Gene Details:
- Gene ID: AT5G22510
- Gene Symbol: A/N-InvE, At-A/N-InvE, INV-E
- Gene Name: alkaline/neutral invertase E, Arabidopsis alkaline/neutral invertase E, alkaline/neutral invertase E
- Description: alkaline/neutral invertase;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
Germplasm Phenotype:
- SALK_138953C — Alkaline/neutral invertase activity in leaf extracts is about 30% lower compared to wild type. A/N invertase activity in mutant chloroplast extracts is undetectable.
- SALK_138953C — No difference in germination, number of leaf or siliques per plant, seed production and flowering time.
- SALK_138953C — No difference in sucrose content with respect to wild type, however, a 33% lower starch content was observable at the end of the day compared to wild type plants.
- sicy-192 — Defects in cotyledon greening under 100mM sucrose in growth medium, also with glucose or fructose but not mannitol.
- sicy-192 — In this mutant, the development of the photosynthetic apparatus was inhibited in the Suc+ medium, while the assimilation of nitrate was enhanced.
Function-related keywords:
Literature:
- 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
- Delayed embryo development in the ARABIDOPSIS TREHALOSE-6-PHOSPHATE SYNTHASE 1 mutant is associated with altered cell wall structure, decreased cell division and starch accumulation. DOI: 10.1111/j.1365-313X.2006.02662.x ; PMID: 16553896
- and jasmonic acid/ethylene-dependent responses via EDS1 and PAD4. DOI: 10.1111/j.1365-313X.2006.02806.x ; PMID: 16813576
- Response diversity of Arabidopsis thaliana ecotypes in elevated [CO2] in the field. DOI: 10.1007/s11103-006-9041-y ; PMID: 16941220
- Sorting signals, N-terminal modifications and abundance of the chloroplast proteome. DOI: 10.1371/journal.pone.0001994 ; PMID: 18431481
- Analysis of protein complexes in Arabidopsis leaves using size exclusion chromatography and label-free protein correlation profiling. DOI: 10.1016/j.jprot.2017.06.004 ; PMID: 28627464
Sequence:
cDNA Sequence
- >AT5G22510.1 GTTGATCTTCATTTGGCCTTGTCTACTTCCTCTGTTCATGGCTCTATACAAATCCTGAAATCAGGGCATTTACATTTTCCCTTTTGACAGAATCCGAAAGCGACCATGAGTTAGATAGCGATTCTCCAGTTTACTCATTTGATACACTGCTAAGAAAATAAAACTGGATATAGCCATATTTAGTGTCATATCTTATCTCTGTTTGAGTCAAGGAACCATCCAAAATCAATCCACACCAAACACATAACGCCATTAGGAATTTAGGATCAGGCTTGTCCATTTTCAAAATCCTGTTAAAAGAACAAACTAAAAAAAAAGAAAGTGTTTAGAGATTAGACACGTCGTCGTTTCACACGCGTAAACTCGTGGATGATGGAAGAAAGTTAAAAGCTCGTGTTTCGAAAGCAAGGGTTTTTGGACCAGTCGTCACTTTACCGGATTTTTGTTTTGGTGCTCGACGACTCTGATTCGAAATCTCTCTCTCTCGGAAAAGCTGAATCTGGATCATCAAAGTATCATTTTAAAGTTTGATCATTTCTTCTTTGGGTATATAGGGTAGTATTCAAAATGGCAGCTTCAGAAACAGTTCTACGTGTTCCATTAGGATCTGTATCTCAATCTTGCTATCTAGCTTCCTTCTTTGTTAACTCAACACCAAACCTCTCGTTTAAACCCGTTAGTAGAAACAGAAAGACCGTCCGGTGTACAAACTCGCATGAGGTCTCAAGCGTACCAAAACATTCATTTCATAGTTCAAACTCTGTTTTGAAAGGTAAAAAGTTTGTTTCCACGATATGCAAATGCCAAAAACATGATGTTGAGGAGAGTATTAGATCAACGTTACTTCCATCTGACGGTTTGAGCAGTGAATTGAAAAGTGACTTAGATGAAATGCCTTTACCTGTTAATGGAAGTGTTTCATCTAATGGTAATGCACAATCAGTTGGAACAAAGTCTATTGAGGATGAAGCTTGGGATCTGTTGAGGCAGTCTGTTGTTTTCTATTGTGGAAGTCCTATTGGAACTATTGCTGCTAATGATCCGAACTCTACTAGTGTTTTGAATTATGATCAGGTCTTTATTCGTGATTTCATACCTTCGGGGATCGCCTTTCTTCTTAAAGGAGAGTATGATATTGTTCGCAATTTCATCCTTTACACTCTCCAGTTACAGAGTTGGGAGAAAACCATGGATTGCCATAGTCCAGGTCAAGGTTTGATGCCTTGTAGTTTCAAGGTGAAAACTGTTCCTCTCGATGGCGATGATTCAATGACCGAAGAAGTGTTAGATCCTGATTTTGGTGAAGCAGCTATTGGACGTGTTGCCCCGGTTGATTCTGGCTTGTGGTGGATTATTTTGTTGAGAGCATATGGAAAATGCACTGGTGATCTTTCCGTGCAGGAAAGAGTTGATGTGCAGACTGGAATCAAGATGATCTTAAAGCTGTGTCTCGCTGATGGTTTCGATATGTTTCCTACTTTGTTAGTTACTGATGGGTCCTGCATGATAGACCGTCGAATGGGAATCCATGGTCATCCCCTGGAGATTCAGGCACTCTTTTATTCGGCTTTGGTCTGCGCTCGTGAGATGCTTACGCCAGAGGACGGGTCAGCTGATCTAATCCGAGCTCTCAACAATCGTCTTGTTGCTTTAAATTTCCACATCAGGGAATACTACTGGTTGGACCTGAAAAAGATTAATGAAATATACCGTTACCAGACCGAGGAATACTCTTACGATGCGGTTAATAAATTCAACATATATCCAGATCAGATCCCTTCATGGTTAGTGGACTTTATGCCGAACAGAGGAGGATATTTGATTGGAAACCTTCAGCCTGCTCACATGGATTTCAGATTCTTTACTCTGGGGAACCTTTGGTCTATAGTGAGCAGTTTGGCTTCAAATGATCAATCACATGCAATTCTTGATTTCATCGAAGCCAAATGGGCAGAACTTGTAGCAGACATGCCACTTAAGATCTGTTACCCTGCTATGGAAGGTGAAGAATGGCGAATTATAACCGGAAGTGATCCAAAGAATACTCCTTGGTCTTATCACAATGGAGGTGCATGGCCAACTCTGCTATGGCAGCTGACAGTTGCAAGCATCAAAATGGGTAGACCAGAGATTGCAGAAAAGGCGGTTGAGTTAGCCGAGAGACGGATTTCCTTAGACAAATGGCCCGAGTACTACGATACCAAAAGAGCAAGATTCATCGGTAAACAGGCACGGCTATACCAGACTTGGTCCATCGCAGGTTACCTAGTGGCCAAGCTCCTCTTAGCAAATCCAGCTGCAGCAAAGTTCCTCACTAGTGAAGAGGATTCGGATTTGAGAAACGCATTCTCTTGCATGCTCAGCGCTAACCCGAGGAGGACAAGAGGACCCAAAAAAGCTCAACAACCATTTATTGTATGAGAGGCTCAGACTTATTTATTTCAAAGTGAGCCATGGAGGAGGCATGGACCTTCAACAGATTGATACAAAAACGTGTCATTGTTGTGTAAATAGTCTCTCTTAGAAACTTACATAAAAATAGATGATGTTTGTTTTTATCATATTATTAAAAGCGTGTTTGGCTCAAGTAGTGAGTGGTCCAACATGTTAAACATAATAAGAAACAGTAGCTAGTACCTAGAAGAAACATCCACAATTTTGCTGTAGAGCCACATGTGTTAGGTCCTATCGAACTAAATTCAACTGACAAGGCTATGATTTAGCCTTCGATAATATTTTAACTGGATCCCATCAGTGGTG
