASTFDREIENFLNNSARSAFPVGSPSASSFSNEIGIMKKLQPKISEFRRVYSAPE
ISRKVMERWGPARAKLGMDLSAIKKAIVSEMELDERQGVLEMSRLRRRRNSDRVRFTEFF
AEAERDGEAYFGDWEPIRSLKSRFKEFEKRSSLEILSGFKNSEFVEKLKTSFKSIYKETD
EAKDVPPLDVPELLACLVRQSEPFLDQIGVRKDTCDRIVESLCKCKSQQLWRLPSAQASD
LIENDNHGVDLDMRIASVLQSTGHHYDGGFWTDFVKPETPENKRHVAIVTTASLPWMTGT
AVNPLFRAAYLAKAAKQSVTLVVPWLCESDQELVYPNNLTFSSPEEQESYIRKWLEERIG
FKADFKISFYPGKFSKERRSIFPAGDTSQFISSKDADIAILEEPEHLNWYYHGKRWTDKF
NHVVGIVHTNYLEYIKREKNGALQAFFVNHVNNWVTRAYCDKVLRLSAATQDLPKSVVCN
VHGVNPKFLMIGEKIAEERSRGEQAFSKGAYFLGKMVWAKGYRELIDLMAKHKSELGSFN
LDVYGNGEDAVEVQRAAKKHDLNLNFLKGRDHADDALHK*
AT3G11670.2 Sequence 2941 bases
ATTAGCAGCACTCTCACGAAATCGTCGTGACGAAACGATAAACCCTAAGTCATGGTAAAGGAAACTCTAATTCCTCCGTCATCTACGTCAATGACGACCG
GAACATCTTCTTCTTCGTCTCTTTCAATGACGTTATCCTCAACAAACGCGTTATCGTTTTTGTCGAAAGGATGGAGAGAGGTATGGGATTCAGCAGATGC
GGATTTGCAGCTGATGCGAGACAGAGCTAACTCTGTTAAGAATCTAGCATCAACGTTCGATAGAGAGATCGAGAATTTCCTCAATAACTCGGCGAGGTCT
GCGTTTCCCGTTGGTTCACCATCGGCGTCGTCTTTCTCAAATGAAATTGGTATCATGAAGAAGCTTCAGCCGAAGATTTCGGAGTTTCGTAGGGTTTATT
CGGCGCCGGAGATTAGTCGCAAGGTTATGGAGAGATGGGGACCTGCGAGAGCGAAGCTTGGAATGGATCTATCGGCGATTAAGAAGGCGATTGTGTCTGA
GATGGAATTGGATGAGCGTCAGGGAGTTTTGGAGATGAGTAGATTGAGGAGACGGCGTAATAGTGATAGGGTTAGGTTTACGGAGTTTTTCGCGGAGGCT
GAGAGAGATGGAGAAGCTTATTTCGGTGATTGGGAACCGATTAGGTCTTTGAAGAGTAGATTTAAAGAGTTTGAGAAACGAAGCTCGTTAGAAATATTGA
GTGGATTCAAGAACAGTGAATTTGTTGAGAAGCTCAAAACCAGCTTTGTAAGTTTCTCCAACTTTTTGGGAACCTATTTCAAAAGTTTCTTCTATCTTAC
TGTAGAAGTGGCTTCTCTTTCAATAGCCACGACATTTTCGTATGCTGACTTGATAGTTACTGTTCTTGGAATGATTGATTGAGTTTCTTATGGTGTTTGG
CAACTTTTCTAATGGTGCTTTTTTCTTTTGTTTTATTTGCAGAAATCAATTTACAAAGAAACTGATGAGGCTAAGGTTGGTATTTGGAAGTTGGAGCTCT
ATCAGTTTTTCTTGTTACTTTATATATTTTTAGGTCGAGTTCAGTGTTGGATTGGGAGTTTAACTTGGCCTCCTTTTACTTTGGTGCAGGATGTCCCTCC
GTTGGATGTACCTGAACTGTTGGCATGTTTGGTTAGACAATCTGAACCTTTTCTTGATCAGATTGGTGTTAGAAAGGGTAAGATTGCATTTTTCTCTTCA
TGATGGTTAATTATTTTGTCTGTTGTATGTATTGAGTTGTTTCTCTACCATAGGTGGTTTTTCCGTCAAAAGTTTGAATCTTCTCTCTGATATTAGAGTG
