Gene Details:
- Gene ID: AT5G18860
- Gene Symbol: NSH3
- Gene Name: nucleoside hydrolase 3
- Description: inosine-uridine preferring nucleoside hydrolase family protein;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Germplasm Phenotype:
- SALK_017164C — Seedlings screened in bulk via high throughput methods for responses to various stressors. Results are in comparison to Col-0.heat:no change,cold:no change,oxidative stress:no change,osmotic stress:no change,salt stress:decreased,ABA:no change,hypoxia:ND.
Literature:
- Proteomics of loosely bound cell wall proteins of Arabidopsis thaliana cell suspension cultures: a critical analysis. DOI: 10.1002/elps.200305608 ; PMID: 14595688
- A proteomic approach to apoplastic proteins involved in cell wall regeneration in protoplasts of Arabidopsis suspension-cultured cells. DOI: 10.1093/pcp/pci089 ; PMID: 15769804
- Arabidopsis nucleoside hydrolases involved in intracellular and extracellular degradation of purines. DOI: 10.1111/j.1365-313X.2010.04455.x ; PMID: 21235647
- Linking genes of unknown function with abiotic stress responses by high-throughput phenotype screening. DOI: 10.1111/ppl.12013 ; PMID: 23517122
- Apoplastic Nucleoside Accumulation in Arabidopsis Leads to Reduced Photosynthetic Performance and Increased Susceptibility Against Botrytis cinerea. DOI: 10.3389/fpls.2015.01158 ; PMID: 26779190
- Proteomics of loosely bound cell wall proteins of Arabidopsis thaliana cell suspension cultures: a critical analysis. DOI: 10.1002/elps.200305608 ; PMID: 14595688
Sequence:
cDNA Sequence
- >AT5G18860.2 AAAAAAAGTAGGGAACGTTCAAGACACATTCGAAGGAAGTTGACTTCAAGTTTTTCCGTATATTTCATTTTATATACCTAATTTAGATGTCATTTTTTCTTTTTTTTTTATTATCGATTCTGGTCCCTAGTCGCCAACCATTTCTCTTTTTTCTTTTTTTCGTCTCTCTCTGCATCTGCACGTCTGTTTTATCTTTTCTTGATCTTTGTTTTCCTGTAAACTTATCACAGAACTATTTATGTAAGCCAAGAGATTTTTAAGTTTTTAAGCTGCTCATAACAGAAAGTTCTGAAGAACAAGAAGACGTTGAAAAAAGAAAAAGAAATCTTATATTTTGCTATATTGGCTTTTTGTCTAATTTGTAAGGCTTTGATGTAACAGTCTCTCTCTCTCCTTTGAGCTGATTCGTCACTTGTCCATAAACAAAGGAACCCACCTTCCTCATTCTTCTTACCTATTCCTTCTCTTTGATTCAGACAGGAAAATAATCACCAATCTTTCTGACATCTTCTTAAGATGTTGACGAGCCCTACTTTGAAGAGTTTATGGTTCTTGTTCACTATTCTTGGACTCTTAGGACAAAACCTCCCTTGTGTTCTGTCTAGTTCACACCGTATTCTAGTGGATACAGATGTCGACACAGACGATTTATTCGCTATACTCTACCTCCTGAAACTCAACAAATCAGAATTTGATCTAGTCGGGATTACACTGAGTGCAAATGCATGGACAAACGCAGGACACGCCGTGAATCAAGTGTATGATTTATTGCACATGATGGATCGTGACGATATCCCCGTTGGTGTCGGCGGCGAAGGTGGGATTAGCGACGACGGTACTATTCACTCTGACGTCGGTGGTTATTTTCCCATCATCGAACAGGGGATGACAACAACAGGGGAATGTAGATACAGACAAGCCATTCCTAAAGGTCTTGGAGGCCTTCTCGACATAGACTCCAATTATGGATTTCGTAAACAGTTTCTTCCTCAGGGGAACAGAAGATACACTCCTCTCCAACAACCAACGGCACAAAAAGTGATCGTCGACAAAATTTCCGAAGGTCCAACCACCGTAATCCTTCTCGGATCCCACACCAATTTTGCACTCTTCTTGATGTCAAATCCTCACTTGAAACACAACATCCAACACATCTACATCATGGGCGGTGGTGTCCGATCACAAAACCCCACCGGCTGTTGTCCGGCGAACTCCACGGTGGCGGAATGTCAACCACGACAGTGCGGGAACCGTGGAAACTTGTTCACAGATTATACAAGTAATCCTTACTCTGAATTCAACATCTTCGCTGATCCTTTCGCTGCTTACCAGGTGTTTCATTCAGGTGTTCCAGTGACTCTGGTTCCTCTAGATGCAACCAACACTATTCCGATCAACCAGAAGTTCTTTGAGACATTCGAGAATAATTACCAGAGAACATACGAAGCTCAATACGTTTTCTTATCTCTGAAAATCGCCAGAGACACTTGGTTCGACGATGAATTCTACAAGAGCTACTTCATGTGGGATTCTTTCACGGCTGGTGTTGCAGTCTCAATCATGAGAAACTCTGCTAATAAGAACAACAAAAATGGTGAGAACGATTTCGCGGAGATGGAGTATATGAACATAACCGTTGTTACTTCAAACAAACCTTATGGAAGATCAGATGGCTCAAATCCATTCTTTGATAATAGAAGAACTCCAAAATTTAACCTAGCCCTTGGAGGAGTTCACAGTGGTCATGTTCAGACGGGTTTGCGAGATCCAACTTGCTTACCGAAAAGCGGAATAGGAAGAGGAAAGTGTAAGGATGGTTACACACAAGAGATCTCTGGTTCTGATTCTGTTCGTGTTCTTGTTGCGACACGAGCTAAACCCAACATAAACATCAAAAGTAAACTTGACAGAGAATTCTATGTTGATTTCCTGGAAGTTTTGAATAGACCTGAAGAAACAGGGAGATTTAACTTTTCATCTCAGTTTCCATACTACAAAGAAGAATTGTTTAGACCAGATCTTAGCAAAACACGTCCCGGAAAGCCTGTTGTTTTCGATATGGACATGAGCGCCGGAGATTTCCTCTCTCTCTTCTACCTCCTCAAAGTTCCGGTGGATAAAATCGATTTGAAGGCTATTATTGTGAGCCCAACCGGTTGGGCTAATGCAGCAACAATAGACGTGGTCTATGATCTGCTTCATATGATGGGTCGGGACGATATTCCAGTGGGCTTGGGAGACATGTTGGCATTGAACCAATCCGACCCGATTTTTCCACCGGTTGGAGGTTGCAAGTACGTCAAGGCTATTCCACGAGGCTGTGGCGGATTTCTGGATTCCGACACTCTCTACGGTCTTGCTCGTGACCTTCCGAGAAGCCCTCGCAGATACACTGCAGAGAATTCAGTGACACATGGAGCTCCCAGGGACACTGATAGGCCTGAACTCCGACAACCTCTGGCTATTGAAGTTTGGCAAAATCTGACCAAATCTGGTAATGGAGTGTCTAAGATCACTGTACTAACCAATGGACCGTTAACTAACTTAGCCAAGATTATCTCATCAGATAAAAAATCATCCTCACTAATCAAGGAAGTTTACATCGTGGGTGGACATATAAACCGTGAGAAATCAGACAAAGGGAACATTTTCACGATTCCTTCAAATGCATATGCTGAATTCAATATGTTTCTTGATCCTTTAGCAGCTAAGACCGTTCTTGAATCCGCTCTAAACATCACACTCGTCCCTCTAGCAACACAACACAAGTTGAGTTCTTTCCAAACAATGCTTGATAGACTCTATTCCTCGACGAAAACACCAGAAGCTCGGTTTGTGAAACGGTTGCTTGTAAGATTGCAAGCTCTTCATCAGAAACACAGGAGATACACGCACATCGACATGTTCTTAGGGGAAGTTCTTGGAGCAGTTCTTTTGGGAGGCGATGACGCTTCACTGAAGCCGAAAATGAGAGCCGAGCACATAAAAGTGATCGCGGAAGGGGATGAATCGAGAGATGGTAAGATATTGATCGATAAACTGCGCGGCAAACAAATAAAGATACTCGAAAGAGTAGACCTAATAAGCATCTCTGAGAGTTTTGCTTCTAGACTCGATGATAAGAAACAATCTGCAGTAATAGGAAGCTTTGAAGAACAAAAGAAGATATGGAGCACACCACCAAGCTGACTGTTCAATAATATGATTATATTATGTAAAATAATTACCAGATTATTTTATATTCATTTCTGTTTCATTTGACTGTTTTCTTATAGTTATCCTTTTTCGTAGGATGATCATTTTCTATTCATTTGTGTTTTTTTTACTGTTTTCTTTTCACAATTTCTATCCAATTTTTAAGGCGACAAGCCAAATTGTATTACGTGTTTGATGACGGACTACATGATTAGTTCTAAATT
- >AT5G18860.1 AAAAAAAGTAGGGAACGTTCAAGACACATTCGAAGGAAGTTGACTTCAAGTTTTTCCGTATATTTCATTTTATATACCTAATTTAGATGTCATTTTTTCTTTTTTTTTTATTATCGATTCTGGTCCCTAGTCGCCAACCATTTCTCTTTTTTCTTTTTTTCGTCTCTCTCTGCATCTGCACGTCTGTTTTATCTTTTCTTGATCTTTGTTTTCCTGTAAACTTATCACAGAACTATTTATGTAAGCCAAGAGATTTTTAAGTTTTTAAGCTGCTCATAACAGAAAGTTCTGAAGAACAAGAAGACGTTGAAAAAAGAAAAAGAAATCTTATATTTTGCTATATTGGCTTTTTGTCTAATTTGTAAGGCTTTGATGTAACAGTCTCTCTCTCTCCTTTGAGCTGATTCGTCACTTGTCCATAAACAAAGGAACCCACCTTCCTCATTCTTCTTACCTATTCCTTCTCTTTGATTCAGACAGGAAAATAATCACCAATCTTTCTGACATCTTCTTAAGATGTTGACGAGCCCTACTTTGAAGAGTTTATGGTTCTTGTTCACTATTCTTGGACTCTTAGGACAAAACCTCCCTTGTGTTCTGTCTAGTTCACACCGTATTCTAGTGGATACAGATGTCGACACAGACGATTTATTCGCTATACTCTACCTCCTGAAACTCAACAAATCAGAATTTGATCTAGTCGGGATTACACTGAGTGCAAATGCATGGACAAACGCAGGACACGCCGTGAATCAAGTGTATGATTTATTGCACATGATGGATCGTGACGATATCCCCGTTGGTGTCGGCGGCGAAGGTGGGATTAGCGACGACGGTACTATTCACTCTGACGTCGGTGGTTATTTTCCCATCATCGAACAGGGGATGACAACAACAGGGGAATGTAGATACAGACAAGCCATTCCTAAAGGTCTTGGAGGCCTTCTCGACATAGACTCCAATTATGGATTTCGTAAACAGTTTCTTCCTCAGGGGAACAGAAGATACACTCCTCTCCAACAACCAACGGCACAAAAAGTGATCGTCGACAAAATTTCCGAAGGTCCAACCACCGTAATCCTTCTCGGATCCCACACCAATTTTGCACTCTTCTTGATGTCAAATCCTCACTTGAAACACAACATCCAACACATCTACATCATGGGCGGTGGTGTCCGATCACAAAACCCCACCGGCTGTTGTCCGGCGAACTCCACGGTGGCGGAATGTCAACCACGACAGTGCGGGAACCGTGGAAACTTGTTCACAGATTATACAAGTAATCCTTACTCTGAATTCAACATCTTCGCTGATCCTTTCGCTGCTTACCAGGTGTTTCATTCAGGTGTTCCAGTGACTCTGGTTCCTCTAGATGCAACCAACACTATTCCGATCAACCAGAAGTTCTTTGAGACATTCGAGAATAATTACCAGAGAACATACGAAGCTCAATACGTTTTCTTATCTCTGAAAATCGCCAGAGACACTTGGTTCGACGATGAATTCTACAAGAGCTACTTCATGTGGGATTCTTTCACGGCTGGTGTTGCAGTCTCAATCATGAGAAACTCTGCTAATAAGAACAACAAAAATGGTGAGAACGATTTCGCGGAGATGGAGTATATGAACATAACCGTTGTTACTTCAAACAAACCTTATGGAAGATCAGATGGCTCAAATCCATTCTTTGATAATAGAAGAACTCCAAAATTTAACCTAGCCCTTGGAGGAGTTCACAGTGGTCATGTTCAGACGGGTTTGCGAGATCCAACTTGCTTACCGAAAAGCGGAATAGGAAGAGGAAAGTGTAAGGATGGTTACACACAAGAGATCTCTGGTTCTGATTCTGTTCGTGTTCTTGTTGCGACACGAGCTAAACCCAACATAAACATCAAAAGTAAACTTGACAGAGAATTCTATGTTGATTTCCTGGAAGTTTTGAATAGACCTGAAGAAACAGGGAGATTTAACTTTTCATCTCAGTTTCCATACTACAAAGAAGAATTGTTTAGACCAGATCTTAGCAAAACACGTCCCGGAAAGCCTGTTGTTTTCGATATGGACATGAGCGCCGGAGATTTCCTCTCTCTCTTCTACCTCCTCAAAGTTCCGGTGGATAAAATCGATTTGAAGGCTATTATTGTGAGCCCAACCGGTTGGGCTAATGCAGCAACAATAGACGTGGTCTATGATCTGCTTCATATGATGGGTCGGGACGATATTCCAGTGGGCTTGGGAGACATGTTGGCATTGAACCAATCCGACCCGATTTTTCCACCGGTTGGAGGTTGCAAGTACGTCAAGGCTATTCCACGAGGCTGTGGCGGATTTCTGGATTCCGACACTCTCTACGGTCTTGCTCGTGACCTTCCGAGAAGCCCTCGCAGATACACTGCAGAGAATTCAGTGACACATGGAGCTCCCAGGGACACTGATAGGCCTGAACTCCGACAACCTCTGGCTATTGAAGTTTGGCAAAATCTGACCAAATCTGGTAATGGAGTGTCTAAGATCACTGTACTAACCAATGGACCGTTAACTAACTTAGCCAAGATTATCTCATCAGATAAAAAATCATCCTCACTAATCAAGGAAGTTTACATCGTGGGTGGACATATAAACCGTGAGAAATCAGACAAAGGGAACATTTTCACGATTCCTTCAAATGCATATGCTGAATTCAATATGTTTCTTGATCCTTTAGCAGCTAAGACCGTTCTTGAATCCGCTCTAAACATCACACTCGTCCCTCTAGCAACACAACACAAGTTGAGTTCTTTCCAAACAATGCTTGATAGACTCTATTCCTCGACGAAAACACCAGAAGCTCGGTTTGTGAAACGGTTGCTTGTAAGATTGCAAGCTCTTCATCAGAAACACAGGAGATACACGCACATCGACATGTTCTTAGGGGAAGTTCTTGGAGCAGTTCTTTTGGGAGGCGATGACGCTTCACTGAAGCCGAAAATGAGAGCCGAGCACATAAAAGTGATCGCGGAAGGGGATGAATCGAGAGATGGTAAGATATTGATCGATAAACTGCGCGGCAAACAAATAAAGATACTCGAAAGAGTAGACCTAATAAGCATCTCTGAGAGTTTTGCTTCTAGACTCGATGATAAGAAACAATCTGCAGTAATAGGAAGCTTTGAAGAACAAAAGAAGATATGGAGCACACCACCAAGCTGACTGTTCAATAATATGATTATATTATGTAAAATAATTACCAGATTATTTTATATTCATTTCTGTTTCATTTGACTGTTTTCTTATAGTTATCCTTTTTCGTAGGATGATCATTTTCTATTCATTTGTGTTTTTTTTACTGTTTTCTTTTCACAATTTCTATCCAATTTTTAAGGCGACAAGCCAAATTGTATTACGTGTTTGATGACGGACTACATGATTAGTTCTAAATT
CDS Sequence
Protein Sequence