Gene Details:
- Gene ID: AT1G03310
- Gene Symbol: AtBE2, ATISA2, BE2, DBE1, ISA2
- Gene Name: ARABIDOPSIS THALIANA ISOAMYLASE 2, BRANCHING ENZYME 2, debranching enzyme 1
- Description: debranching enzyme 1;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0000013 — cauline leaf — hoja caulinar (Spanish, exact), 茎生葉、茎葉 (Japanese, exact)
- PO:0000230 — inflorescence meristem — meristema de la inflorescencia (Spanish, exact), 花序分裂組織 (Japanese, exact)
- PO:0009010 — seed — semilla (Spanish, exact), 種子 (Japanese, exact), pyrene (narrow), diaspore (broad)
- PO:0009030 — carpel — carpelo (Spanish, exact), 心皮 (Japanese, exact), Poaceae carpel (narrow), Zea carpel (narrow), pistil (broad)
- PO:0009032 — petal — pétalo (Spanish, exact), 花弁 (Japanese, exact)
- PO:0009047 — stem — caña (Spanish, exact), culm (exact), eje primario (Spanish, exact), primary axis (exact), primary stem (exact), tallo (Spanish, exact), tronco (Spanish, exact), 茎 (Japanese, exact), bole (narrow), cane (narrow), caudex (narrow), caudices (narrow), core (narrow), primocane (narrow), scape (narrow), stalk (narrow), trunk (narrow)
- PO:0025281 — pollen — polen (Spanish, exact), pollen grain (exact), 花粉 (Japanese, exact)
- PO:0000293 — guard cell — célula guardiana (Spanish, exact), occlusive cell (exact), 孔辺細胞 (Japanese, exact)
Germplasm Phenotype:
- CTI15 — Modification of amylopectine structure. Strong increase of number of small chain (degree of polymerisation between 5 and 9) and decrease in number of longer chains (11-17 degree of polymerisation).
- CTI15 — No significant alteration of amylase-to-amylopectine ratio.
- CTI15 — Reduced starch in leaves
- CTI15 — Strong increase in water soluble polysaccharides (WSPs) content.
- N529442 — Modification of amylopectine structure. Strong increase of number of small chain (degree of polymerisation between 5 and 9) and decrease in number of longer chains (11-17 degree of polymerisation).
- N529442 — Reduced starch in leaves
- adg1 be2-1 be3-2 — No visible phenotype.
- adg1 be2-1 be3-2 — Strong reduction in maltose accumulation compared to the be2-1 be3-2 double mutant.
- atisa1-1 atisa2-1 — Accumulates reduced amounts of starch relative to wildtype but large amounts of soluble glucan.
- atisa1-1 atisa2-1 — No reduction in maltose and matotriose production.
- atisa2-1 — Accumulates reduced amounts of starch relative to wildtype but large amounts of soluble glucan.
- atisa2-1 — Mutants have abnormal starch accumulation. Composition of amylopectin and phytogylcogens are abnormal compared to wild type. Mutants lack D1 isoamlyase activity.
- atpu1-1 atisa2-1 — Modification of amylopectine structure. Strong increase of number of small chain (degree of polymerisation between 5 and 9) and decrease in number of longer chains (11-17 degree of polymerisation).
- atpu1-1 atisa2-1 — Strong increase in water soluble polysaccharides (WSPs) content.
- atpu1-1 atisa2-1 — Strong reduction in starch accumulation in double mutant.
- be1-1 be2-1 — Displays the same profile of polymerization (DP) as the corresponding be2 or be3 mutant.
- be1-1 be2-1 — Increased starch phosphorylase activity compared to wild type.
- be1-1 be2-1 — No starch branching enzyme activity detected.
- be2-1 — DP 6-7 and DP 5-9 chains are slightly decreased, whereas DP 10-16 chains are slightly increased (DP, degree of polymerization).
- be2-1 — No starch branching enzyme activity detected.
- be2-1 — Starch granules are slightly larger than those of wild type.
- be2-1 be3-2 — Absence of starch and accumulation of very high levels of water-soluble glucans.
- be2-1 be3-2 — Contains 90% of α-maltose and 10% of β-maltose.
- be2-1 be3-2 — Increased starch phosphorylase activity compared to wild type.
- be2-1 be3-2 — Low growth and flowering rates.
- be2-1 be3-2 — No starch branching enzyme activity detected.
- be2-1 be3-2 — Pale colour.
- be2-1 be3-2 — Reduced size of the mature plant. Thirty days after seed germination, the fresh weight of this mutant is one-fifth of that of wild type.
- be2-1 be3-2 — The levels of sucrose, fructose, glucose 6-phosphate and glucose 1-phosphate are not significantly deviating from those of wild type or the single mutants.
- be2-1 be3-2 — The maltose accumulates mostly in the cytosol (~80%).
- be2-1 be3-2 — The mutant is still able to produce siliques and viable seeds.
- be2-1 be3-2 — Water-soluble glycans are composed of very short malto-oligosaccharides made of 80% maltose, 14% maltotriose and 6% glucose.
- be2-1 be3-2 — Wilting of the inflorescence.
- be2-2 — DP 6-7 and DP 5-9 chains are slightly decreased, whereas DP 10-16 chains are slightly increased (DP, degree of polymerization).
- be2-2 — No starch branching enzyme activity detected.
- be2-2 — Starch granules are slightly larger than those of wild type.
Function-related keywords:
- cauline leaf , inflorescence meristem , seed , carpel , petal , stem , pollen , guard cell
Literature:
- A role for flavin monooxygenase-like enzymes in auxin biosynthesis. DOI: 10.1126/science.291.5502.306 ; PMID: 11209081
- A crucial role for the putative Arabidopsis topoisomerase VI in plant growth and development. DOI: 10.1073/pnas.152337599 ; PMID: 12119417
- BES1 accumulates in the nucleus in response to brassinosteroids to regulate gene expression and promote stem elongation. DOI: 10.1016/s0092-8674(02)00721-3 ; PMID: 12007405
- Integration of auxin and salt signals by the NAC transcription factor NTM2 during seed germination in Arabidopsis. DOI: 10.1104/pp.111.177071 ; PMID: 21450938
- Auxin overproduction in shoots cannot rescue auxin deficiencies in Arabidopsis roots. DOI: 10.1093/pcp/pcu039 ; PMID: 24562917
- Physiological, Metabolic, and Transcriptomic Analyses Reveal the Responses of Arabidopsis Seedlings to Carbon Nanohorns. DOI: 10.1021/acs.est.9b07133 ; PMID: 32182044
- Effects of Light Intensity on Root Development in a D-Root Growth System. DOI: 10.3389/fpls.2021.778382 ; PMID: 34975962
- Identification of the 7-hydroxymethyl chlorophyll a reductase of the chlorophyll cycle in Arabidopsis. DOI: 10.1105/tpc.111.089714 ; PMID: 21934147
- 7-Hydroxymethyl chlorophyll a reductase functions in metabolic channeling of chlorophyll breakdown intermediates during leaf senescence. DOI: 10.1016/j.bbrc.2012.11.050 ; PMID: 23200839
- Crystal Structure and Catalytic Mechanism of 7-Hydroxymethyl Chlorophyll a Reductase. DOI: 10.1074/jbc.M116.720342 ; PMID: 27072131
- Overexpressing 7-Hydroxymethyl Chlorophyll a Reductase Alleviates Non-Programmed Cell Death during Dark-Induced Senescence in Intact Arabidopsis Plants. DOI: 10.3390/biom11081143 ; PMID: 34439809
- Chloroplast-localized PITP7 is essential for plant growth and photosynthetic function in Arabidopsis. DOI: 10.1111/ppl.13760 ; PMID: 36004734
- Carbonic anhydrase subunits form a matrix-exposed domain attached to the membrane arm of mitochondrial complex I in plants. DOI: 10.1074/jbc.M511542200 ; PMID: 16407270
- Proteomic approach to characterize mitochondrial complex I from plants. DOI: 10.1016/j.phytochem.2010.11.012 ; PMID: 21167537
