Gene Details:
- Gene ID: AT3G14940
- Gene Symbol: ATPPC3, PPC3
- Gene Name: phosphoenolpyruvate carboxylase 3, phosphoenolpyruvate carboxylase 3
- Description: phosphoenolpyruvate carboxylase 3;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0009001 — fruit — frucht (exact, German), fruto (exact, Spanish), 果実 (exact, Japanese), coenocarp (narrow), syncarp (narrow), aggregate fruit (broad), compound fruit (broad), dehiscent fruit (broad), diaspore (broad), indehiscent fruit (broad), multiple fruit (broad), propagule (broad)
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
Function-related keywords:
Literature:
- Cell cycle-regulated gene expression in Arabidopsis. DOI: 10.1074/jbc.M207570200 ; PMID: 12169696
- Identification and expression analysis of a gene encoding a bacterial-type phosphoenolpyruvate carboxylase from Arabidopsis and rice. DOI: 10.1104/pp.102.019653 ; PMID: 12805623
- Inactivation of the chloroplast ATP synthase gamma subunit results in high non-photochemical fluorescence quenching and altered nuclear gene expression in Arabidopsis thaliana. DOI: 10.1074/jbc.M308435200 ; PMID: 14576160
- Comparative microarray analysis of Arabidopsis thaliana and Arabidopsis halleri roots identifies nicotianamine synthase, a ZIP transporter and other genes as potential metal hyperaccumulation factors. DOI: 10.1046/j.1365-313x.2003.01960.x ; PMID: 14690510
- Comprehensive comparison of auxin-regulated and brassinosteroid-regulated genes in Arabidopsis. DOI: 10.1104/pp.103.034736 ; PMID: 15047898
- Metabolic engineering with Dof1 transcription factor in plants: Improved nitrogen assimilation and growth under low-nitrogen conditions. DOI: 10.1073/pnas.0402267101 ; PMID: 15136740
- Transcriptional profiling by cDNA-AFLP and microarray analysis reveals novel insights into the early response to ethylene in Arabidopsis. DOI: 10.1111/j.1365-313X.2004.02156.x ; PMID: 15272873
- Isolation and identification of phosphatidic acid targets from plants. DOI: 10.1111/j.1365-313X.2004.02152.x ; PMID: 15272872
- Genomic analysis of the nitrate response using a nitrate reductase-null mutant of Arabidopsis. DOI: 10.1104/pp.104.044610 ; PMID: 15333754
- Arabidopsis phosphoenolpyruvate carboxylase genes encode immunologically unrelated polypeptides and are differentially expressed in response to drought and salt stress. DOI: 10.1007/s00425-005-0144-5 ; PMID: 16283377