TCTTTGTTAAGTGGGTTGCTTGCTTCACCAGAAGTTTAGATGGTGAGATTTGATGTTCTGCATTATCACACTAATCCTGGATATCAAATATGTGTAAGTC
TAGATTCTGTATGAGACAGATCAATCAAATGACATCTGCCGTAGACATAAAAATTTCTAGATGTGTAGGTTATTGGTTTTAAACACCCTTTCTTGTACAT
TATCTTATAGTTTCAGTGTTTACATACAAAGTTCCTGATTCTGTTCTGCTGAATTTTCTTTCAGATACATGTGACCGAATAGTAGAAAGCCTTTGCAAAT
GCAAGAGCCAACAACTTTGGCGTCTGCCATCTGCACAAGCATCCGATTTAATTGAAAATGATAACCATGGAGTTGATTTGGATATGAGGATAGCCAGTGT
TCTTCAAAGCACAGGACACCATTATGATGGTGGGTTTTGGACTGATTTTGTGAAGCCTGAGACACCGGAAAACAAAAGGCATGTGGCAATTGTTACAACA
GCTAGTCTTCCTTGGATGACCGGAACAGCTGTAAATCCGCTATTCAGAGCGGCGTATTTGGCAAAAGCTGCAAAACAGAGTGTTACTCTCGTGGTTCCTT
GGCTCTGCGAATCTGATCAAGAACTAGTGTATCCAAACAATCTCACCTTCAGCTCACCTGAAGAACAAGAGAGTTATATACGTAAATGGTTGGAGGAAAG
GATTGGTTTCAAGGCTGATTTTAAAATCTCCTTTTACCCAGGAAAGGTATGTTGATCATTTTGGATTCTATTTTTTTATTTCTATGGCTGCCAATATGTT
TTTCAATTATTTCTATAGAGTAACTGAGCTTTCTGGTTTCTTATAGTTTTCAAAAGAAAGGCGCAGCATATTTCCTGCTGGTGACACTTCTCAATTTATA
TCGTCAAAAGATGCTGACATTGCTATACTTGAAGAACCTGAACATCTCAACTGGTATTATCACGGCAAGCGTTGGACTGATAAATTCAACCATGTTGTTG
GAATTGTCCACACAAACTACTTAGAGTACATCAAGAGGGAGAAGAATGGAGCTCTTCAAGCATTTTTTGTGAACCATGTAAACAATTGGGTCACACGAGC
GTATTGTGACAAGGTGAATCATCTACTCTATTTCTTCAAGCCTTGTTCTGTTGCTTGAATCCTCTTTACTAATAAATAGTACACGAGCTAATACATATTT
TCTACTCATGAAAGGTTCTTCGCCTCTCTGCGGCAACACAAGATTTACCAAAGTCTGTTGTATGCAATGTCCATGGTGTCAATCCCAAGTTCCTTATGAT
TGGGGAGAAAATTGCTGAAGAGAGATCCCGTGGTGAACAAGCTTTCTCAAAAGGTGCATACTTCTTAGGAAAAATGGTGTGGGCTAAAGGATACAGAGAA
CTAATAGATCTGATGGCTAAACACAAAAGCGAACTTGGGAGCTTCAATCTAGATGTATATGGGAACGGTGAAGATGCAGTCGAGGTCCAACGTGCAGCAA
AGAAACATGACTTGAATCTCAATTTCCTCAAAGGAAGGGACCACGCTGACGATGCTCTTCACAAGTAAGTTCTGAAAAATGTGCTTTGCTTTTAAAAACT
TGTTAAGGTTTCGCTCTTTGATTGTCTTTCCCACATCTTGA
AT3G11670.2 Coding Sequence (CDS) 1917 bases
ATGGTAAAGGAAACTCTAATTCCTCCGTCATCTACGTCAATGACGACCGGAACATCTTCTTCTTCGTCTCTTTCAATGACGTTATCCTCAACAAACGCGT
TATCGTTTTTGTCGAAAGGATGGAGAGAGGTATGGGATTCAGCAGATGCGGATTTGCAGCTGATGCGAGACAGAGCTAACTCTGTTAAGAATCTAGCATC
