Gene Details:
- Gene ID: AT4G26330
- Gene Symbol: ATSBT3.18, UNE17
- Gene Name: UNFERTILIZED EMBRYO SAC 17
- Description: Subtilisin-like serine endopeptidase family protein;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0009025 — vascular leaf — foliage leaf (exact), hoja vascular (Spanish, exact), leaf, vascular (exact), vascular leaves (exact, plural), 維管束のある葉, または維管束植物の葉 (Japanese, exact), crozier (related), macrophyll (related), megaphyll (related), ascidia (narrow), ascidium (narrow), fiddlehead (narrow), frond (narrow), needle-like leaf (narrow), pitcher (narrow), pitcher blade (narrow), pitcher-blade (narrow), scale-like leaf (narrow), sterile frond (narrow), trophophyll (narrow)
Function-related keywords:
Literature:
- The S8 serine, C1A cysteine and A1 aspartic protease families in Arabidopsis. DOI: 10.1016/j.phytochem.2003.09.005 ; PMID: 14697270
- Quantitative trait loci associated with adventitious shoot formation in tissue culture and the program of shoot development in Arabidopsis. DOI: 10.1534/genetics.103.025213 ; PMID: 15342526
- Genetic and molecular identification of genes required for female gametophyte development and function in Arabidopsis. DOI: 10.1242/dev.01595 ; PMID: 15634699
- Inferring hypotheses on functional relationships of genes: Analysis of the Arabidopsis thaliana subtilase gene family. DOI: 10.1371/journal.pcbi.0010040 ; PMID: 16193095
- Cross genome comparisons of serine proteases in Arabidopsis and rice. DOI: 10.1186/1471-2164-7-200 ; PMID: 16895613
- Transcriptome analyses show changes in gene expression to accompany pollen germination and tube growth in Arabidopsis. DOI: 10.1104/pp.108.126375 ; PMID: 18775970
- Maternal control of male-gamete delivery in Arabidopsis involves a putative GPI-anchored protein encoded by the LORELEI gene. DOI: 10.1105/tpc.108.061713 ; PMID: 19028964
Sequences:
cDNA Sequence
- >AT4G26330.2
ATGATCTCGTCCATGAATTTTTGGAGATGTCGTTGTAGCAAAGACGATGCGGAACAATCCATGTTGTACAGTTACAACAATGGCTTCTTAGGCTTCTCAGCAAAACTCAACTCAACACAAGCTGCTTCTTTAGCAAAATTGAACCAGGTCATAACGGTTTTCAAGAGCAAAAGCTTGAAGTTGCACACAACAAGGAGCTGGGATTTCTTAGGTCTCGCCGTTGACAATGCCCGTCGTACTCCTCCGCCGCAGCTCGCCTATGGATCCGACATTGTCGTCGGAATCTTCGATACTGGAATCTGGCCGGAATCGGAGAGTTTCAGGGAAACGCCGGAGGCGAAACCTATACCTTCGTCATGGAACGGAAAATGCGTCGGAGGGGAAGACTTTGATCCATCTGTACATTGCAATCGTAAATTGATCGGTGCTCGATTTTACCTCAGAGGATTCGAAGAGACGTACGGAACAATTGACTTTACGCGAGATCCTGAATACCGATCGCCGCGAGATTACCTCGGTCACGGCACACACACAGCTTCCACCGCCGTCGGATCCGTTGTTCGCAATGTCTCCGGCTTCTTCGGTCTTGGACGCGGCACTGCTCGCGGCGGAGCTCCATTGGCTAGGCTAGCTGTGTTCAAGACGTGTTGGGGGAAGGATCTGGAAGGTGTTTGCACGGAGGCTGATATCTTAGCAGCTTTTGACGACGCCATCCACGACGGCGTCCACGTGATTTCGGCCTCTTTTGGCTATTCGCCGCCGTTATCTCCGTTTTTCGAGTCGAGCGCAGACATCGGGGCTTTTCACGCAGCGGAGAGAGGAATCAGCGTGGTGTTCTCTACCGGAAACGATGGCCCTGATCCTGGTGTTGTTCAGAATGTCGCTCCTTGGGCGGTTTCTGTCGCAGCTTCGACAGTTGATCGGAGTTTTCCCACCAGAATTGTTATCGACGGTAGTTTCACTCTCACGGGTCAGAGCTTGATTTCTCAGGAGATCACTGGTACATTAGCTCTTGCAACAACGTATTTCAATGGAGGGGTTTGCAAATGGGAAAACTGGATGAAGAAATTGGCCAATGAGACAATAATTCTGTGCTTTTCTACTTTGGGTCCGGTTCAGTTCATTGAAGAAGCACAAGCTGCTGCTATTAGAGCGAACGCATTAGCGCTAATATTTGCAGCCTCACCAACCAGACAGCTCGCTGAAGAAGTAGACATGATCCCAACAGTTCGTGTTGATATTCTTCATGGGACTAGGATTAGGAACTATCTTGCTCGTTCGCCTACAGTGCCAATGGTGAAAATTGGACCGAGCAAAACGGTTATCGGAGAGACTACAGCACCCTCCGTTGCATATTTCTCTTCAAGAGGACCTAGCTCACTATCACCTGATATTCTCAAGCCAGATATTACAGCTCCTGGCATTGGGATATTAGCAGCATGGCCTCCTAGAACTCCACCTACTCTGTTACCAGGAGACCACCGATCTATTGAGTGGAATTTCCAGTCGGGAACTTCAATGTCATGTCCCCATGTGGCTGGAGTTATGGCGCTTCTCCAGTCAGCTCACCCTGACTGGTCACCTTCTGCTATCAGAAGCGCTATCATGACCACAGCGTATACAAGAGACACAAGCTATGACTTGATCCTCTCTGGTGGTTCGATGAAGTCCACTGACCCGTTTGATATTGGTGCCGGGCATATAAACCCTTTGAAAGCCATGGACCCAGGTCTGGTTTACAATACCAGAACCGACGACTATGTGCTCTTCATGTGCAACATTGGCTACACGGACCAAGAAATTAAGTCCATGGTTCTCCACCCAGAGCCTTCGACAACATGTCTTCCGTCTCACTCGTACCGAACAAATGCAGATTTCAACTATCCGTCTATTACCATACCGAGCTTGAGATTAACCAGGACAATAAAACGTACTGTAAGCAACGTCGGTCCAAACAAAAACACAGTTTATTTCGTGGACATCATTAGACCCGTGGGAGTGGAAGTTTTGATCTGGCCGCGGATTCTGGTGTTCTCGAAGTGCCAACAAGAACACTCATATTATGTTACATTCAAGCCCACTGAGATTTTCTCTGGTCGGTATGTATTTGGGGAAATCATGTGGACAAATGGGTTACATCGAGTTAGAAGTCCGGTGGTTGTGTTCTTGAGCAACGCTGGTTTTCTTGCAAGCAGTTAAATTAGACGGAAAGTCACTACCGTAGGGCTCAAGTTGAAAGAGCTATGGTTTGTTTCTTTTGTTTGAGATTTCCCGGGCACACTTTATAAATAGGAACTATAAAAAATTGCCACAACTGGTGAAACTTGTTTAGTGTATTTAAGCATTTTTACCAAGCACAATTTACGATTAATGATGATCTTTAGTCTTCTTTACCATCAATAATCCAAAGC - >AT4G26330.1