- L-galactono-1,4-lactone dehydrogenase (GLDH) forms part of three subcomplexes of mitochondrial complex I in Arabidopsis thaliana. DOI: 10.1074/jbc.M111.305144 ; PMID: 22378782
- GhMCS1, the Cotton Orthologue of Human GRIM-19, Is a Subunit of Mitochondrial Complex I and Associated with Cotton Fibre Growth. DOI: 10.1371/journal.pone.0162928 ; PMID: 27632161
- GAMETOPHYTE DEFECTIVE 1, a putative subunit of RNases P/MRP, is essential for female gametogenesis and male competence in Arabidopsis. DOI: 10.1371/journal.pone.0033595 ; PMID: 22509260
- Chloroplast function revealed through analysis of GreenCut2 genes. DOI: 10.1093/jxb/erx082 ; PMID: 28369575
- Lipoic acid metabolism in Arabidopsis thaliana: cloning and characterization of a cDNA encoding lipoyltransferase. DOI: 10.1093/pcp/pce081 ; PMID: 11427685
- Loss-of-function mutations in chitin responsive genes show increased susceptibility to the powdery mildew pathogen Erysiphe cichoracearum. DOI: 10.1104/pp.105.060947 ; PMID: 15923325
- Lipidomic Analysis of Plastidial Octanoyltransferase Mutants of Arabidopsis thaliana. DOI: 10.3390/metabo9100209 ; PMID: 31569524
- FIGL1 and its novel partner FLIP form a conserved complex that regulates homologous recombination. DOI: 10.1371/journal.pgen.1007317 ; PMID: 29608566
- The HEM Lines: A New Library of Homozygous Arabidopsis thaliana EMS Mutants and its Potential to Detect Meiotic Phenotypes. DOI: 10.3389/fpls.2018.01339 ; PMID: 30283471
- Genome-wide identification of RETINOBLASTOMA RELATED 1 binding sites in Arabidopsis reveals novel DNA damage regulators. DOI: 10.1371/journal.pgen.1007797 ; PMID: 30500810
- Whole genome shotgun sequencing of Brassica oleracea and its application to gene discovery and annotation in Arabidopsis. DOI: 10.1101/gr.3176505 ; PMID: 15805490
- Systemic gene expression in Arabidopsis during an incompatible interaction with Alternaria brassicicola. DOI: 10.1104/pp.103.021683 ; PMID: 12805628
Sequences:
cDNA Sequence
- >AT1G03310.1
AAACATTTCAGTTTCACCCAAAAAAAATCAAATCATAAACTCATGGACACATACACTCACTCGATCATCAGATGGGTAGTGTTAGATATCTCTGTTTCAATCATTGTGAAATTCTCTGTTTCCAAGTTTGGTTTTTTGCTTCAATGGCGGTGATGATGCTTATGCGACAGGATATTCATAACCTGGATTAAAGTTTTTGGTGCTTTGTTTAAACAATGGCTGCGTGGTCACCATCAGTTGGGATAGGATCTTGTTGTCTCAATAATGGCATCACTAGAACATGGAAGTTTCCTTCTGCAAGGCTTTTTACTGGTAGGAAGAACAAGATTAAACTTGGATCCGAGACACTAATGTTTACACGAAAACGTTTCATGGGTGATTTGGTTACAAGCGCGTTGCAAAGTTATCAGTTTAGTAAGATATGTGCTTCAAAGACTTCCATCGAGCTGAGAGAGGCATTGTCTAGTAGAAGAGCTGAGGCTGATGACCTGAAGAAGGTAACATCATATTCATTCAGGACAAAAGCAGGTGCTCTGGTTAAAGTCAAAGTTGAAAAGAAGAGAGAAAAGTACAGCATTTTGGTTTATGTCTCATCTTTGGAACTTAGTGGTGATGACAAGAGTAGGCTGGTGATGGTTTGGGGTGTCTACAGGTCTGATTCTTCGTGTTTTTTGCCTCTGGATTTCGAAAACTCTTCCCAAGACTCACAAACCCACACAACAGAAACTACATTTGTGAAAAGCTCCTTGTCTGAGTTAATGCTAGGGCTAGAATTTGATGGGAAAGAATCTCCTTTCTACTTATCATTTCACCTGAAGTTAGTGTCAGGTAGAGATCCGGACGGTCAAGAAATGCTGACTCACAGGGACACTGACTTCTGTATCCCGGTTGGTTTTACTGCTGGTCATCCATTGCCGCTAGGCCTTTCTTCCGGGCCAGATGATGATTCTTGGAATTTTTCGTTCTTTTCAAGAAGCTCAACGAACGTGGTTTTATGCTTGTATGATGATAGCACAACAGATAAACCTGCTTTAGAACTTGATCTTGATCCTTATGTCAACCGAACAGGTGATGTTTGGCATGCTTCAGTTGACAATACATGGGATTTTGTGAGATATGGCTACCGTTGCAAGGAGACAGCTCACTCTAAAGAAGATGTCGATGTTGAAGGTGAGCCAATTGTCTTGGATCCATATGCCACAGTCGTTGGTAAATCTGTCTCTCAGAAATATCTTGGAAGTTTATCTAAGAGTCCTTCTTTTGATTGGGGAGAAGATGTGTCTCCGAACATACCTCTGGAGAAACTTCTTGTTTACCGGTTGAATGTGAAGGGTTTTACACAACACAGATCCAGCAAGTTGCCTAGTAACGTAGCAGGGACATTTTCTGGTGTAGCTGAGAAAGTTAGCCATTTGAAAACCCTTGGAACCAACGCTGTTCTTTTGGAGCCAATATTCTCATTCTCCGAGCAAAAAGGTCCTTATTTTCCATTTCATTTCTTTTCACCAATGGACATATATGGACCTTCCAATAGCCTTGAATCCGCAGTTAACTCAATGAAAGTGATGGTGAAGAAATTGCACAGTGAGGGAATAGAGGTACTTTTGGAAGTAGTTTTTACACATACTGCTGATTCTGGAGCTCTTCGTGGAATTGATGACAGTTCCTATTACTACAAGGGAAGAGCCAATGATCTAGATTCTAAAAGTTACTTGAACTGTAACTATCCTGTTGTTCAGCAGTTGGTATTGGAGAGCTTGCGTTATTGGGTAACCGAGTTTCATGTAGATGGATTTTGTTTTATAAATGCTTCATCTCTCTTGAGAGGCGTTCACGGTGAACAGCTCTCTCGTCCTCCTTTGGTTGAAGCAATAGCTTTTGATCCACTTCTTGCGGAGACCAAACTAATAGCTGATTGCTGGGATCCACTTGAAATGATGCCAAAAGAAGTACGGTTCCCACATTGGAAGCGATGGGCAGAACTCAACACAAGATATTGTCGAAATGTAAGAAATTTTTTAAGGGGAAGAGGCGTTCTTAGTGATCTGGCTACAAGAATTTGTGGAAGTGGTGACGTATTTACCGATGGAAGAGGTCCGGCCTTCTCCTTCAACTACATTTCAAGAAACTCAGGACTCTCGCTTGTTGACATAGTCAGTTTCAGTGGCCCTGAGCTAGCTTCAGAGCTAAGTTGGAATTGTGGGGAAGAAGGAGCAACGAATAAATCAGCTGTTCTTCAAAGAAGGCTAAAACAAATCCGCAATTTCTTGTTTATACAGTACATATCACTTGGAGTTCCAGTGCTTAATATGGGAGATGAATGTGGAATCTCGACAAGGGGCTCGCCTTTGTTGGAATCACGGAAACCTTTTGATTGGAACTTGCTAGCTTCGGCTTTCGGTACACAGATCACGCAATTTATCTCCTTCATGACTTCAGTAAGAGCAAGAAGAAGTGATGTGTTTCAAAGGAGAGACTTTTTGAAACCTGAAAATATTGTTTGGTATGCAAATGACCAAACAACTCCAAAGTGGGAAGATCCTGCTTCTAAGTTTTTGGCATTGGAGATCAAATCAGAGTCAGAGGAAGAGGAAACTGCGTCATTGGCTGAGCCAAATGAGCCAAAGAGCAATGATCTGTTCATCGGATTCAATGCGAGTGATCATCCTGAGAGTGTAGTCTTACCTTCACTTCCCGATGGAAGCAAATGGAGAAGATTGGTCGACACAGCTCTTCCTTTCCCGGGGTTTTTCTCTGTCGAAGGAGAAACCGTTGTAGCAGAAGAACCGTTGCAGCAACTGGTTGTGTATGAGATGAAGCCGTACAGTTGTACCCTTTTTGAAACCATCAATACTACCGCTTAGAACTCAAGTTATGATCTTTGTATATGTTACTGTTTTGTTACATTTCCAGTAAGAATATATTCAGTTAAATCAATGATTTCCACAATATCTTATATATATATAACATCACTTAAGCCTTTTGCTTGTATCCAAAGCTTGATACTGTATCTCCTCAAATCAGTGATTATTATTCGTTCTGATACGCGTATG - >AT1G03310.2