- >AT5G22510.2 GTTGATCTTCATTTGGCCTTGTCTACTTCCTCTGTTCATGGCTCTATACAAATCCTGAAATCAGGGCATTTACATTTTCCCTTTTGACAGAATCCGAAAGCGACCATGAGTTAGATAGCGATTCTCCAGTTTACTCATTTGATACACTGCTAAGAAAATAAAACTGGATATAGCCATATTTAGTGTCATATCTTATCTCTGTTTGAGTCAAGGAACCATCCAAAATCAATCCACACCAAACACATAACGCCATTAGGAATTTAGGATCAGGCTTGTCCATTTTCAAAATCCTGTTAAAAGAACAAACTAAAAAAAAAGAAAGTGTTTAGAGATTAGACACGTCGTCGTTTCACACGCGTAAACTCGTGGATGATGGAAGAAAGTTAAAAGCTCGTGTTTCGAAAGCAAGGGTTTTTGGACCAGTCGTCACTTTACCGGATTTTTGTTTTGGTGCTCGACGACTCTGATTCGAAATCTCTCTCTCTCGGAAAAGCTGAATCTGGATCATCAAAGTATCATTTTAAAGTTTGATCATTTCTTCTTTGGGTATATAGGGTAGTATTCAAAATGGCAGCTTCAGAAACAGTTCTACGTGTTCCATTAGGATCTGTATCTCAATCTTGCTATCTAGCTTCCTTCTTTGTTAACTCAACACCAAACCTCTCGTTTAAACCCGTTAGTAGAAACAGAAAGACCGTCCGGTGTACAAACTCGCATGAGGTCTCAAGCGTACCAAAACATTCATTTCATAGTTCAAACTCTGTTTTGAAAGGTAAAAAGTTTGTTTCCACGATATGCAAATGCCAAAAACATGATGTTGAGGAGAGTATTAGATCAACGTTACTTCCATCTGACGGTTTGAGCAGTGAATTGAAAAGTGACTTAGATGAAATGCCTTTACCTGTTAATGGAAGTGTTTCATCTAATGGTAATGCACAATCAGTTGGAACAAAGTCTATTGAGGATGAAGCTTGGGATCTGTTGAGGCAGTCTGTTGTTTTCTATTGTGGAAGTCCTATTGGAACTATTGCTGCTAATGATCCGAACTCTACTAGTGTTTTGAATTATGATCAGGTCTTTATTCGTGATTTCATACCTTCGGGGATCGCCTTTCTTCTTAAAGGAGAGTATGATATTGTTCGCAATTTCATCCTTTACACTCTCCAGTTACAGAGTTGGGAGAAAACCATGGATTGCCATAGTCCAGGTCAAGGTTTGATGCCTTGTAGTTTCAAGGTGAAAACTGTTCCTCTCGATGGCGATGATTCAATGACCGAAGAAGTGTTAGATCCTGATTTTGGTGAAGCAGCTATTGGACGTGTTGCCCCGGTTGATTCTGGCTTGTGGTGGATTATTTTGTTGAGAGCATATGGAAAATGCACTGGTGATCTTTCCGTGCAGGAAAGAGTTGATGTGCAGACTGGAATCAAGATGATCTTAAAGCTGTGTCTCGCTGATGGTTTCGATATGTTTCCTACTTTGTTAGTTACTGATGGGTCCTGCATGATAGACCGTCGAATGGGAATCCATGGTCATCCCCTGGAGATTCAGGCACTCTTTTATTCGGCTTTGGTCTGCGCTCGTGAGATGCTTACGCCAGAGGACGGGTCAGCTGATCTAATCCGAGCTCTCAACAATCGTCTTGTTGCTTTAAATTTCCACATCAGGGAATACTACTGGTTGGACCTGAAAAAGATTAATGAAATATACCGTTACCAGACCGAGGAATACTCTTACGATGCGGTTAATAAATTCAACATATATCCAGATCAGATCCCTTCATGGTTAGTGGACTTTATGCCGAACAGAGGAGGATATTTGATTGGAAACCTTCAGCCTGCTCACATGGATTTCAGATTCTTTACTCTGGGGAACCTTTGGTCTATAGTGAGCAGTTTGGCTTCAAATGATCAATCACATGCAATTCTTGATTTCATCGAAGCCAAATGGGCAGAACTTGTAGCAGACATGCCACTTAAGATCTGTTACCCTGCTATGGAAGGTGAAGAATGGCGAATTATAACCGGAAGTGATCCAAAGAATACTCCTTGGTCTTATCACAATGGAGGTGCATGGCCAACTCTGCTATGGCAGCTGACAGTTGCAAGCATCAAAATGGGTAGACCAGAGATTGCAGAAAAGGCGGTTGAGTTAGCCGAGAGACGGATTTCCTTAGACAAATGGCCCGAGTACTACGATACCAAAAGAGCAAGATTCATCGGTAAACAGGCACGGCTATACCAGACTTGGTCCATCGCAGGTTACCTAGTGGCCAAGCTCCTCTTAGCAAATCCAGCTGCAGCAAAGTTCCTCACTAGTGAAGAGGATTCGGATTTGAGAAACGCATTCTCTTGCATGCTCAGCGCTAACCCGAGGAGGACAAGAGGACCCAAAAAAGCTCAACAACCATTTATTGTATGAGAGGCTCAGACTTATTTATTTCAAAGTGAGCCATGGAGGAGGCATGGACCTTCAACAGATTGATACAAAAACGTGTCATTGTTGTGTAAATAGTCTCTCTTAGAAACTTACATAAAAATAGATGATGTTTGTTTTTATCATATTATTAAAAGCGTGTTTGGCTCAAGTAGTGAGTGGTCCAACATGTTAAACATAATAAGAAACAGTAGCTAGTACCTAGAAGAAACATCCACAATTTTGCTGTAGAGCCACATGTGTTAGGTCCTATCGAACTAAATTCAACTGACAAGGCTATGATTTAGCCTTCGATAATATTTTAACTGGATCCCATCAGTGGTG
CDS Sequence
Protein Sequence