Gene Details:
- Gene ID: evm.TU.scaffold_143.120-Cmo
- Gene Symbol: CmSOS1
- Gene Name: The Na+/H+ antiporter SOS1
- Genome: Chrysanthemum morifolium genome
- Species: Chrysanthemum morifolium
Functional Descriptions:
- Overexpression of CmSOS1 confers waterlogging tolerance in Chrysanthemum.
- The conclusion was that the suppression of CmSOS1 resulted in a loss of control over ROS accumulation, suggesting that CmSOS1 acts to minimize the level of waterlogging-induced oxidative stress.
- We presented chrysanthemum homologs CmSOS1 and CmRCD1 coordinately mediate waterlogging tolerance by maintaining membrane integrity and minimizing the level of reactive oxygen species.
- The interaction of CmSOS1 with CmRCD1 contributes to the response of Chrysanthemum morifolium to waterlogging stress.
Function-related keywords:
- stress , oxidative-stress , tolerance , oxidative , stress-tolerance , reactive-oxygen-species , stress-response
Literature:
- Overexpression of CmSOS1 confers waterlogging tolerance in Chrysanthemum. DOI: 10.1111/jipb.12889 ; PMID: 31743556
Related News:
Gene Resources:
- NCBI ID: KP896477.1
- UniProt accessions: W8CNW3
Orthologs:
Sequences:
cDNA Sequence
- >evm.TU.scaffold_143.120-Cmo
ATGGGATCGGTGGCAAACAACGTGACGCTAAGGGCGGAGGAGGAGGGTGAAGAAGGTGGGTATAATCCGAGTGATGCGGTGTTATTCGTTGGGATCTCATTGGTTTTGGGAATTGCATCAAGACATTTGCTTAGAGGAACAAGAGTTCCCTACACTGTTGCGCTTCTTGTTCTTGGTATTGCCATGGGTTCTTTAGAATATGGAACAAGCCATCGGTTAGGAAAGGTTGGTGATGGAATTCGAATTTGGGCGAATATTGATCCTGATCTATTATTAGCTGTTTTTCTTCCTGCTCTTCTTTTTGAAAGTTCATTTTCCATGGAGGTGCACCAAATAAAGAAATGTATGGCGCAAATGGTAATTCTTGCCGGGCCCGGGGTTCTATTATCCACATTTATTCTTGGTGCAGCTTTGAAGCTAATTTTTCCATATAACTGGAGTTGGAAGACATCATTGCTGCTTGGAGGACTTCTAAGTGCTACAGATCCTGTTGCCGTGGTTGCTTTGTTAAAAGAGCTTGGTGCAAGCAAAAAACTAAGTACTATTATTGAAGGAGAATCATTAATGAATGATGGGACGGCCATCGTTGTCTATACACTTTTTTTTCGAATGGTAACTGGATCGACTTTCGGCTGGGGGGCTGTCATTAAGTTTTTAGCTACAGTATCTCTTGGAGCTGTAGGAATGGGTATTGCATTTGGTCTGCTGTCTTATTTGTGGCTTGGATTTATTTTCAATGATACGGTGATAGAAATCACATTGACTCTAGCTGTGAGCTACCTTGCTTACTTCACGGCTCAAGAAGGTGCTGATATTTCGGGAGTATTAACAGTTATGACGCTGGGAATGTTTTATGCTGCTGTTGCTAGAACTGCTTTCAAGGGTGAAGGACAGCAGAGCTTGCATCATTTCTGGGAAATGGTGTCATATATAGCTAACACACTTATCTTCATCTTGAGTGGAGTAGTCATAGCTGAAGGTATACTTGGAGGTGACAGCATTCTTAAACATGAGGAAAGTGCTTGGGGCTACCTCATCCTTCTATATGTATTGCTACAACTCTCAAGGGCCATAGTAGTTGGATCATTATATCCACTCTTGCGTTATTTTGGTTATGGCTTGGATTGGAAGGAAGCTATTGTTCTTGTGTGGTCTGGTTTAAGAGGTGCTGTGGCATTATCTCTTTCTCTGTCAGTTAAGCAATCTAGTGATTCATCACCATGGATTAATCATGAAACAGGAACGCTGTTTGTGTTCTTTACCGGTGGAATTGTGTTTCTAACACTTATTGTAAATGGATCAACTACTCAGTTTGTTTTGCGGATGCTAGACATGGATAAGCTGTCTGCAGCTAAGAGGCGTATACTGGATTTTACTAAGCATGAAATGATGAGCAAAGCACTGGAGGCATTTGGTGATCTTGTTGATGATGAGGAATTAGGACCTGCTGATTGGCCTACTGTCAAGAAATATATCACATGTTTGCATGATGCAGAAGGAGAACGTATCCACCCTCATACTGCAATAGGGAATGATAACGATGTTGAACACATGCATCTATCTGATATTCGTATACGATTTCTAAATGGTGTGCAAGCTGCTTATTGGGTAATGCTGGAAGAAGGTAGAATAACCCAGCATACAGCAAATATTCTGATGCAATCTGTTGATGAAGCACTTGATTTGGTCTCGTCTGAACCACTATGTGATTGGAATGGGTTGAAACCTAATGTTCATTTCCCTAATTATTACAAGTTTCTGCAAACAAGCACGTTTCCCCGAAAGCTTGTAACCTACTTCACTGTTGAAAGGTTGGAATCTGCTTGTTACATATCTGCTGCTTTTCTCCGTGCACATAGGATTGCACGACAGCAATTACATGACTTCATAGGTGATAGTGAAATAGCTTTGGCAATAATTAATGAGAGTGAAATAGAAGGAGAAGAAGCAAAAAAGTTCCTGGAAGATGTCCGCATTACTTTTCCACAGGTTTTGCGTGTCTTGAAAACAAGGCAAGTAACATATTCGGTGCTCAATCATCTAATTGAATATGTTCAAGATCTTGAAAAGTCTGGATTATTAGAGGAAAAGGAATTGGTTCATCTTCATGATGCTGTTCAGACTGACTTAAAGAAACTTCTACGAAATCCTCCTTTAGTTAAGATTCCAAAACCACATGATCTTATTAGTGCCAATCCTTTGTTGGGAGCCCTTCCATCAGCAGTACGTGAACAAATAGTGGGGTCCACCAAAGAGACAATGAAACAGCGTGGCGTGGCCCTTTATAGGGAGGGATCCAAACCAAACGGCATTTGGTTGATTTCTAATGGTGTGGTGAAGTGGGCAAGCAAGAAAATAAGAAACAAGCACTCCTTGCATCCAACATTTGCACACGGAAGTACTTTGGGCCTATATGAGGTGCTTCTTGGAAAGCCTTACATATGTGACATTGTTACCGATTCCGTGGTACTTGGTTTCTTTATTGAAGCTGAAAGGATATTGTCAGTGCTTGGAACAGATCATGCAGTTGAAGATTTTTTGTGGCAGGAAAGCTCAATTATACTCTCAAAACTTCTGCTTCCTCAAATCTTCGAGAAAATGTCAATGCATGACTTAAGGACTCTTGTAGCAGAAAGATCCACTATGAGCACGTACATAACTGGAGAATGCTTTGAAATACCTCAACATATGATTGGTCTATTATTGGAAGGATTCATCAAAACCCAGGGTACTTTAGAACTTATTACTACACCAGCTGCACTATTCCCTTCACACAGTGACCGAAGTTTTCGAGTGTCAGAAATAGCAGTTGCAAGCTTCTCTCATCATGCATCGTCCTACATAGTTGAGACAAGAGCAAGGGTGATCATGTTTGACATTGCGGGATTTGAGACCAGTAGAACCCTTCAAAGGAGAACATCTTCATTAATATCACATGTTGGTGATAACCCTCCAAGAACCCCCCCATCAAGAGAGCATAGTGGCCTTATGAGTTGGCCACAACGGCATACCAAGTCTAGGCAGCATCTTGAACATCCTAGTGAGATTGATCAGCACGGGAACAACTTTTCTGTTCGAGCAATGCAGCTAAGCATGTATGGAAGCATGATATCTAACGAAGGACAGAGTCCTCGTGCTTCTCCAAATGGACAAGGGAAGCCACCAAAGAAGCCATCTCACAGCAGGTCTTACTCAAGGGTCCCACCACCAACCGAGAGCCGGCGACTCATTTCAGTTAAATCAGAAGGTTCTACGACAGTGAGAAAAAACGTGAACGTGGGAGAAATAGCAAGTGAAAGTCTAATAGCTCCACGTGAAAAGCCAGACCCAAATGATACTCGTGAAATGGATTACTCGAGCGATGAGTCTGGAGCTGAGGATGAACATATAGTTAGAATCGATTCGCCAAGTACACTATCTTTCCCCCGAGCTCCCTAA
CDS Sequence