- A coumaroyl-ester-3-hydroxylase insertion mutant reveals the existence of nonredundant meta-hydroxylation pathways and essential roles for phenolic precursors in cell expansion and plant growth. DOI: 10.1104/pp.105.069690 ; PMID: 16377748
- Integration of metabolite with transcript and enzyme activity profiling during diurnal cycles in Arabidopsis rosettes. DOI: 10.1186/gb-2006-7-8-R76 ; PMID: 16916443
- and plant-type phosphoenolpyruvate carboxylase polypeptides interact in the hetero-oligomeric Class-2 PEPC complex of developing castor oil seeds. DOI: 10.1111/j.1365-313X.2007.03274.x ; PMID: 17894783
- Site-specific phosphorylation profiling of Arabidopsis proteins by mass spectrometry and peptide chip analysis. DOI: 10.1021/pr8000173 ; PMID: 18433157
- Characterization of Arabidopsis lines deficient in GAPC-1, a cytosolic NAD-dependent glyceraldehyde-3-phosphate dehydrogenase. DOI: 10.1104/pp.108.128769 ; PMID: 18820081
- Characterization of bacterial-type phosphoenolpyruvate carboxylase expressed in male gametophyte of higher plants. DOI: 10.1186/1471-2229-10-200 ; PMID: 20836890
- Endogenous Arabidopsis messenger RNAs transported to distant tissues. DOI: 10.1038/nplants.2015.25 ; PMID: 27247031
- 2-Hydroxy Acids in Plant Metabolism. DOI: 10.1199/tab.0182 ; PMID: 26380567
- Phosphoenolpyruvate carboxylase (PEPC) and PEPC-kinase (PEPC-k) isoenzymes in Arabidopsis thaliana: role in control and abiotic stress conditions. DOI: 10.1007/s00425-016-2556-9 ; PMID: 27306451
- Phosphoenolpyruvate carboxylase and phosphoenolpyruvate carboxylase kinase isoenzymes play an important role in the filling and quality of Arabidopsis thaliana seed. DOI: 10.1016/j.plaphy.2022.08.012 ; PMID: 36099810
- Site-specific phosphorylation profiling of Arabidopsis proteins by mass spectrometry and peptide chip analysis. DOI: 10.1021/pr8000173 ; PMID: 18433157
Sequences:
cDNA Sequence
- >AT3G14940.2
TTTTTTTCAGTTTGAGTTTTGTTTTGTTTTTTCGTGATTTTCGGTCAGTCTACCAAATCCCCTGTTTTTCCGGCGATTCAGTTGTCAACAGATTTTGCTTTTCTTTTTCCCTTTTTGTGTAAAAAAACTCATTTCCTTTTTGATCTGATGATTACAGAAGAAGTAAGAGGGTGGCGAAGAAGATTTGATTGATCGGCGATAATGGCGGGTCGGAACATAGAGAAGATGGCATCTATTGATGCTCAGCTTCGGCAACTCGTTCCTGCTAAAGTCAGTGAAGACGATAAGCTTGTTGAGTACGATGCTCTTCTCCTTGATCGCTTTCTCGACATTCTCCAGGATTTACACGGCGAGGATCTCCGTGAAACGGTTCAAGAGTTATACGAGCTTTCTGCTGAGTATGAAGGGAAGCGTGAGCCTAGCAAGCTTGAGGAGCTAGGGAGTGTCCTAACGAGTTTGGATCCTGGTGACTCAATTGTTATCTCCAAGGCTTTCTCTCACATGCTTAACTTAGCCAATTTGGCTGAGGAGGTGCAGATTGCTCACCGTCGCAGGATCAAGAAGCTGAAGAAAGGTGATTTCGTTGATGAGAGTTCTGCAACTACTGAATCCGATATTGAAGAGACTTTTAAGAGGCTCGTTTCGGATCTTGGTAAGTCTCCTGAAGAGATCTTTGATGCCTTGAAGAATCAGACTGTGGATCTGGTTTTGACTGCTCATCCTACTCAGTCTGTGCGTAGATCATTGCTTCAGAAGCATGGGAGGATAAGGGACTGTCTTGCTCAACTCTATGCAAAGGACATTACTCCTGATGACAAGCAGGAGCTAGATGAGTCTCTGCAAAGAGAGATTCAAGCTGCATTCCGAACAGATGAGATTAGAAGAACACCTCCAACCCCACAAGATGAAATGAGAGCTGGAATGAGTTATTTCCACGAGACAATCTGGAAAGGTGTCCCCAAGTTCTTGCGCCGTGTGGACACAGCTCTGAAAAACATTGGGATTGATGAACGTGTTCCTTACAATGCCCCATTGATTCAATTCTCTTCGTGGATGGGCGGTGATCGTGATGGTAATCCGAGGGTCACACCTGAGGTCACTAGAGATGTGTGCTTGTTGGCTAGAATGATGGCTGCCAATCTCTACTATAACCAAATCGAGAATCTGATGTTTGAGTTATCTATGTGGCGTTGCACTGATGAATTCCGTGTGCGGGCGGATGAACTGCACAGGAACTCAAGGAAAGATGCTGCAAAACATTACATAGAATTCTGGAAGACAATTCCTCCAACTGAGCCATACCGTGTGATTCTTGGTGATGTGAGGGATAAGCTGTATCACACACGTGAGCGTTCCCGCCAATTGCTGAGTAATGGAATCTCGGATATTCCTGAAGAAGCTACCTTCACTAATGTGGAACAGTTCTTGGAGCCTCTTGAGCTCTGTTACCGATCACTATGTTCATGTGGTGACAGCCCGATAGCTGATGGAAGCCTTCTTGATTTCTTGAGGCAAGTCTCTACCTTTGGACTCTCCCTTGTGAGACTTGACATCAGGCAAGAGTCTGAACGCCACACAGATGTCTTGGATGCTATCACCAAGCACTTGGACATCGGTTCCTCCTATAGAGACTGGTCTGAAGAAGGCCGACAGGAATGGCTTCTTGCTGAACTAAGCGGCAAACGTCCACTTTTCGGACCTGATCTTCCCAAAACCGAAGAAATTTCTGATGTCCTGGACACATTCAAAGTCATATCTGAGCTGCCTTCAGATTGTTTTGGAGCTTATATTATCTCTATGGCAACTTCACCTAGTGATGTGCTTGCGGTTGAGCTTTTACAGCGCGAATGCCATGTGAAAAATCCACTTAGAGTTGTTCCACTCTTTGAGAAGCTAGCTGATCTTGAAGCAGCTCCTGCCGCTGTTGCAAGACTCTTTTCTATAGACTGGTACAAAAACCGTATTAACGGTAAACAAGAGGTTATGATTGGTTACTCAGATTCAGGGAAAGATGCAGGGCGTCTCTCAGCTGCTTGGGAGCTATACAAAGCTCAAGAAGAGCTTGTGAAGGTTGCTAAGAAATATGGAGTGAAGCTAACTATGTTCCATGGCCGTGGTGGCACAGTCGGAAGAGGAGGTGGTCCTACTCATCTTGCTATATTGTCTCAGCCACCAGATACAGTTAATGGCTCTCTTCGAGTCACGGTTCAGGGTGAAGTCATTGAGCAATCATTTGGGGAGGCACACTTATGCTTTAGAACACTTCAACGTTTCACAGCAGCTACTCTAGAGCACGGAATGAACCCTCCGATTTCACCAAAACCCGAGTGGCGTGCTTTGCTTGATGAAATGGCGGTTGTTGCAACTGAGGAATACCGATCTGTCGTTTTCCAAGAACCTCGATTCGTCGAGTATTTCCGCCTCGCTACTCCGGAGCTGGAGTATGGACGTATGAATATTGGAAGTAGACCTTCAAAGCGAAAACCAAGCGGTGGGATCGAATCTCTCCGTGCAATCCCATGGATCTTTGCTTGGACGCAAACAAGATTCCATCTTCCTGTATGGTTAGGTTTCGGAGCAGCATTTAGGTATGCGATCAAGAAGGATGTGAGAAACCTTCACATGCTGCAAGATATGTATAAACAATGGCCCTTTTTCCGAGTCACCATCGATCTAATTGAAATGGTGTTCGCCAAGGGAGACCCCGGGATCGCTGCTTTGTACGACAAACTTCTTGTCTCAGAAGATTTATGGGCTTTTGGAGAGAAACTCAGAGCCAACTTTGATGAAACCAAGAACCTCGTCCTCCAGACTGCTGGACATAAAGACCTTCTTGAAGGAGATCCTTACTTGAAACAGAGACTAAGGCTACGTGACTCTTACATTACGACCCTCAACGTTTGCCAAGCCTACACATTGAAGAGGATCCGTGATGCAAACTACAATGTGACTCTGCGACCACACATTTCTAAAGAGATCATGCAATCAAGCAAATCAGCACAAGAGCTCGTCAAGCTTAACCCCACGAGTGAATACGCGCCTGGACTTGAGGACACACTTATCTTAACCATGAAGGGTATTGCTGCAGGATTGCAAAACACCGGTTAAGTGAGTCAGTGAAAGAAAACAAAACTTCGAATCTCTCTTTTTTATCTACCCTTTTTAATAATCTCTTTTTTTCTAGAATCCAAAATAATTACGGTTGGATTACAGTTTACTTTATGTATCCACCGTTGAAATCTTAATCTTCCATTGTATCAAACGTCACTGACTCTGTTTCTGGAAGTGTAAACAAGAACAGAGACAGTGAATCTTAATGTTATCTTCTTTGTCTTTTTCTTTCTGGTCTCTGTCTCAGAATCGTTTACATTTGTTAATACGTTTAAATTGCACGTCGTCTAAAGTCTGACTGTGGTCCCTGAAACATGTTAATAGAAC - >AT3G14940.1
TTTTTTTCAGTTTGAGTTTTGTTTTGTTTTTTCGTGATTTTCGGTCAGTCTACCAAATCCCCTGTTTTTCCGGCGATTCAGTTGTCAACAGATTTTGCTTTTCTTTTTCCCTTTTTGTGTAAAAAAACTCATTTCCTTTTTGATCTGATGATTACAGAAGAAGTAAGAGGGTGGCGAAGAAGATTTGATTGATCGGCGATAATGGCGGGTCGGAACATAGAGAAGATGGCATCTATTGATGCTCAGCTTCGGCAACTCGTTCCTGCTAAAGTCAGTGAAGACGATAAGCTTGTTGAGTACGATGCTCTTCTCCTTGATCGCTTTCTCGACATTCTCCAGGATTTACACGGCGAGGATCTCCGTGAAACGGTTCAAGAGTTATACGAGCTTTCTGCTGAGTATGAAGGGAAGCGTGAGCCTAGCAAGCTTGAGGAGCTAGGGAGTGTCCTAACGAGTTTGGATCCTGGTGACTCAATTGTTATCTCCAAGGCTTTCTCTCACATGCTTAACTTAGCCAATTTGGCTGAGGAGGTGCAGATTGCTCACCGTCGCAGGATCAAGAAGCTGAAGAAAGGTGATTTCGTTGATGAGAGTTCTGCAACTACTGAATCCGATATTGAAGAGACTTTTAAGAGGCTCGTTTCGGATCTTGGTAAGTCTCCTGAAGAGATCTTTGATGCCTTGAAGAATCAGACTGTGGATCTGGTTTTGACTGCTCATCCTACTCAGTCTGTGCGTAGATCATTGCTTCAGAAGCATGGGAGGATAAGGGACTGTCTTGCTCAACTCTATGCAAAGGACATTACTCCTGATGACAAGCAGGAGCTAGATGAGTCTCTGCAAAGAGAGATTCAAGCTGCATTCCGAACAGATGAGATTAGAAGAACACCTCCAACCCCACAAGATGAAATGAGAGCTGGAATGAGTTATTTCCACGAGACAATCTGGAAAGGTGTCCCCAAGTTCTTGCGCCGTGTGGACACAGCTCTGAAAAACATTGGGATTGATGAACGTGTTCCTTACAATGCCCCATTGATTCAATTCTCTTCGTGGATGGGCGGTGATCGTGATGGTAATCCGAGGGTCACACCTGAGGTCACTAGAGATGTGTGCTTGTTGGCTAGAATGATGGCTGCCAATCTCTACTATAACCAAATCGAGAATCTGATGTTTGAGTTATCTATGTGGCGTTGCACTGATGAATTCCGTGTGCGGGCGGATGAACTGCACAGGAACTCAAGGAAAGATGCTGCAAAACATTACATAGAATTCTGGAAGACAATTCCTCCAACTGAGCCATACCGTGTGATTCTTGGTGATGTGAGGGATAAGCTGTATCACACACGTGAGCGTTCCCGCCAATTGCTGAGTAATGGAATCTCGGATATTCCTGAAGAAGCTACCTTCACTAATGTGGAACAGTTCTTGGAGCCTCTTGAGCTCTGTTACCGATCACTATGTTCATGTGGTGACAGCCCGATAGCTGATGGAAGCCTTCTTGATTTCTTGAGGCAAGTCTCTACCTTTGGACTCTCCCTTGTGAGACTTGACATCAGGCAAGAGTCTGAACGCCACACAGATGTCTTGGATGCTATCACCAAGCACTTGGACATCGGTTCCTCCTATAGAGACTGGTCTGAAGAAGGCCGACAGGAATGGCTTCTTGCTGAACTAAGCGGCAAACGTCCACTTTTCGGACCTGATCTTCCCAAAACCGAAGAAATTTCTGATGTCCTGGACACATTCAAAGTCATATCTGAGCTGCCTTCAGATTGTTTTGGAGCTTATATTATCTCTATGGCAACTTCACCTAGTGATGTGCTTGCGGTTGAGCTTTTACAGCGCGAATGCCATGTGAAAAATCCACTTAGAGTTGTTCCACTCTTTGAGAAGCTAGCTGATCTTGAAGCAGCTCCTGCCGCTGTTGCAAGACTCTTTTCTATAGACTGGTACAAAAACCGTATTAACGGTAAACAAGAGGTTATGATTGGTTACTCAGATTCAGGGAAAGATGCAGGGCGTCTCTCAGCTGCTTGGGAGCTATACAAAGCTCAAGAAGAGCTTGTGAAGGTTGCTAAGAAATATGGAGTGAAGCTAACTATGTTCCATGGCCGTGGTGGCACAGTCGGAAGAGGAGGTGGTCCTACTCATCTTGCTATATTGTCTCAGCCACCAGATACAGTTAATGGCTCTCTTCGAGTCACGGTTCAGGGTGAAGTCATTGAGCAATCATTTGGGGAGGCACACTTATGCTTTAGAACACTTCAACGTTTCACAGCAGCTACTCTAGAGCACGGAATGAACCCTCCGATTTCACCAAAACCCGAGTGGCGTGCTTTGCTTGATGAAATGGCGGTTGTTGCAACTGAGGAATACCGATCTGTCGTTTTCCAAGAACCTCGATTCGTCGAGTATTTCCGCCTCGCTACTCCGGAGCTGGAGTATGGACGTATGAATATTGGAAGTAGACCTTCAAAGCGAAAACCAAGCGGTGGGATCGAATCTCTCCGTGCAATCCCATGGATCTTTGCTTGGACGCAAACAAGATTCCATCTTCCTGTATGGTTAGGTTTCGGAGCAGCATTTAGGTATGCGATCAAGAAGGATGTGAGAAACCTTCACATGCTGCAAGATATGTATAAACAATGGCCCTTTTTCCGAGTCACCATCGATCTAATTGAAATGGTGTTCGCCAAGGGAGACCCCGGGATCGCTGCTTTGTACGACAAACTTCTTGTCTCAGAAGATTTATGGGCTTTTGGAGAGAAACTCAGAGCCAACTTTGATGAAACCAAGAACCTCGTCCTCCAGACTGCTGGACATAAAGACCTTCTTGAAGGAGATCCTTACTTGAAACAGAGACTAAGGCTACGTGACTCTTACATTACGACCCTCAACGTTTGCCAAGCCTACACATTGAAGAGGATCCGTGATGCAAACTACAATGTGACTCTGCGACCACACATTTCTAAAGAGATCATGCAATCAAGCAAATCAGCACAAGAGCTCGTCAAGCTTAACCCCACGAGTGAATACGCGCCTGGACTTGAGGACACACTTATCTTAACCATGAAGGGTATTGCTGCAGGATTGCAAAACACCGGTTAAGTGAGTCAGTGAAAGAAAACAAAACTTCGAATCTCTCTTTTTTATCTACCCTTTTTAATAATCTCTTTTTTTCTAGAATCCAAAATAATTACGGTTGGATTACAGTTTACTTTATGTATCCACCGTTGAAATCTTAATCTTCCATTGTATCAAACGTCACTGACTCTGTTTCTGGAAGTGTAAACAAGAACAGAGACAGTGAATCTTAATGTTATCTTCTTTGTCTTTTTCTTTCTGGTCTCTGTCTCAGAATCGTTTACATTTGTTAATACGTTTAAATTGCACGTCGTCTAAAGTCTGACTGTGGTCCCTGAAACATGTTAATAGAAC
CDS Sequence
- >AT3G14940.2
ATGGCGGGTCGGAACATAGAGAAGATGGCATCTATTGATGCTCAGCTTCGGCAACTCGTTCCTGCTAAAGTCAGTGAAGACGATAAGCTTGTTGAGTACGATGCTCTTCTCCTTGATCGCTTTCTCGACATTCTCCAGGATTTACACGGCGAGGATCTCCGTGAAACGGTTCAAGAGTTATACGAGCTTTCTGCTGAGTATGAAGGGAAGCGTGAGCCTAGCAAGCTTGAGGAGCTAGGGAGTGTCCTAACGAGTTTGGATCCTGGTGACTCAATTGTTATCTCCAAGGCTTTCTCTCACATGCTTAACTTAGCCAATTTGGCTGAGGAGGTGCAGATTGCTCACCGTCGCAGGATCAAGAAGCTGAAGAAAGGTGATTTCGTTGATGAGAGTTCTGCAACTACTGAATCCGATATTGAAGAGACTTTTAAGAGGCTCGTTTCGGATCTTGGTAAGTCTCCTGAAGAGATCTTTGATGCCTTGAAGAATCAGACTGTGGATCTGGTTTTGACTGCTCATCCTACTCAGTCTGTGCGTAGATCATTGCTTCAGAAGCATGGGAGGATAAGGGACTGTCTTGCTCAACTCTATGCAAAGGACATTACTCCTGATGACAAGCAGGAGCTAGATGAGTCTCTGCAAAGAGAGATTCAAGCTGCATTCCGAACAGATGAGATTAGAAGAACACCTCCAACCCCACAAGATGAAATGAGAGCTGGAATGAGTTATTTCCACGAGACAATCTGGAAAGGTGTCCCCAAGTTCTTGCGCCGTGTGGACACAGCTCTGAAAAACATTGGGATTGATGAACGTGTTCCTTACAATGCCCCATTGATTCAATTCTCTTCGTGGATGGGCGGTGATCGTGATGGTAATCCGAGGGTCACACCTGAGGTCACTAGAGATGTGTGCTTGTTGGCTAGAATGATGGCTGCCAATCTCTACTATAACCAAATCGAGAATCTGATGTTTGAGTTATCTATGTGGCGTTGCACTGATGAATTCCGTGTGCGGGCGGATGAACTGCACAGGAACTCAAGGAAAGATGCTGCAAAACATTACATAGAATTCTGGAAGACAATTCCTCCAACTGAGCCATACCGTGTGATTCTTGGTGATGTGAGGGATAAGCTGTATCACACACGTGAGCGTTCCCGCCAATTGCTGAGTAATGGAATCTCGGATATTCCTGAAGAAGCTACCTTCACTAATGTGGAACAGTTCTTGGAGCCTCTTGAGCTCTGTTACCGATCACTATGTTCATGTGGTGACAGCCCGATAGCTGATGGAAGCCTTCTTGATTTCTTGAGGCAAGTCTCTACCTTTGGACTCTCCCTTGTGAGACTTGACATCAGGCAAGAGTCTGAACGCCACACAGATGTCTTGGATGCTATCACCAAGCACTTGGACATCGGTTCCTCCTATAGAGACTGGTCTGAAGAAGGCCGACAGGAATGGCTTCTTGCTGAACTAAGCGGCAAACGTCCACTTTTCGGACCTGATCTTCCCAAAACCGAAGAAATTTCTGATGTCCTGGACACATTCAAAGTCATATCTGAGCTGCCTTCAGATTGTTTTGGAGCTTATATTATCTCTATGGCAACTTCACCTAGTGATGTGCTTGCGGTTGAGCTTTTACAGCGCGAATGCCATGTGAAAAATCCACTTAGAGTTGTTCCACTCTTTGAGAAGCTAGCTGATCTTGAAGCAGCTCCTGCCGCTGTTGCAAGACTCTTTTCTATAGACTGGTACAAAAACCGTATTAACGGTAAACAAGAGGTTATGATTGGTTACTCAGATTCAGGGAAAGATGCAGGGCGTCTCTCAGCTGCTTGGGAGCTATACAAAGCTCAAGAAGAGCTTGTGAAGGTTGCTAAGAAATATGGAGTGAAGCTAACTATGTTCCATGGCCGTGGTGGCACAGTCGGAAGAGGAGGTGGTCCTACTCATCTTGCTATATTGTCTCAGCCACCAGATACAGTTAATGGCTCTCTTCGAGTCACGGTTCAGGGTGAAGTCATTGAGCAATCATTTGGGGAGGCACACTTATGCTTTAGAACACTTCAACGTTTCACAGCAGCTACTCTAGAGCACGGAATGAACCCTCCGATTTCACCAAAACCCGAGTGGCGTGCTTTGCTTGATGAAATGGCGGTTGTTGCAACTGAGGAATACCGATCTGTCGTTTTCCAAGAACCTCGATTCGTCGAGTATTTCCGCCTCGCTACTCCGGAGCTGGAGTATGGACGTATGAATATTGGAAGTAGACCTTCAAAGCGAAAACCAAGCGGTGGGATCGAATCTCTCCGTGCAATCCCATGGATCTTTGCTTGGACGCAAACAAGATTCCATCTTCCTGTATGGTTAGGTTTCGGAGCAGCATTTAGGTATGCGATCAAGAAGGATGTGAGAAACCTTCACATGCTGCAAGATATGTATAAACAATGGCCCTTTTTCCGAGTCACCATCGATCTAATTGAAATGGTGTTCGCCAAGGGAGACCCCGGGATCGCTGCTTTGTACGACAAACTTCTTGTCTCAGAAGATTTATGGGCTTTTGGAGAGAAACTCAGAGCCAACTTTGATGAAACCAAGAACCTCGTCCTCCAGACTGCTGGACATAAAGACCTTCTTGAAGGAGATCCTTACTTGAAACAGAGACTAAGGCTACGTGACTCTTACATTACGACCCTCAACGTTTGCCAAGCCTACACATTGAAGAGGATCCGTGATGCAAACTACAATGTGACTCTGCGACCACACATTTCTAAAGAGATCATGCAATCAAGCAAATCAGCACAAGAGCTCGTCAAGCTTAACCCCACGAGTGAATACGCGCCTGGACTTGAGGACACACTTATCTTAACCATGAAGGGTATTGCTGCAGGATTGCAAAACACCGGTTAA - >AT3G14940.1