AACGTTCGATAGAGAGATCGAGAATTTCCTCAATAACTCGGCGAGGTCTGCGTTTCCCGTTGGTTCACCATCGGCGTCGTCTTTCTCAAATGAAATTGGT
ATCATGAAGAAGCTTCAGCCGAAGATTTCGGAGTTTCGTAGGGTTTATTCGGCGCCGGAGATTAGTCGCAAGGTTATGGAGAGATGGGGACCTGCGAGAG
CGAAGCTTGGAATGGATCTATCGGCGATTAAGAAGGCGATTGTGTCTGAGATGGAATTGGATGAGCGTCAGGGAGTTTTGGAGATGAGTAGATTGAGGAG
ACGGCGTAATAGTGATAGGGTTAGGTTTACGGAGTTTTTCGCGGAGGCTGAGAGAGATGGAGAAGCTTATTTCGGTGATTGGGAACCGATTAGGTCTTTG
AAGAGTAGATTTAAAGAGTTTGAGAAACGAAGCTCGTTAGAAATATTGAGTGGATTCAAGAACAGTGAATTTGTTGAGAAGCTCAAAACCAGCTTTAAAT
CAATTTACAAAGAAACTGATGAGGCTAAGGATGTCCCTCCGTTGGATGTACCTGAACTGTTGGCATGTTTGGTTAGACAATCTGAACCTTTTCTTGATCA
GATTGGTGTTAGAAAGGATACATGTGACCGAATAGTAGAAAGCCTTTGCAAATGCAAGAGCCAACAACTTTGGCGTCTGCCATCTGCACAAGCATCCGAT
TTAATTGAAAATGATAACCATGGAGTTGATTTGGATATGAGGATAGCCAGTGTTCTTCAAAGCACAGGACACCATTATGATGGTGGGTTTTGGACTGATT
TTGTGAAGCCTGAGACACCGGAAAACAAAAGGCATGTGGCAATTGTTACAACAGCTAGTCTTCCTTGGATGACCGGAACAGCTGTAAATCCGCTATTCAG
AGCGGCGTATTTGGCAAAAGCTGCAAAACAGAGTGTTACTCTCGTGGTTCCTTGGCTCTGCGAATCTGATCAAGAACTAGTGTATCCAAACAATCTCACC
TTCAGCTCACCTGAAGAACAAGAGAGTTATATACGTAAATGGTTGGAGGAAAGGATTGGTTTCAAGGCTGATTTTAAAATCTCCTTTTACCCAGGAAAGT
TTTCAAAAGAAAGGCGCAGCATATTTCCTGCTGGTGACACTTCTCAATTTATATCGTCAAAAGATGCTGACATTGCTATACTTGAAGAACCTGAACATCT
CAACTGGTATTATCACGGCAAGCGTTGGACTGATAAATTCAACCATGTTGTTGGAATTGTCCACACAAACTACTTAGAGTACATCAAGAGGGAGAAGAAT
GGAGCTCTTCAAGCATTTTTTGTGAACCATGTAAACAATTGGGTCACACGAGCGTATTGTGACAAGGTTCTTCGCCTCTCTGCGGCAACACAAGATTTAC
CAAAGTCTGTTGTATGCAATGTCCATGGTGTCAATCCCAAGTTCCTTATGATTGGGGAGAAAATTGCTGAAGAGAGATCCCGTGGTGAACAAGCTTTCTC
AAAAGGTGCATACTTCTTAGGAAAAATGGTGTGGGCTAAAGGATACAGAGAACTAATAGATCTGATGGCTAAACACAAAAGCGAACTTGGGAGCTTCAAT
CTAGATGTATATGGGAACGGTGAAGATGCAGTCGAGGTCCAACGTGCAGCAAAGAAACATGACTTGAATCTCAATTTCCTCAAAGGAAGGGACCACGCTG
ACGATGCTCTTCACAAGTAA
AT3G11670.2 cDNA Sequence 2044 bases
ATTAGCAGCACTCTCACGAAATCGTCGTGACGAAACGATAAACCCTAAGTCATGGTAAAGGAAACTCTAATTCCTCCGTCATCTACGTCAATGACGACCG