- >evm.TU.scaffold_143.120-Cmo
ATGGGATCGGTGGCAAACAACGTGACGCTAAGGGCGGAGGAGGAGGGTGAAGAAGGTGGGTATAATCCGAGTGATGCGGTGTTATTCGTTGGGATCTCATTGGTTTTGGGAATTGCATCAAGACATTTGCTTAGAGGAACAAGAGTTCCCTACACTGTTGCGCTTCTTGTTCTTGGTATTGCCATGGGTTCTTTAGAATATGGAACAAGCCATCGGTTAGGAAAGGTTGGTGATGGAATTCGAATTTGGGCGAATATTGATCCTGATCTATTATTAGCTGTTTTTCTTCCTGCTCTTCTTTTTGAAAGTTCATTTTCCATGGAGGTGCACCAAATAAAGAAATGTATGGCGCAAATGGTAATTCTTGCCGGGCCCGGGGTTCTATTATCCACATTTATTCTTGGTGCAGCTTTGAAGCTAATTTTTCCATATAACTGGAGTTGGAAGACATCATTGCTGCTTGGAGGACTTCTAAGTGCTACAGATCCTGTTGCCGTGGTTGCTTTGTTAAAAGAGCTTGGTGCAAGCAAAAAACTAAGTACTATTATTGAAGGAGAATCATTAATGAATGATGGGACGGCCATCGTTGTCTATACACTTTTTTTTCGAATGGTAACTGGATCGACTTTCGGCTGGGGGGCTGTCATTAAGTTTTTAGCTACAGTATCTCTTGGAGCTGTAGGAATGGGTATTGCATTTGGTCTGCTGTCTTATTTGTGGCTTGGATTTATTTTCAATGATACGGTGATAGAAATCACATTGACTCTAGCTGTGAGCTACCTTGCTTACTTCACGGCTCAAGAAGGTGCTGATATTTCGGGAGTATTAACAGTTATGACGCTGGGAATGTTTTATGCTGCTGTTGCTAGAACTGCTTTCAAGGGTGAAGGACAGCAGAGCTTGCATCATTTCTGGGAAATGGTGTCATATATAGCTAACACACTTATCTTCATCTTGAGTGGAGTAGTCATAGCTGAAGGTATACTTGGAGGTGACAGCATTCTTAAACATGAGGAAAGTGCTTGGGGCTACCTCATCCTTCTATATGTATTGCTACAACTCTCAAGGGCCATAGTAGTTGGATCATTATATCCACTCTTGCGTTATTTTGGTTATGGCTTGGATTGGAAGGAAGCTATTGTTCTTGTGTGGTCTGGTTTAAGAGGTGCTGTGGCATTATCTCTTTCTCTGTCAGTTAAGCAATCTAGTGATTCATCACCATGGATTAATCATGAAACAGGAACGCTGTTTGTGTTCTTTACCGGTGGAATTGTGTTTCTAACACTTATTGTAAATGGATCAACTACTCAGTTTGTTTTGCGGATGCTAGACATGGATAAGCTGTCTGCAGCTAAGAGGCGTATACTGGATTTTACTAAGCATGAAATGATGAGCAAAGCACTGGAGGCATTTGGTGATCTTGTTGATGATGAGGAATTAGGACCTGCTGATTGGCCTACTGTCAAGAAATATATCACATGTTTGCATGATGCAGAAGGAGAACGTATCCACCCTCATACTGCAATAGGGAATGATAACGATGTTGAACACATGCATCTATCTGATATTCGTATACGATTTCTAAATGGTGTGCAAGCTGCTTATTGGGTAATGCTGGAAGAAGGTAGAATAACCCAGCATACAGCAAATATTCTGATGCAATCTGTTGATGAAGCACTTGATTTGGTCTCGTCTGAACCACTATGTGATTGGAATGGGTTGAAACCTAATGTTCATTTCCCTAATTATTACAAGTTTCTGCAAACAAGCACGTTTCCCCGAAAGCTTGTAACCTACTTCACTGTTGAAAGGTTGGAATCTGCTTGTTACATATCTGCTGCTTTTCTCCGTGCACATAGGATTGCACGACAGCAATTACATGACTTCATAGGTGATAGTGAAATAGCTTTGGCAATAATTAATGAGAGTGAAATAGAAGGAGAAGAAGCAAAAAAGTTCCTGGAAGATGTCCGCATTACTTTTCCACAGGTTTTGCGTGTCTTGAAAACAAGGCAAGTAACATATTCGGTGCTCAATCATCTAATTGAATATGTTCAAGATCTTGAAAAGTCTGGATTATTAGAGGAAAAGGAATTGGTTCATCTTCATGATGCTGTTCAGACTGACTTAAAGAAACTTCTACGAAATCCTCCTTTAGTTAAGATTCCAAAACCACATGATCTTATTAGTGCCAATCCTTTGTTGGGAGCCCTTCCATCAGCAGTACGTGAACAAATAGTGGGGTCCACCAAAGAGACAATGAAACAGCGTGGCGTGGCCCTTTATAGGGAGGGATCCAAACCAAACGGCATTTGGTTGATTTCTAATGGTGTGGTGAAGTGGGCAAGCAAGAAAATAAGAAACAAGCACTCCTTGCATCCAACATTTGCACACGGAAGTACTTTGGGCCTATATGAGGTGCTTCTTGGAAAGCCTTACATATGTGACATTGTTACCGATTCCGTGGTACTTGGTTTCTTTATTGAAGCTGAAAGGATATTGTCAGTGCTTGGAACAGATCATGCAGTTGAAGATTTTTTGTGGCAGGAAAGCTCAATTATACTCTCAAAACTTCTGCTTCCTCAAATCTTCGAGAAAATGTCAATGCATGACTTAAGGACTCTTGTAGCAGAAAGATCCACTATGAGCACGTACATAACTGGAGAATGCTTTGAAATACCTCAACATATGATTGGTCTATTATTGGAAGGATTCATCAAAACCCAGGGTACTTTAGAACTTATTACTACACCAGCTGCACTATTCCCTTCACACAGTGACCGAAGTTTTCGAGTGTCAGAAATAGCAGTTGCAAGCTTCTCTCATCATGCATCGTCCTACATAGTTGAGACAAGAGCAAGGGTGATCATGTTTGACATTGCGGGATTTGAGACCAGTAGAACCCTTCAAAGGAGAACATCTTCATTAATATCACATGTTGGTGATAACCCTCCAAGAACCCCCCCATCAAGAGAGCATAGTGGCCTTATGAGTTGGCCACAACGGCATACCAAGTCTAGGCAGCATCTTGAACATCCTAGTGAGATTGATCAGCACGGGAACAACTTTTCTGTTCGAGCAATGCAGCTAAGCATGTATGGAAGCATGATATCTAACGAAGGACAGAGTCCTCGTGCTTCTCCAAATGGACAAGGGAAGCCACCAAAGAAGCCATCTCACAGCAGGTCTTACTCAAGGGTCCCACCACCAACCGAGAGCCGGCGACTCATTTCAGTTAAATCAGAAGGTTCTACGACAGTGAGAAAAAACGTGAACGTGGGAGAAATAGCAAGTGAAAGTCTAATAGCTCCACGTGAAAAGCCAGACCCAAATGATACTCGTGAAATGGATTACTCGAGCGATGAGTCTGGAGCTGAGGATGAACATATAGTTAGAATCGATTCGCCAAGTACACTATCTTTCCCCCGAGCTCCCTAA
Protein Sequence
- >evm.TU.scaffold_143.120-Cmo
MGSVANNVTLRAEEEGEEGGYNPSDAVLFVGISLVLGIASRHLLRGTRVPYTVALLVLGIAMGSLEYGTSHRLGKVGDGIRIWANIDPDLLLAVFLPALLFESSFSMEVHQIKKCMAQMVILAGPGVLLSTFILGAALKLIFPYNWSWKTSLLLGGLLSATDPVAVVALLKELGASKKLSTIIEGESLMNDGTAIVVYTLFFRMVTGSTFGWGAVIKFLATVSLGAVGMGIAFGLLSYLWLGFIFNDTVIEITLTLAVSYLAYFTAQEGADISGVLTVMTLGMFYAAVARTAFKGEGQQSLHHFWEMVSYIANTLIFILSGVVIAEGILGGDSILKHEESAWGYLILLYVLLQLSRAIVVGSLYPLLRYFGYGLDWKEAIVLVWSGLRGAVALSLSLSVKQSSDSSPWINHETGTLFVFFTGGIVFLTLIVNGSTTQFVLRMLDMDKLSAAKRRILDFTKHEMMSKALEAFGDLVDDEELGPADWPTVKKYITCLHDAEGERIHPHTAIGNDNDVEHMHLSDIRIRFLNGVQAAYWVMLEEGRITQHTANILMQSVDEALDLVSSEPLCDWNGLKPNVHFPNYYKFLQTSTFPRKLVTYFTVERLESACYISAAFLRAHRIARQQLHDFIGDSEIALAIINESEIEGEEAKKFLEDVRITFPQVLRVLKTRQVTYSVLNHLIEYVQDLEKSGLLEEKELVHLHDAVQTDLKKLLRNPPLVKIPKPHDLISANPLLGALPSAVREQIVGSTKETMKQRGVALYREGSKPNGIWLISNGVVKWASKKIRNKHSLHPTFAHGSTLGLYEVLLGKPYICDIVTDSVVLGFFIEAERILSVLGTDHAVEDFLWQESSIILSKLLLPQIFEKMSMHDLRTLVAERSTMSTYITGECFEIPQHMIGLLLEGFIKTQGTLELITTPAALFPSHSDRSFRVSEIAVASFSHHASSYIVETRARVIMFDIAGFETSRTLQRRTSSLISHVGDNPPRTPPSREHSGLMSWPQRHTKSRQHLEHPSEIDQHGNNFSVRAMQLSMYGSMISNEGQSPRASPNGQGKPPKKPSHSRSYSRVPPPTESRRLISVKSEGSTTVRKNVNVGEIASESLIAPREKPDPNDTREMDYSSDESGAEDEHIVRIDSPSTLSFPRAP