Gene Details:
- Gene ID: AT5G13390
- Gene Symbol: NEF1
- Gene Name: NO EXINE FORMATION 1
- Description: no exine formation 1;(source:Araport11)
- TAIR Accession: locus:2181650
- 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)
Gene Ontology:
- GO:0009059 — acts upstream of or within — macromolecule biosynthetic process
- GO:0010228 — acts upstream of or within — vegetative to reproductive phase transition of meristem
- GO:0036211 — acts upstream of or within — protein modification process
- GO:0010468 — acts upstream of or within — regulation of gene expression
- GO:0009507 — located in — chloroplast
- GO:0048316 — acts upstream of or within — seed development
- GO:0048589 — acts upstream of or within — developmental growth
- GO:0009888 — acts upstream of or within — tissue development
- GO:0051252 — acts upstream of or within — regulation of RNA metabolic process
- GO:0009892 — acts upstream of or within — negative regulation of metabolic process
- GO:0048367 — acts upstream of or within — shoot system development
Function-related keywords:
Literature:
- The predicted candidates of Arabidopsis plastid inner envelope membrane proteins and their expression profiles. DOI: 10.1104/pp.008052 ; PMID: 12376647
- 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
- Pollen wall development: the associated enzymes and metabolic pathways. DOI: 10.1111/j.1438-8677.2012.00706.x ; PMID: 23252839
- Loss of THIN EXINE2 disrupts multiple processes in the mechanism of pollen exine formation. DOI: 10.1093/plphys/kiab244 ; PMID: 34618131
Sequences:
cDNA Sequence
- >AT5G13390.1
CGGACACGTCACTGTTTCCGCGAAATCAACACGCAGATCCTTTCTTCATCAGTAAACGGCGAGATTCGCCATCAATCTGAATTCCAAACAAAAATTCCGGCGACCATGATGCCACCGGAGCTACAGCCGCGGCTGTTCCGGCCCCATATAACCGCCTCCACCAGTGAACCTACTCAATCTTCCTCCTCTTACTCACCTCACATGAGCCCTGCATCAACCAGAAACTTCATCGATCGAGCTACTCCTACTTCGAGATCCAACAACTCTCGATTCTCTCCATCTTCCTTCGCCTACAATGGACGGATCGCAATTGCTCTTGTCCCTTGCGCCGCCTTCCTCCTCGACCTCGGCGGCACTCCGGTTGTCGCTACACTCACAATCGGCCTCCTCATATCTTACATCGTCGATTCTCTCAATGTCAAATTCGGAGGCTTCCTCGGTATATGGATGTCACTGCTCGCTGCTCAGATCTCTTTCTTCTTCTCATCTTCTCTCTTTTCCTCCTTCAATTCCGTTCCTCTCGGCTTGCTCGCGGCTTTTCTCTGCGCTCAGACTACTTTCCTCATCGGCTGCTGGACTTCGCTCCAATTCAAATGGCTTCAGCTGGAGAATCCTTCCATTGTTGTCGCTTTGGAGCGTCTCTTGTTCGCATGTGTCCCTTTCACTGCCTCTTCTTTTTTCGCATGGGCAACTATCTCTGCCGTTGGGATGAACAACTCTTCTTACTATTTCCTCTTGTTCGCCTGCGTCTTCTACTGGATTTTCGCTATTCCTAGAGTTTCTTCTTTCAAGACCAAGCAGGAAGTTAAGTACCATGGAGGAGAGATCCCTGATGATAGCTTTATCCTTGGACAGCTGGAGAGCTGTTTCCTTTCACTGAATTTGATGTTTATGCCGCTTCTCTTTCACGTGGCGTCACATTACTCTGTGATATTCTCATCTGCTGCTTCAGTTTGTGATTTGCTGCTCCTGTTCTTTATCCCTTTCCTGTTCCAGCTCTATGCTTCGACAAGAGGTGGTCTATGGTGGGTTACCAAGGATTCACATCAGCTGCAGAGCATTCGGATTGTGAATGGGGCTATTGCCATGGTCATTATTGTGATCTGTTTGGAGATTAGAGTTGTTTTCCGCTCTTTTGGAAAGTATATTCAAGTGCCGCCTCCATTGAACTACCTTCTGGTGACTACAACATTGCTTGGAGGTGCTGCTGGTGCTGGTGCTTCTGTTCTTGGAATGATCTCGAGTGCTCTGAGCTCAGCCTTTTTCACAGCTTTGTCTGTGATTGTGAGTTCTGCTGGAGCTATCGTTGTAGGATTTCCAGTTCTGTTTACTCCGCTTCCTGCAGTTGCTGGGCTTTATTTTGCTCGGTTTTTTACAAAGAAAAGTGTGCCCTCTTACTTTGCATTTGTAGCTCTTGGAAGCTTAATGGTTATATGGTTTGTAATGCATAATTACTGGGATTTAAACATATGGTTAGCCGGCATGTTCCTCAAATCATTCTGTAAGCTTATAGTGGCCAACATTATTATAGCCATGGTGATCCCGGGTCTTGTTCTTCTCCCTTCAAAATTTCACTTCCTGACTGAAGCTGGTATGGTGACCCACGCATTATTACTGTGTTACATCGAGGACCGCTTTTTCAATTACTCAAGCATATACTATTATGGAATGGAAGACGATGTGATGTACCCTAGCTACATGGTTATCTTGACGTCGCTAATAGGATTGGCTGTGGTGAGAAGACTGTTTGCTGACCACCGAATTGGACAAAAGGCAGTCTGGATCTTGACCTGTCTGTATTCAGCAAAGTTGGCTATGCTCTTCCTATCATCGAAATCAATTGTATGGGTGTCTGCAGCTCTATTACTGGCTGTTTCCCCTCCCTTACTTCTATACAAGGAGAAGTCGAAATCTGCCTCTAAAATGAAGCCATGGCAAGGTTATGCTCATGCCGTAGTGGTTGCTGTCTCTGTCTGGTTTTGCCGGGAAACAATATTTGATGCTCTACAGTGGTGGCATGGAAGACCTCCGTCTGATGGTTTGCTTCTTGGTTCCTGCATCGTTTTAATTGGTCTGGCCTGTATACCAATTGTTGCCTTCCACTTTTCGCATGTCCTGTCAGCTAAGAGAAGCTTGGTATTAGTAGTGGCAACTGGATGCATGTTTATTCTGATGCAGCCACCGATGCCTATGACGTGGAGTTACCATTCAGATATGATCAAGGCCGCTCGCCAGTCAGCTGATGACATTTCCATCTATGGATTCATGGCATCCAAACCGACTTGGCCGTCTTGGTTGCTTATTGTGTCACTCCTCTTGATTCTTGCTGCTGCCACATCTCTTATCCCAATCAAATACGTAGTAGAACTGAGAGCATTTTACTCCATTGCCATGGGTTTAGCTCTCGGTGTTTATATATCAGCAGAGTTCTTTCTACAAGCTGCTGTTCTACATGCCCTGATCGTTGTAACACTGGTGTGTGCCTCAGTTTTTGTCATCTTCACCCATTTTCCATCTGCCTCAAGCACAAAGCTGCTTCCCTGGGTGTTTGCTCTTCTCGTGGCTCTATTTCCTGTGACATATTTGTTAGAAGGGCAAGTCAGAATTAAAAACGATCTCAACGAAAATGTTACCTGGGGTTGGGACACAAGGGAGGAGGATAAGAAAGTCACAACCATGTTGGCCATTGAAGGTGCAAGAACATCTCTTCTAGGTCTCTATGCAGCGATATTTATGCTTATAGCTCTCCTGATTAAATTTGAGCTCACTTCGCTTTTGCGTGAGAAATTCTCTGAGAGGAGTGGTCAGTCAAAAACCCAAGGAGGCGCAAGAGGGATTTTCCCGACACGAATGAGGTTGATGCAGCAACGCCGAGCCACCTCGATCCAAAGCTTTGCAGTAGAGAAAATGTCAGAAGAGGGAGCAGCATGGATGCCTTCTGTTGGTAATGTCGCCACCATCATGTGCTTTGCCATATGCTTAATCCTCAACATCCACCTCTCAGGCGGCTCAAGCCAAGCGATATTCTTCCTGGCTCCAATCTTACTTCTCCTGAACCAAGACTCTGATCTCTTATCCGGGTTTGGTGATAAACAGAGATACTTCCCGGTTACAGTAGCCATATCAACATATTTGGCATTATCCTCGCTCTACACTGTATGGGAAGAAGTTTGGTTTGGTGGAAACACAGGTTGGGGAGTCGAAATTGGAGGCCGTGAATGGTTTTTTGCGGTGAAGAACCTGGCTCTCCTAATACTCACAGCACCAGGTCACATCATATTCAACAGGTACGTTTGGAGTTACACCACCAAACACACAGACGCGTCGCCGATGCTGACCGTGCCACTTAGCTTTGCAGCCGTAATAATAACAGACGTGTTTCAAGTTAGGGTTCTGGGAGTTTTAGGCATTGTTTACTCTGCGGCTCAGTATGTGATATCTAGGCAACAATATATGAAAGGGCTGAGGTATATTTAGACAGTCGTAGGATTGATTAGTAATGTTTTCGACCCTTTTTGTAACAGAATTTGTGAAACAGTGTTTTCATTTCCCAGCTTTGTTTCTCAGTGGATGCATTGGAAATTGCCAATATACGACGTTTGAACAACTTAATTTTATTGGTCTTCTTAC - >AT5G13390.2
CGGACACGTCACTGTTTCCGCGAAATCAACACGCAGATCCTTTCTTCATCAGTAAACGGCGAGATTCGCCATCAATCTGAATTCCAAACAAAAATTCCGGCGACCATGATGCCACCGGAGCTACAGCCGCGGCTGTTCCGGCCCCATATAACCGCCTCCACCAGTGAACCTACTCAATCTTCCTCCTCTTACTCACCTCACATGAGCCCTGCATCAACCAGAAACTTCATCGATCGAGCTACTCCTACTTCGAGATCCAACAACTCTCGATTCTCTCCATCTTCCTTCGCCTACAATGGACGGATCGCAATTGCTCTTGTCCCTTGCGCCGCCTTCCTCCTCGACCTCGGCGGCACTCCGGTTGTCGCTACACTCACAATCGGCCTCCTCATATCTTACATCGTCGATTCTCTCAATGTCAAATTCGGAGGCTTCCTCGGTATATGGATGTCACTGCTCGCTGCTCAGATCTCTTTCTTCTTCTCATCTTCTCTCTTTTCCTCCTTCAATTCCGTTCCTCTCGGCTTGCTCGCGGCTTTTCTCTGCGCTCAGACTACTTTCCTCATCGGCTGCTGGACTTCGCTCCAATTCAAATGGCTTCAGCTGGAGAATCCTTCCATTGTTGTCGCTTTGGAGCGTCTCTTGTTCGCATGTGTCCCTTTCACTGCCTCTTCTTTTTTCGCATGGGCAACTATCTCTGCCGTTGGGATGAACAACTCTTCTTACTATTTCCTCTTGTTCGCCTGCGTCTTCTACTGGATTTTCGCTATTCCTAGAGTTTCTTCTTTCAAGACCAAGCAGGAAGTTAAGTACCATGGAGGAGAGATCCCTGATGATAGCTTTATCCTTGGACAGCTGGAGAGCTGTTTCCTTTCACTGAATTTGATGTTTATGCCGCTTCTCTTTCACGTGGCGTCACATTACTCTGTGATATTCTCATCTGCTGCTTCAGTTTGTGATTTGCTGCTCCTGTTCTTTATCCCTTTCCTGTTCCAGCTCTATGCTTCGACAAGAGGTGGTCTATGGTGGGTTACCAAGGATTCACATCAGCTGCAGAGCATTCGGATTGTGAATGGGGCTATTGCCATGGTCATTATTGTGATCTGTTTGGAGATTAGAGTTGTTTTCCGCTCTTTTGGAAAGTATATTCAAGTGCCGCCTCCATTGAACTACCTTCTGGTGACTACAACATTGCTTGGAGGTGCTGCTGGTGCTGGTGCTTCTGTTCTTGGAATGATCTCGAGTGCTCTGAGCTCAGCCTTTTTCACAGCTTTGTCTGTGATTGTGAGTTCTGCTGGAGCTATCGTTGTAGGATTTCCAGTTCTGTTTACTCCGCTTCCTGCAGTTGCTGGGCTTTATTTTGCTCGGTTTTTTACAAAGAAAAGTGTGCCCTCTTACTTTGCATTTGTAGCTCTTGGAAGCTTAATGGTTATATGGTTTGTAATGCATAATTACTGGGATTTAAACATATGGTTAGCCGGCATGTTCCTCAAATCATTCTGTAAGCTTATAGTGGCCAACATTATTATAGCCATGGTGATCCCGGGTCTTGTTCTTCTCCCTTCAAAATTTCACTTCCTGACTGAAGCTGGTATGGTGACCCACGCATTATTACTGTGTTACATCGAGGACCGCTTTTTCAATTACTCAAGCATATACTATTATGGAATGGAAGACGATGTGATGTACCCTAGCTACATGGTTATCTTGACGTCGCTAATAGGATTGGCTGTGGTGAGAAGACTGTTTGCTGACCACCGAATTGGACAAAAGGCAGTCTGGATCTTGACCTGTCTGTATTCAGCAAAGTTGGCTATGCTCTTCCTATCATCGAAATCAATTGTATGGGTGTCTGCAGCTCTATTACTGGCTGTTTCCCCTCCCTTACTTCTATACAAGGAGAAGTCGAAATCTGCCTCTAAAATGAAGCCATGGCAAGGTTATGCTCATGCCGTAGTGGTTGCTGTCTCTGTCTGGTTTTGCCGGGAAACAATATTTGATGCTCTACAGTGGTGGCATGGAAGACCTCCGTCTGATGGTTTGCTTCTTGGTTCCTGCATCGTTTTAATTGGTCTGGCCTGTATACCAATTGTTGCCTTCCACTTTTCGCATGTCCTGTCAGCTAAGAGAAGCTTGGTATTAGTAGTGGCAACTGGATGCATGTTTATTCTGATGCAGCCACCGATGCCTATGACGTGGAGTTACCATTCAGATATGATCAAGGCCGCTCGCCAGTCAGCTGATGACATTTCCATCTATGGATTCATGGCATCCAAACCGACTTGGCCGTCTTGGTTGCTTATTGTGTCACTCCTCTTGATTCTTGCTGCTGCCACATCTCTTATCCCAATCAAATACGTAGTAGAACTGAGAGCATTTTACTCCATTGCCATGGGTTTAGCTCTCGGTGTTTATATATCAGCAGAGTTCTTTCTACAAGCTGCTGTTCTACATGCCCTGATCGTTGTAACACTGGTGTGTGCCTCAGTTTTTGTCATCTTCACCCATTTTCCATCTGCCTCAAGCACAAAGCTGCTTCCCTGGGTGTTTGCTCTTCTCGTGGCTCTATTTCCTGTGACATATTTGTTAGAAGGGCAAGTCAGAATTAAAAACGATCTCAACGAAAATGTTACCTGGGGTTGGGACACAAGGGAGGAGGATAAGAAAGTCACAACCATGTTGGCCATTGAAGGTGCAAGAACATCTCTTCTAGGTCTCTATGCAGCGATATTTATGCTTATAGCTCTCCTGATTAAATTTGAGCTCACTTCGCTTTTGCGTGAGAAATTCTCTGAGAGGAGTGGTCAGTCAAAAACCCAAGGAGGCGCAAGAGGGATTTTCCCGACACGAATGAGGTTGATGCAGCAACGCCGAGCCACCTCGATCCAAAGCTTTGCAGTAGAGAAAATGTCAGAAGAGGGAGCAGCATGGATGCCTTCTGTTGGTAATGTCGCCACCATCATGTGCTTTGCCATATGCTTAATCCTCAACATCCACCTCTCAGGCGGCTCAAGCCAAGCGATATTCTTCCTGGCTCCAATCTTACTTCTCCTGAACCAAGACTCTGATCTCTTATCCGGGTTTGGTGATAAACAGAGATACTTCCCGGTTACAGTAGCCATATCAACATATTTGGCATTATCCTCGCTCTACACTGTATGGGAAGAAGTTTGGTTTGGTGGAAACACAGGTTGGGGAGTCGAAATTGGAGGCCGTGAATGGTTTTTTGCGGTGAAGAACCTGGCTCTCCTAATACTCACAGCACCAGGTCACATCATATTCAACAGGTACGTTTGGAGTTACACCACCAAACACACAGACGCGTCGCCGATGCTGACCGTGCCACTTAGCTTTGCAGCCGTAATAATAACAGACGTGTTTCAAGTTAGGGTTCTGGGAGTTTTAGGCATTGTTTACTCTGCGGCTCAGTATGTGATATCTAGGCAACAATATATGAAAGGGCTGAGGTATATTTAGACAGTCGTAGGATTGATTAGTAATGTTTTCGACCCTTTTTGTAACAGAATTTGTGAAACAGTGTTTTCATTTCCCAGCTTTGTTTCTCAGTGGATGCATTGGAAATTGCCAATATACGACGTTTGAACAACTTAATTTTATTGGTCTTCTTAC
CDS Sequence
Protein Sequence