ATGATCTCGTCCATGAATTTTTGGAGATGTCGTTGTAGCAAAGACGATGCGGAACAATCCATGTTGTACAGTTACAACAATGGCTTCTTAGGCTTCTCAGCAAAACTCAACTCAACACAAGCTGCTTCTTTAGCAAAATTGAACCAGGTCATAACGGTTTTCAAGAGCAAAAGCTTGAAGTTGCACACAACAAGGAGCTGGGATTTCTTAGGTCTCGCCGTTGACAATGCCCGTCGTACTCCTCCGCCGCAGCTCGCCTATGGATCCGACATTGTCGTCGGAATCTTCGATACTGGAATCTGGCCGGAATCGGAGAGTTTCAGGGAAACGCCGGAGGCGAAACCTATACCTTCGTCATGGAACGGAAAATGCGTCGGAGGGGAAGACTTTGATCCATCTGTACATTGCAATCGTAAATTGATCGGTGCTCGATTTTACCTCAGAGGATTCGAAGAGACGTACGGAACAATTGACTTTACGCGAGATCCTGAATACCGATCGCCGCGAGATTACCTCGGTCACGGCACACACACAGCTTCCACCGCCGTCGGATCCGTTGTTCGCAATGTCTCCGGCTTCTTCGGTCTTGGACGCGGCACTGCTCGCGGCGGAGCTCCATTGGCTAGGCTAGCTGTGTTCAAGACGTGTTGGGGGAAGGATCTGGAAGGTGTTTGCACGGAGGCTGATATCTTAGCAGCTTTTGACGACGCCATCCACGACGGCGTCCACGTGATTTCGGCCTCTTTTGGCTATTCGCCGCCGTTATCTCCGTTTTTCGAGTCGAGCGCAGACATCGGGGCTTTTCACGCAGCGGAGAGAGGAATCAGCGTGGTGTTCTCTACCGGAAACGATGGCCCTGATCCTGGTGTTGTTCAGAATGTCGCTCCTTGGGCGGTTTCTGTCGCAGCTTCGACAGTTGATCGGAGTTTTCCCACCAGAATTGTTATCGACGGTAGTTTCACTCTCACGGGTCAGAGCTTGATTTCTCAGGAGATCACTGGTACATTAGCTCTTGCAACAACGTATTTCAATGGAGGGGTTTGCAAATGGGAAAACTGGATGAAGAAATTGGCCAATGAGACAATAATTCTGTGCTTTTCTACTTTGGGTCCGGTTCAGTTCATTGAAGAAGCACAAGCTGCTGCTATTAGAGCGAACGCATTAGCGCTAATATTTGCAGCCTCACCAACCAGACAGCTCGCTGAAGAAGTAGACATGATCCCAACAGTTCGTGTTGATATTCTTCATGGGACTAGGATTAGGAACTATCTTGCTCGTTCGCCTACAGTGCCAATGGTGAAAATTGGACCGAGCAAAACGGTTATCGGAGAGACTACAGCACCCTCCGTTGCATATTTCTCTTCAAGAGGACCTAGCTCACTATCACCTGATATTCTCAAGCCAGATATTACAGCTCCTGGCATTGGGATATTAGCAGCATGGCCTCCTAGAACTCCACCTACTCTGTTACCAGGAGACCACCGATCTATTGAGTGGAATTTCCAGTCGGGAACTTCAATGTCATGTCCCCATGTGGCTGGAGTTATGGCGCTTCTCCAGTCAGCTCACCCTGACTGGTCACCTTCTGCTATCAGAAGCGCTATCATGACCACAGCGTATACAAGAGACACAAGCTATGACTTGATCCTCTCTGGTGGTTCGATGAAGTCCACTGACCCGTTTGATATTGGTGCCGGGCATATAAACCCTTTGAAAGCCATGGACCCAGGTCTGGTTTACAATACCAGAACCGACGACTATGTGCTCTTCATGTGCAACATTGGCTACACGGACCAAGAAATTAAGTCCATGGTTCTCCACCCAGAGCCTTCGACAACATGTCTTCCGTCTCACTCGTACCGAACAAATGCAGATTTCAACTATCCGTCTATTACCATACCGAGCTTGAGATTAACCAGGACAATAAAACGTACTGTAAGCAACGTCGGTCCAAACAAAAACACAGTTTATTTCGTGGACATCATTAGACCCGTGGGAGTGGAAGTTTTGATCTGGCCGCGGATTCTGGTGTTCTCGAAGTGCCAACAAGAACACTCATATTATGTTACATTCAAGCCCACTGAGATTTTCTCTGGTCGGTATGTATTTGGGGAAATCATGTGGACAAATGGGTTACATCGAGTTAGAAGTCCGGTGGTTGTGTTCTTGAGCAACGCTGGTTTTCTTGCAAGCAGTTAAATTAGACGGAAAGTCACTACCGTAGGGCTCAAGTTGAAAGAGCTATGGTTTGTTTCTTTTGTTTGAGATTTCCCGGGCACACTTTATAAATAGGAACTATAAAAAATTGCCACAACTGGTGAAACTTGTTTAGTGTATTTAAGCATTTTTACCAAGCACAATTTACGATTAATGATGATCTTTAGTCTTCTTTACCATCAATAATCCAAAGC
CDS Sequence
Protein Sequence