AAACATTTCAGTTTCACCCAAAAAAAATCAAATCATAAACTCATGGACACATACACTCACTCGATCATCAGATGGGTAGTGTTAGATATCTCTGTTTCAATCATTGTGAAATTCTCTGTTTCCAAGTTTGGTTTTTTGCTTCAATGGCGGTGATGATGCTTATGCGACAGGATATTCATAACCTGGATTAAAGTTTTTGGTGCTTTGTTTAAACAATGGCTGCGTGGTCACCATCAGTTGGGATAGGATCTTGTTGTCTCAATAATGGCATCACTAGAACATGGAAGTTTCCTTCTGCAAGGCTTTTTACTGGTAGGAAGAACAAGATTAAACTTGGATCCGAGACACTAATGTTTACACGAAAACGTTTCATGGGTGATTTGGTTACAAGCGCGTTGCAAAGTTATCAGTTTAGTAAGATATGTGCTTCAAAGACTTCCATCGAGCTGAGAGAGGCATTGTCTAGTAGAAGAGCTGAGGCTGATGACCTGAAGAAGGTAACATCATATTCATTCAGGACAAAAGCAGGTGCTCTGGTTAAAGTCAAAGTTGAAAAGAAGAGAGAAAAGTACAGCATTTTGGTTTATGTCTCATCTTTGGAACTTAGTGGTGATGACAAGAGTAGGCTGGTGATGGTTTGGGGTGTCTACAGGTCTGATTCTTCGTGTTTTTTGCCTCTGGATTTCGAAAACTCTTCCCAAGACTCACAAACCCACACAACAGAAACTACATTTGTGAAAAGCTCCTTGTCTGAGTTAATGCTAGGGCTAGAATTTGATGGGAAAGAATCTCCTTTCTACTTATCATTTCACCTGAAGTTAGTGTCAGGTAGAGATCCGGACGGTCAAGAAATGCTGACTCACAGGGACACTGACTTCTGTATCCCGGTTGGTTTTACTGCTGGTCATCCATTGCCGCTAGGCCTTTCTTCCGGGCCAGATGATGATTCTTGGAATTTTTCGTTCTTTTCAAGAAGCTCAACGAACGTGGTTTTATGCTTGTATGATGATAGCACAACAGATAAACCTGCTTTAGAACTTGATCTTGATCCTTATGTCAACCGAACAGGTGATGTTTGGCATGCTTCAGTTGACAATACATGGGATTTTGTGAGATATGGCTACCGTTGCAAGGAGACAGCTCACTCTAAAGAAGATGTCGATGTTGAAGGTGAGCCAATTGTCTTGGATCCATATGCCACAGTCGTTGGTAAATCTGTCTCTCAGAAATATCTTGGAAGTTTATCTAAGAGTCCTTCTTTTGATTGGGGAGAAGATGTGTCTCCGAACATACCTCTGGAGAAACTTCTTGTTTACCGGTTGAATGTGAAGGGTTTTACACAACACAGATCCAGCAAGTTGCCTAGTAACGTAGCAGGGACATTTTCTGGTGTAGCTGAGAAAGTTAGCCATTTGAAAACCCTTGGAACCAACGCTGTTCTTTTGGAGCCAATATTCTCATTCTCCGAGCAAAAAGGTCCTTATTTTCCATTTCATTTCTTTTCACCAATGGACATATATGGACCTTCCAATAGCCTTGAATCCGCAGTTAACTCAATGAAAGTGATGGTGAAGAAATTGCACAGTGAGGGAATAGAGGTACTTTTGGAAGTAGTTTTTACACATACTGCTGATTCTGGAGCTCTTCGTGGAATTGATGACAGTTCCTATTACTACAAGGGAAGAGCCAATGATCTAGATTCTAAAAGTTACTTGAACTGTAACTATCCTGTTGTTCAGCAGTTGGTATTGGAGAGCTTGCGTTATTGGGTAACCGAGTTTCATGTAGATGGATTTTGTTTTATAAATGCTTCATCTCTCTTGAGAGGCGTTCACGGTGAACAGCTCTCTCGTCCTCCTTTGGTTGAAGCAATAGCTTTTGATCCACTTCTTGCGGAGACCAAACTAATAGCTGATTGCTGGGATCCACTTGAAATGATGCCAAAAGAAGTACGGTTCCCACATTGGAAGCGATGGGCAGAACTCAACACAAGATATTGTCGAAATGTAAGAAATTTTTTAAGGGGAAGAGGCGTTCTTAGTGATCTGGCTACAAGAATTTGTGGAAGTGGTGACGTATTTACCGATGGAAGAGGTCCGGCCTTCTCCTTCAACTACATTTCAAGAAACTCAGGACTCTCGCTTGTTGACATAGTCAGTTTCAGTGGCCCTGAGCTAGCTTCAGAGCTAAGTTGGAATTGTGGGGAAGAAGGAGCAACGAATAAATCAGCTGTTCTTCAAAGAAGGCTAAAACAAATCCGCAATTTCTTGTTTATACAGTACATATCACTTGGAGTTCCAGTGCTTAATATGGGAGATGAATGTGGAATCTCGACAAGGGGCTCGCCTTTGTTGGAATCACGGAAACCTTTTGATTGGAACTTGCTAGCTTCGGCTTTCGGTACACAGATCACGCAATTTATCTCCTTCATGACTTCAGTAAGAGCAAGAAGAAGTGATGTGTTTCAAAGGAGAGACTTTTTGAAACCTGAAAATATTGTTTGGTATGCAAATGACCAAACAACTCCAAAGTGGGAAGATCCTGCTTCTAAGTTTTTGGCATTGGAGATCAAATCAGAGTCAGAGGAAGAGGAAACTGCGTCATTGGCTGAGCCAAATGAGCCAAAGAGCAATGATCTGTTCATCGGATTCAATGCGAGTGATCATCCTGAGAGTGTAGTCTTACCTTCACTTCCCGATGGAAGCAAATGGAGAAGATTGGTCGACACAGCTCTTCCTTTCCCGGGGTTTTTCTCTGTCGAAGGAGAAACCGTTGTAGCAGAAGAACCGTTGCAGCAACTGGTTGTGTATGAGATGAAGCCGTACAGTTGTACCCTTTTTGAAACCATCAATACTACCGCTTAGAACTCAAGTTATGATCTTTGTATATGTTACTGTTTTGTTACATTTCCAGTAAGAATATATTCAGTTAAATCAATGATTTCCACAATATCTTATATATATATAACATCACTTAAGCCTTTTGCTTGTATCCAAAGCTTGATACTGTATCTCCTCAAATCAGTGATTATTATTCGTTCTGATACGCGTATG
CDS Sequence
- >AT1G03310.1
ATGGCTGCGTGGTCACCATCAGTTGGGATAGGATCTTGTTGTCTCAATAATGGCATCACTAGAACATGGAAGTTTCCTTCTGCAAGGCTTTTTACTGGTAGGAAGAACAAGATTAAACTTGGATCCGAGACACTAATGTTTACACGAAAACGTTTCATGGGTGATTTGGTTACAAGCGCGTTGCAAAGTTATCAGTTTAGTAAGATATGTGCTTCAAAGACTTCCATCGAGCTGAGAGAGGCATTGTCTAGTAGAAGAGCTGAGGCTGATGACCTGAAGAAGGTAACATCATATTCATTCAGGACAAAAGCAGGTGCTCTGGTTAAAGTCAAAGTTGAAAAGAAGAGAGAAAAGTACAGCATTTTGGTTTATGTCTCATCTTTGGAACTTAGTGGTGATGACAAGAGTAGGCTGGTGATGGTTTGGGGTGTCTACAGGTCTGATTCTTCGTGTTTTTTGCCTCTGGATTTCGAAAACTCTTCCCAAGACTCACAAACCCACACAACAGAAACTACATTTGTGAAAAGCTCCTTGTCTGAGTTAATGCTAGGGCTAGAATTTGATGGGAAAGAATCTCCTTTCTACTTATCATTTCACCTGAAGTTAGTGTCAGGTAGAGATCCGGACGGTCAAGAAATGCTGACTCACAGGGACACTGACTTCTGTATCCCGGTTGGTTTTACTGCTGGTCATCCATTGCCGCTAGGCCTTTCTTCCGGGCCAGATGATGATTCTTGGAATTTTTCGTTCTTTTCAAGAAGCTCAACGAACGTGGTTTTATGCTTGTATGATGATAGCACAACAGATAAACCTGCTTTAGAACTTGATCTTGATCCTTATGTCAACCGAACAGGTGATGTTTGGCATGCTTCAGTTGACAATACATGGGATTTTGTGAGATATGGCTACCGTTGCAAGGAGACAGCTCACTCTAAAGAAGATGTCGATGTTGAAGGTGAGCCAATTGTCTTGGATCCATATGCCACAGTCGTTGGTAAATCTGTCTCTCAGAAATATCTTGGAAGTTTATCTAAGAGTCCTTCTTTTGATTGGGGAGAAGATGTGTCTCCGAACATACCTCTGGAGAAACTTCTTGTTTACCGGTTGAATGTGAAGGGTTTTACACAACACAGATCCAGCAAGTTGCCTAGTAACGTAGCAGGGACATTTTCTGGTGTAGCTGAGAAAGTTAGCCATTTGAAAACCCTTGGAACCAACGCTGTTCTTTTGGAGCCAATATTCTCATTCTCCGAGCAAAAAGGTCCTTATTTTCCATTTCATTTCTTTTCACCAATGGACATATATGGACCTTCCAATAGCCTTGAATCCGCAGTTAACTCAATGAAAGTGATGGTGAAGAAATTGCACAGTGAGGGAATAGAGGTACTTTTGGAAGTAGTTTTTACACATACTGCTGATTCTGGAGCTCTTCGTGGAATTGATGACAGTTCCTATTACTACAAGGGAAGAGCCAATGATCTAGATTCTAAAAGTTACTTGAACTGTAACTATCCTGTTGTTCAGCAGTTGGTATTGGAGAGCTTGCGTTATTGGGTAACCGAGTTTCATGTAGATGGATTTTGTTTTATAAATGCTTCATCTCTCTTGAGAGGCGTTCACGGTGAACAGCTCTCTCGTCCTCCTTTGGTTGAAGCAATAGCTTTTGATCCACTTCTTGCGGAGACCAAACTAATAGCTGATTGCTGGGATCCACTTGAAATGATGCCAAAAGAAGTACGGTTCCCACATTGGAAGCGATGGGCAGAACTCAACACAAGATATTGTCGAAATGTAAGAAATTTTTTAAGGGGAAGAGGCGTTCTTAGTGATCTGGCTACAAGAATTTGTGGAAGTGGTGACGTATTTACCGATGGAAGAGGTCCGGCCTTCTCCTTCAACTACATTTCAAGAAACTCAGGACTCTCGCTTGTTGACATAGTCAGTTTCAGTGGCCCTGAGCTAGCTTCAGAGCTAAGTTGGAATTGTGGGGAAGAAGGAGCAACGAATAAATCAGCTGTTCTTCAAAGAAGGCTAAAACAAATCCGCAATTTCTTGTTTATACAGTACATATCACTTGGAGTTCCAGTGCTTAATATGGGAGATGAATGTGGAATCTCGACAAGGGGCTCGCCTTTGTTGGAATCACGGAAACCTTTTGATTGGAACTTGCTAGCTTCGGCTTTCGGTACACAGATCACGCAATTTATCTCCTTCATGACTTCAGTAAGAGCAAGAAGAAGTGATGTGTTTCAAAGGAGAGACTTTTTGAAACCTGAAAATATTGTTTGGTATGCAAATGACCAAACAACTCCAAAGTGGGAAGATCCTGCTTCTAAGTTTTTGGCATTGGAGATCAAATCAGAGTCAGAGGAAGAGGAAACTGCGTCATTGGCTGAGCCAAATGAGCCAAAGAGCAATGATCTGTTCATCGGATTCAATGCGAGTGATCATCCTGAGAGTGTAGTCTTACCTTCACTTCCCGATGGAAGCAAATGGAGAAGATTGGTCGACACAGCTCTTCCTTTCCCGGGGTTTTTCTCTGTCGAAGGAGAAACCGTTGTAGCAGAAGAACCGTTGCAGCAACTGGTTGTGTATGAGATGAAGCCGTACAGTTGTACCCTTTTTGAAACCATCAATACTACCGCTTAG - >AT1G03310.2
ATGGCTGCGTGGTCACCATCAGTTGGGATAGGATCTTGTTGTCTCAATAATGGCATCACTAGAACATGGAAGTTTCCTTCTGCAAGGCTTTTTACTGGTAGGAAGAACAAGATTAAACTTGGATCCGAGACACTAATGTTTACACGAAAACGTTTCATGGGTGATTTGGTTACAAGCGCGTTGCAAAGTTATCAGTTTAGTAAGATATGTGCTTCAAAGACTTCCATCGAGCTGAGAGAGGCATTGTCTAGTAGAAGAGCTGAGGCTGATGACCTGAAGAAGGTAACATCATATTCATTCAGGACAAAAGCAGGTGCTCTGGTTAAAGTCAAAGTTGAAAAGAAGAGAGAAAAGTACAGCATTTTGGTTTATGTCTCATCTTTGGAACTTAGTGGTGATGACAAGAGTAGGCTGGTGATGGTTTGGGGTGTCTACAGGTCTGATTCTTCGTGTTTTTTGCCTCTGGATTTCGAAAACTCTTCCCAAGACTCACAAACCCACACAACAGAAACTACATTTGTGAAAAGCTCCTTGTCTGAGTTAATGCTAGGGCTAGAATTTGATGGGAAAGAATCTCCTTTCTACTTATCATTTCACCTGAAGTTAGTGTCAGGTAGAGATCCGGACGGTCAAGAAATGCTGACTCACAGGGACACTGACTTCTGTATCCCGGTTGGTTTTACTGCTGGTCATCCATTGCCGCTAGGCCTTTCTTCCGGGCCAGATGATGATTCTTGGAATTTTTCGTTCTTTTCAAGAAGCTCAACGAACGTGGTTTTATGCTTGTATGATGATAGCACAACAGATAAACCTGCTTTAGAACTTGATCTTGATCCTTATGTCAACCGAACAGGTGATGTTTGGCATGCTTCAGTTGACAATACATGGGATTTTGTGAGATATGGCTACCGTTGCAAGGAGACAGCTCACTCTAAAGAAGATGTCGATGTTGAAGGTGAGCCAATTGTCTTGGATCCATATGCCACAGTCGTTGGTAAATCTGTCTCTCAGAAATATCTTGGAAGTTTATCTAAGAGTCCTTCTTTTGATTGGGGAGAAGATGTGTCTCCGAACATACCTCTGGAGAAACTTCTTGTTTACCGGTTGAATGTGAAGGGTTTTACACAACACAGATCCAGCAAGTTGCCTAGTAACGTAGCAGGGACATTTTCTGGTGTAGCTGAGAAAGTTAGCCATTTGAAAACCCTTGGAACCAACGCTGTTCTTTTGGAGCCAATATTCTCATTCTCCGAGCAAAAAGGTCCTTATTTTCCATTTCATTTCTTTTCACCAATGGACATATATGGACCTTCCAATAGCCTTGAATCCGCAGTTAACTCAATGAAAGTGATGGTGAAGAAATTGCACAGTGAGGGAATAGAGGTACTTTTGGAAGTAGTTTTTACACATACTGCTGATTCTGGAGCTCTTCGTGGAATTGATGACAGTTCCTATTACTACAAGGGAAGAGCCAATGATCTAGATTCTAAAAGTTACTTGAACTGTAACTATCCTGTTGTTCAGCAGTTGGTATTGGAGAGCTTGCGTTATTGGGTAACCGAGTTTCATGTAGATGGATTTTGTTTTATAAATGCTTCATCTCTCTTGAGAGGCGTTCACGGTGAACAGCTCTCTCGTCCTCCTTTGGTTGAAGCAATAGCTTTTGATCCACTTCTTGCGGAGACCAAACTAATAGCTGATTGCTGGGATCCACTTGAAATGATGCCAAAAGAAGTACGGTTCCCACATTGGAAGCGATGGGCAGAACTCAACACAAGATATTGTCGAAATGTAAGAAATTTTTTAAGGGGAAGAGGCGTTCTTAGTGATCTGGCTACAAGAATTTGTGGAAGTGGTGACGTATTTACCGATGGAAGAGGTCCGGCCTTCTCCTTCAACTACATTTCAAGAAACTCAGGACTCTCGCTTGTTGACATAGTCAGTTTCAGTGGCCCTGAGCTAGCTTCAGAGCTAAGTTGGAATTGTGGGGAAGAAGGAGCAACGAATAAATCAGCTGTTCTTCAAAGAAGGCTAAAACAAATCCGCAATTTCTTGTTTATACAGTACATATCACTTGGAGTTCCAGTGCTTAATATGGGAGATGAATGTGGAATCTCGACAAGGGGCTCGCCTTTGTTGGAATCACGGAAACCTTTTGATTGGAACTTGCTAGCTTCGGCTTTCGGTACACAGATCACGCAATTTATCTCCTTCATGACTTCAGTAAGAGCAAGAAGAAGTGATGTGTTTCAAAGGAGAGACTTTTTGAAACCTGAAAATATTGTTTGGTATGCAAATGACCAAACAACTCCAAAGTGGGAAGATCCTGCTTCTAAGTTTTTGGCATTGGAGATCAAATCAGAGTCAGAGGAAGAGGAAACTGCGTCATTGGCTGAGCCAAATGAGCCAAAGAGCAATGATCTGTTCATCGGATTCAATGCGAGTGATCATCCTGAGAGTGTAGTCTTACCTTCACTTCCCGATGGAAGCAAATGGAGAAGATTGGTCGACACAGCTCTTCCTTTCCCGGGGTTTTTCTCTGTCGAAGGAGAAACCGTTGTAGCAGAAGAACCGTTGCAGCAACTGGTTGTGTATGAGATGAAGCCGTACAGTTGTACCCTTTTTGAAACCATCAATACTACCGCTTAG
Protein Sequence
- >AT1G03310.1
MAAWSPSVGIGSCCLNNGITRTWKFPSARLFTGRKNKIKLGSETLMFTRKRFMGDLVTSALQSYQFSKICASKTSIELREALSSRRAEADDLKKVTSYSFRTKAGALVKVKVEKKREKYSILVYVSSLELSGDDKSRLVMVWGVYRSDSSCFLPLDFENSSQDSQTHTTETTFVKSSLSELMLGLEFDGKESPFYLSFHLKLVSGRDPDGQEMLTHRDTDFCIPVGFTAGHPLPLGLSSGPDDDSWNFSFFSRSSTNVVLCLYDDSTTDKPALELDLDPYVNRTGDVWHASVDNTWDFVRYGYRCKETAHSKEDVDVEGEPIVLDPYATVVGKSVSQKYLGSLSKSPSFDWGEDVSPNIPLEKLLVYRLNVKGFTQHRSSKLPSNVAGTFSGVAEKVSHLKTLGTNAVLLEPIFSFSEQKGPYFPFHFFSPMDIYGPSNSLESAVNSMKVMVKKLHSEGIEVLLEVVFTHTADSGALRGIDDSSYYYKGRANDLDSKSYLNCNYPVVQQLVLESLRYWVTEFHVDGFCFINASSLLRGVHGEQLSRPPLVEAIAFDPLLAETKLIADCWDPLEMMPKEVRFPHWKRWAELNTRYCRNVRNFLRGRGVLSDLATRICGSGDVFTDGRGPAFSFNYISRNSGLSLVDIVSFSGPELASELSWNCGEEGATNKSAVLQRRLKQIRNFLFIQYISLGVPVLNMGDECGISTRGSPLLESRKPFDWNLLASAFGTQITQFISFMTSVRARRSDVFQRRDFLKPENIVWYANDQTTPKWEDPASKFLALEIKSESEEEETASLAEPNEPKSNDLFIGFNASDHPESVVLPSLPDGSKWRRLVDTALPFPGFFSVEGETVVAEEPLQQLVVYEMKPYSCTLFETINTTA - >AT1G03310.2
MAAWSPSVGIGSCCLNNGITRTWKFPSARLFTGRKNKIKLGSETLMFTRKRFMGDLVTSALQSYQFSKICASKTSIELREALSSRRAEADDLKKVTSYSFRTKAGALVKVKVEKKREKYSILVYVSSLELSGDDKSRLVMVWGVYRSDSSCFLPLDFENSSQDSQTHTTETTFVKSSLSELMLGLEFDGKESPFYLSFHLKLVSGRDPDGQEMLTHRDTDFCIPVGFTAGHPLPLGLSSGPDDDSWNFSFFSRSSTNVVLCLYDDSTTDKPALELDLDPYVNRTGDVWHASVDNTWDFVRYGYRCKETAHSKEDVDVEGEPIVLDPYATVVGKSVSQKYLGSLSKSPSFDWGEDVSPNIPLEKLLVYRLNVKGFTQHRSSKLPSNVAGTFSGVAEKVSHLKTLGTNAVLLEPIFSFSEQKGPYFPFHFFSPMDIYGPSNSLESAVNSMKVMVKKLHSEGIEVLLEVVFTHTADSGALRGIDDSSYYYKGRANDLDSKSYLNCNYPVVQQLVLESLRYWVTEFHVDGFCFINASSLLRGVHGEQLSRPPLVEAIAFDPLLAETKLIADCWDPLEMMPKEVRFPHWKRWAELNTRYCRNVRNFLRGRGVLSDLATRICGSGDVFTDGRGPAFSFNYISRNSGLSLVDIVSFSGPELASELSWNCGEEGATNKSAVLQRRLKQIRNFLFIQYISLGVPVLNMGDECGISTRGSPLLESRKPFDWNLLASAFGTQITQFISFMTSVRARRSDVFQRRDFLKPENIVWYANDQTTPKWEDPASKFLALEIKSESEEEETASLAEPNEPKSNDLFIGFNASDHPESVVLPSLPDGSKWRRLVDTALPFPGFFSVEGETVVAEEPLQQLVVYEMKPYSCTLFETINTTA