GAACATCTTCTTCTTCGTCTCTTTCAATGACGTTATCCTCAACAAACGCGTTATCGTTTTTGTCGAAAGGATGGAGAGAGGTATGGGATTCAGCAGATGC
GGATTTGCAGCTGATGCGAGACAGAGCTAACTCTGTTAAGAATCTAGCATCAACGTTCGATAGAGAGATCGAGAATTTCCTCAATAACTCGGCGAGGTCT
GCGTTTCCCGTTGGTTCACCATCGGCGTCGTCTTTCTCAAATGAAATTGGTATCATGAAGAAGCTTCAGCCGAAGATTTCGGAGTTTCGTAGGGTTTATT
CGGCGCCGGAGATTAGTCGCAAGGTTATGGAGAGATGGGGACCTGCGAGAGCGAAGCTTGGAATGGATCTATCGGCGATTAAGAAGGCGATTGTGTCTGA
GATGGAATTGGATGAGCGTCAGGGAGTTTTGGAGATGAGTAGATTGAGGAGACGGCGTAATAGTGATAGGGTTAGGTTTACGGAGTTTTTCGCGGAGGCT
GAGAGAGATGGAGAAGCTTATTTCGGTGATTGGGAACCGATTAGGTCTTTGAAGAGTAGATTTAAAGAGTTTGAGAAACGAAGCTCGTTAGAAATATTGA
GTGGATTCAAGAACAGTGAATTTGTTGAGAAGCTCAAAACCAGCTTTAAATCAATTTACAAAGAAACTGATGAGGCTAAGGATGTCCCTCCGTTGGATGT
ACCTGAACTGTTGGCATGTTTGGTTAGACAATCTGAACCTTTTCTTGATCAGATTGGTGTTAGAAAGGATACATGTGACCGAATAGTAGAAAGCCTTTGC
AAATGCAAGAGCCAACAACTTTGGCGTCTGCCATCTGCACAAGCATCCGATTTAATTGAAAATGATAACCATGGAGTTGATTTGGATATGAGGATAGCCA
GTGTTCTTCAAAGCACAGGACACCATTATGATGGTGGGTTTTGGACTGATTTTGTGAAGCCTGAGACACCGGAAAACAAAAGGCATGTGGCAATTGTTAC
AACAGCTAGTCTTCCTTGGATGACCGGAACAGCTGTAAATCCGCTATTCAGAGCGGCGTATTTGGCAAAAGCTGCAAAACAGAGTGTTACTCTCGTGGTT
CCTTGGCTCTGCGAATCTGATCAAGAACTAGTGTATCCAAACAATCTCACCTTCAGCTCACCTGAAGAACAAGAGAGTTATATACGTAAATGGTTGGAGG
AAAGGATTGGTTTCAAGGCTGATTTTAAAATCTCCTTTTACCCAGGAAAGTTTTCAAAAGAAAGGCGCAGCATATTTCCTGCTGGTGACACTTCTCAATT
TATATCGTCAAAAGATGCTGACATTGCTATACTTGAAGAACCTGAACATCTCAACTGGTATTATCACGGCAAGCGTTGGACTGATAAATTCAACCATGTT
GTTGGAATTGTCCACACAAACTACTTAGAGTACATCAAGAGGGAGAAGAATGGAGCTCTTCAAGCATTTTTTGTGAACCATGTAAACAATTGGGTCACAC
GAGCGTATTGTGACAAGGTTCTTCGCCTCTCTGCGGCAACACAAGATTTACCAAAGTCTGTTGTATGCAATGTCCATGGTGTCAATCCCAAGTTCCTTAT
GATTGGGGAGAAAATTGCTGAAGAGAGATCCCGTGGTGAACAAGCTTTCTCAAAAGGTGCATACTTCTTAGGAAAAATGGTGTGGGCTAAAGGATACAGA
GAACTAATAGATCTGATGGCTAAACACAAAAGCGAACTTGGGAGCTTCAATCTAGATGTATATGGGAACGGTGAAGATGCAGTCGAGGTCCAACGTGCAG
CAAAGAAACATGACTTGAATCTCAATTTCCTCAAAGGAAGGGACCACGCTGACGATGCTCTTCACAAGTAAGTTCTGAAAAATGTGCTTTGCTTTTAAAA
ACTTGTTAAGGTTTCGCTCTTTGATTGTCTTTCCCACATCTTGA