ATGGCGGGTCGGAACATAGAGAAGATGGCATCTATTGATGCTCAGCTTCGGCAACTCGTTCCTGCTAAAGTCAGTGAAGACGATAAGCTTGTTGAGTACGATGCTCTTCTCCTTGATCGCTTTCTCGACATTCTCCAGGATTTACACGGCGAGGATCTCCGTGAAACGGTTCAAGAGTTATACGAGCTTTCTGCTGAGTATGAAGGGAAGCGTGAGCCTAGCAAGCTTGAGGAGCTAGGGAGTGTCCTAACGAGTTTGGATCCTGGTGACTCAATTGTTATCTCCAAGGCTTTCTCTCACATGCTTAACTTAGCCAATTTGGCTGAGGAGGTGCAGATTGCTCACCGTCGCAGGATCAAGAAGCTGAAGAAAGGTGATTTCGTTGATGAGAGTTCTGCAACTACTGAATCCGATATTGAAGAGACTTTTAAGAGGCTCGTTTCGGATCTTGGTAAGTCTCCTGAAGAGATCTTTGATGCCTTGAAGAATCAGACTGTGGATCTGGTTTTGACTGCTCATCCTACTCAGTCTGTGCGTAGATCATTGCTTCAGAAGCATGGGAGGATAAGGGACTGTCTTGCTCAACTCTATGCAAAGGACATTACTCCTGATGACAAGCAGGAGCTAGATGAGTCTCTGCAAAGAGAGATTCAAGCTGCATTCCGAACAGATGAGATTAGAAGAACACCTCCAACCCCACAAGATGAAATGAGAGCTGGAATGAGTTATTTCCACGAGACAATCTGGAAAGGTGTCCCCAAGTTCTTGCGCCGTGTGGACACAGCTCTGAAAAACATTGGGATTGATGAACGTGTTCCTTACAATGCCCCATTGATTCAATTCTCTTCGTGGATGGGCGGTGATCGTGATGGTAATCCGAGGGTCACACCTGAGGTCACTAGAGATGTGTGCTTGTTGGCTAGAATGATGGCTGCCAATCTCTACTATAACCAAATCGAGAATCTGATGTTTGAGTTATCTATGTGGCGTTGCACTGATGAATTCCGTGTGCGGGCGGATGAACTGCACAGGAACTCAAGGAAAGATGCTGCAAAACATTACATAGAATTCTGGAAGACAATTCCTCCAACTGAGCCATACCGTGTGATTCTTGGTGATGTGAGGGATAAGCTGTATCACACACGTGAGCGTTCCCGCCAATTGCTGAGTAATGGAATCTCGGATATTCCTGAAGAAGCTACCTTCACTAATGTGGAACAGTTCTTGGAGCCTCTTGAGCTCTGTTACCGATCACTATGTTCATGTGGTGACAGCCCGATAGCTGATGGAAGCCTTCTTGATTTCTTGAGGCAAGTCTCTACCTTTGGACTCTCCCTTGTGAGACTTGACATCAGGCAAGAGTCTGAACGCCACACAGATGTCTTGGATGCTATCACCAAGCACTTGGACATCGGTTCCTCCTATAGAGACTGGTCTGAAGAAGGCCGACAGGAATGGCTTCTTGCTGAACTAAGCGGCAAACGTCCACTTTTCGGACCTGATCTTCCCAAAACCGAAGAAATTTCTGATGTCCTGGACACATTCAAAGTCATATCTGAGCTGCCTTCAGATTGTTTTGGAGCTTATATTATCTCTATGGCAACTTCACCTAGTGATGTGCTTGCGGTTGAGCTTTTACAGCGCGAATGCCATGTGAAAAATCCACTTAGAGTTGTTCCACTCTTTGAGAAGCTAGCTGATCTTGAAGCAGCTCCTGCCGCTGTTGCAAGACTCTTTTCTATAGACTGGTACAAAAACCGTATTAACGGTAAACAAGAGGTTATGATTGGTTACTCAGATTCAGGGAAAGATGCAGGGCGTCTCTCAGCTGCTTGGGAGCTATACAAAGCTCAAGAAGAGCTTGTGAAGGTTGCTAAGAAATATGGAGTGAAGCTAACTATGTTCCATGGCCGTGGTGGCACAGTCGGAAGAGGAGGTGGTCCTACTCATCTTGCTATATTGTCTCAGCCACCAGATACAGTTAATGGCTCTCTTCGAGTCACGGTTCAGGGTGAAGTCATTGAGCAATCATTTGGGGAGGCACACTTATGCTTTAGAACACTTCAACGTTTCACAGCAGCTACTCTAGAGCACGGAATGAACCCTCCGATTTCACCAAAACCCGAGTGGCGTGCTTTGCTTGATGAAATGGCGGTTGTTGCAACTGAGGAATACCGATCTGTCGTTTTCCAAGAACCTCGATTCGTCGAGTATTTCCGCCTCGCTACTCCGGAGCTGGAGTATGGACGTATGAATATTGGAAGTAGACCTTCAAAGCGAAAACCAAGCGGTGGGATCGAATCTCTCCGTGCAATCCCATGGATCTTTGCTTGGACGCAAACAAGATTCCATCTTCCTGTATGGTTAGGTTTCGGAGCAGCATTTAGGTATGCGATCAAGAAGGATGTGAGAAACCTTCACATGCTGCAAGATATGTATAAACAATGGCCCTTTTTCCGAGTCACCATCGATCTAATTGAAATGGTGTTCGCCAAGGGAGACCCCGGGATCGCTGCTTTGTACGACAAACTTCTTGTCTCAGAAGATTTATGGGCTTTTGGAGAGAAACTCAGAGCCAACTTTGATGAAACCAAGAACCTCGTCCTCCAGACTGCTGGACATAAAGACCTTCTTGAAGGAGATCCTTACTTGAAACAGAGACTAAGGCTACGTGACTCTTACATTACGACCCTCAACGTTTGCCAAGCCTACACATTGAAGAGGATCCGTGATGCAAACTACAATGTGACTCTGCGACCACACATTTCTAAAGAGATCATGCAATCAAGCAAATCAGCACAAGAGCTCGTCAAGCTTAACCCCACGAGTGAATACGCGCCTGGACTTGAGGACACACTTATCTTAACCATGAAGGGTATTGCTGCAGGATTGCAAAACACCGGTTAA
Protein Sequence
- >AT3G14940.2
MAGRNIEKMASIDAQLRQLVPAKVSEDDKLVEYDALLLDRFLDILQDLHGEDLRETVQELYELSAEYEGKREPSKLEELGSVLTSLDPGDSIVISKAFSHMLNLANLAEEVQIAHRRRIKKLKKGDFVDESSATTESDIEETFKRLVSDLGKSPEEIFDALKNQTVDLVLTAHPTQSVRRSLLQKHGRIRDCLAQLYAKDITPDDKQELDESLQREIQAAFRTDEIRRTPPTPQDEMRAGMSYFHETIWKGVPKFLRRVDTALKNIGIDERVPYNAPLIQFSSWMGGDRDGNPRVTPEVTRDVCLLARMMAANLYYNQIENLMFELSMWRCTDEFRVRADELHRNSRKDAAKHYIEFWKTIPPTEPYRVILGDVRDKLYHTRERSRQLLSNGISDIPEEATFTNVEQFLEPLELCYRSLCSCGDSPIADGSLLDFLRQVSTFGLSLVRLDIRQESERHTDVLDAITKHLDIGSSYRDWSEEGRQEWLLAELSGKRPLFGPDLPKTEEISDVLDTFKVISELPSDCFGAYIISMATSPSDVLAVELLQRECHVKNPLRVVPLFEKLADLEAAPAAVARLFSIDWYKNRINGKQEVMIGYSDSGKDAGRLSAAWELYKAQEELVKVAKKYGVKLTMFHGRGGTVGRGGGPTHLAILSQPPDTVNGSLRVTVQGEVIEQSFGEAHLCFRTLQRFTAATLEHGMNPPISPKPEWRALLDEMAVVATEEYRSVVFQEPRFVEYFRLATPELEYGRMNIGSRPSKRKPSGGIESLRAIPWIFAWTQTRFHLPVWLGFGAAFRYAIKKDVRNLHMLQDMYKQWPFFRVTIDLIEMVFAKGDPGIAALYDKLLVSEDLWAFGEKLRANFDETKNLVLQTAGHKDLLEGDPYLKQRLRLRDSYITTLNVCQAYTLKRIRDANYNVTLRPHISKEIMQSSKSAQELVKLNPTSEYAPGLEDTLILTMKGIAAGLQNTG - >AT3G14940.1
MAGRNIEKMASIDAQLRQLVPAKVSEDDKLVEYDALLLDRFLDILQDLHGEDLRETVQELYELSAEYEGKREPSKLEELGSVLTSLDPGDSIVISKAFSHMLNLANLAEEVQIAHRRRIKKLKKGDFVDESSATTESDIEETFKRLVSDLGKSPEEIFDALKNQTVDLVLTAHPTQSVRRSLLQKHGRIRDCLAQLYAKDITPDDKQELDESLQREIQAAFRTDEIRRTPPTPQDEMRAGMSYFHETIWKGVPKFLRRVDTALKNIGIDERVPYNAPLIQFSSWMGGDRDGNPRVTPEVTRDVCLLARMMAANLYYNQIENLMFELSMWRCTDEFRVRADELHRNSRKDAAKHYIEFWKTIPPTEPYRVILGDVRDKLYHTRERSRQLLSNGISDIPEEATFTNVEQFLEPLELCYRSLCSCGDSPIADGSLLDFLRQVSTFGLSLVRLDIRQESERHTDVLDAITKHLDIGSSYRDWSEEGRQEWLLAELSGKRPLFGPDLPKTEEISDVLDTFKVISELPSDCFGAYIISMATSPSDVLAVELLQRECHVKNPLRVVPLFEKLADLEAAPAAVARLFSIDWYKNRINGKQEVMIGYSDSGKDAGRLSAAWELYKAQEELVKVAKKYGVKLTMFHGRGGTVGRGGGPTHLAILSQPPDTVNGSLRVTVQGEVIEQSFGEAHLCFRTLQRFTAATLEHGMNPPISPKPEWRALLDEMAVVATEEYRSVVFQEPRFVEYFRLATPELEYGRMNIGSRPSKRKPSGGIESLRAIPWIFAWTQTRFHLPVWLGFGAAFRYAIKKDVRNLHMLQDMYKQWPFFRVTIDLIEMVFAKGDPGIAALYDKLLVSEDLWAFGEKLRANFDETKNLVLQTAGHKDLLEGDPYLKQRLRLRDSYITTLNVCQAYTLKRIRDANYNVTLRPHISKEIMQSSKSAQELVKLNPTSEYAPGLEDTLILTMKGIAAGLQNTG