Information report for OsHAK12
Gene Details
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Functional Descriptions
- The OsHAK12 mutants showed sensitivity to salt toxicity and accumulated more Na(+) in the xylem sap, leading to excessive Na(+) in the shoots and less Na(+) in the roots.
- These findings indicate that OsHAK12 mediates Na(+) exclusion from shoot, possibly by retrieving Na(+) from xylem vessel thereby reducing Na(+) content in the shoots.
- In addition, OsHAK12 was strongly expressed in the root vascular tissues and induced by salt stress.
- Rice Na(+)-Permeable Transporter OsHAK12 Mediates Shoots Na(+) Exclusion in Response to Salt Stress.
- Unlike typical HAK family transporters that transport K(+), OsHAK12 is a Na(+)-permeable plasma membrane transporter.
Functional Keywords
- xylem , root , salt , salt-stress , stress , transporter , plasma-membrane
Literature and News
Sequences
cDNA Sequence
- >LOC_Os08g10550.1
CTGCATATTGCCTTCTCTTCCCCCCTCTCTCTCTCTCTCTCTCTCTCTCTCTCCGCACCATAAATCATTTCTCATTTTTTTCCCCATCCTCCCACTCTCTTCTGTCAAGATTTCTGCGCTTTTGCCAATTGGACGGCGGCCCACCTCGGCGGCTGTGCTGTTGGTGGCGACTGTGGCATCAAAGCTTGATCTTGGGGAGGCTTTGGGGAGGAAAGATTGAGATTTTGGTTGGTTTTCTTGGTTCTAGAGGAGGTTTTCTTGGTTGATATTTCCGGGTAGCTCGCCCAATCAGTCCCAAATCCGATTTTCTGGGCTCTGATTTGGAGATTATTTTTCTTTAGCTGTGATTATTGGTTCTTCGCTCCTGTACCAAAGCTCCCGTTTTTGGTTCTTGTGGGGATCAAAGAGGGAGGGAGTTCGATCTTGGAAAGAGTTTAAGTGTCAAGATTCGAAGTGGCATTCTGATTTGGATTATGCAAGCTCATGTTCTTGGATTATCTCTTCGAAGATTAGCCTTTGCGTAGACCAAAGTGACAAGAGGTTTTGGTGGTGGATTTGAGGATTCGGGTTGGAATTTTCCGGTGAGAGAGAGTTCTACGAGTTGTGGTTGATCTTTGCTTCGGTGGAGAAGCTCTGGAGTTCCATTTGGGAAGCTGGAAGCTTCCATTTCTGGTTCGAGCAAAGGTCGCTTTCAGCCACTTGGAGAGTTCCCTCGTGTGAGGATTCGAGGTTGAAGGAGACCCACCCATGGCGTCTATTTCGGATAGCGAGACGACGAACCATGGGAGCATATGGGATTTGGATCAGAACCTTGATCAGCCCATGGATGAGGAGGCTAGCCGGCTCAAGAACATGTACACAGAGAAGAAGTTCTCGTCGATTTTGTTATTACGGCTCGCGTTTCAGAGCCTTGGTGTTGTCTTCGGTGACTTAGGTACATCTCCATTATATGTCTTCTACAATATATTCCCTCATGGGGTCGATGATGATGAGGATGTTATTGGGGCTCTTTCCTTGATCATTTACACCCTCACCCTCATTCCTCTGATGAAGTATGTTTTTGTTGTCTTGCGGGCAAATGATAATGGCCAAGGTGGCACATTCGCTCTCTATTCTTTACTTTGCCGGCATGCAAAGCAAAAATAAAGAGATGGCTAGAGGGACATGTGTATAAAAAGAACTGTCTTCTTATTCTAGTTCTCATTGGTACCTGCACAGCCATTGGAGATGGGATCCTTACTCCTGCTATATCAGTTCTCTCTGCATCAGGTGGAATAAGAGTTCAGAATCAGAAGATGAGTACAGATGTGGTTGTAGTCGTTGCTGTGATCATACTAATTGGCTTATTCAGCATGCAACACTATGGTACAGATAAAGTTGGATGGCTCTTTGCACCTATAGTGCTCCTTTGGTTTATCCTAATTGGGACTATTGGGGCACTGAACATACACAAGTACAACAGTTCAGTCCTAAAAGCATATAATCCAGTCTATATCTATCGGTATTTCCGACGAGGGAAGTCTGAGAGCTGGACCTCCCTTGGAGGAATCATGCTTAGCATCACAGGGACTGAAGCATTATATGCTGACTTATGTCATTTCCCTGTCTTGGCCATTCAGATTGCTTTCACGTTAGTGGTGTTCCCTTGCCTTCTCCTAGCATACACCGGACAGGCTGCGTACATTATTAGCAACAAGGACCATGTAGTTGATGCCTTTTATCGCTCCATTCCAGATACCATATACTGGCCAGTATTCATCATTGCAACTCTTGCAGCAATAGTTGCAAGTCAAGCCACTATATCTGCTACATACTCGATAATAAAGCAAGCTCTCGCACTGGGCTGTTTTCCTCGAGTCAGTGTCGTCCACACCTCAAAGAAATTTCTCGGGCAGATTTACATCCCTGACATCAACTGGGTACTTATGATTCTTTGCATTGCAGTAACAGCTGGATTCAAAAACCAAAGTCAGATAGGAAATGCATATGGAACTGCAGTGGTGATAGTTATGCTGGTCACGACATTTCTCATGGTCCCAATAATGCTGTTAGTATGGAAAAGCCACTGGATCCTTGTTGTCATTTTTATCGTGCTCTCGTTGATGGTGGAGCTCCCATACTTCACAGCCTGCATTAACAAGGTTGACCAAGGTGGTTGGGTTCCACTTGTTGTTGCAACTACCTGCTTCATCATCATGTATGTGTGGCATTTCTGCACCGTGAAGCGGTATGAATTTGAGATGCACAGCAAGGTTTCCATGGCCTGGATTTTAGGACTCGGACCAAGCCTCGGCCTCGTCAGGGTGCCTGGGATAGGCTTCGTGTACACCGAGCTGGCAAGTGGAGTGCCTCATATCTTCTCCCATTTCATCACCAACCTCCCTGCCATCCACTCGGTCGTCGTCTTCGTTTGTGTCAAGTACCTCCCAGTATATACAGTCCCAACCGAAGAAAGGTTCATCGTGAAGAGGATCGGGCCAAAGAACTTCCACATGTTCCGTTGTGTCGCGAGGTACGGGTACAAGGACATCCACAAGAGAGATGACGACTTCGAGAAGATGCTCCTTGACAGGCTCTTGCTCTTCGTCAGGCTGGAGAGCATGATGGATGACTATTCGGACTCCGAAGACTTCACCATGATGGAGGAGAAGACCCAGGGATCAAGCAATGCGCTGCTGCTAACTGGAAAGGCTGGGAGCAACACAATGTGCTCCACTGGTGACCTGAGCTACTCATCACAGGACTCCATTGTTCCAGCCAAGTCACCCATAAGAGGGAACAGCCTGACAAGGTACTCGAGCCAGACGTTCGGCGATGAACTGGAGTTCCTGAACCTGGAGTTCCTGAACCGGTGCAAGGACGCTGGTGTCGTGCACATCCTGGGGAACACTGTGGTTCACGCGCGCCCTGATTCAGGGATCATCAAGAAGGTTGCTGTGAATTATGTGTTTGCATTCCTCAGGAAGATCTGCAGGGAGAACAGTGTGATATTCAATGTTCCCCATGAAAGTCTTCTCAATGTAGGCCAGATATACTATATATGAACATTTTTTGTTCTTTGGTTTCTGATTCAGAGAGTGAGCAGGTGTGACAAGAGAGTGAGCAGGTGTGACATTCTGCTGTGTGTAGGCCTAGATGAACTTGTAAATGATCAGTTCTAGAGTAAGGTTCATTCATCATTTTTTTCCCCTGTCAGTATGAAATGATGCTGTAGATGCCATGTCCTCTGTCAGCCTAACCAGTAAAGGAGAAGAGAAAAGGACTGCATAATTCAAATGCTTATTTCAAGTTCATACTGAAATGATGCTGTAGAATCCATGTCCTCTGTCAGCTTAACCTATCAGTATGAACTTGTAAACTGTTGGGTTTCAAATAGTAGAATGCTTCTGATATGGTGCCGATTG
CDS Sequence
- >LOC_Os08g10550.1
ATGAGTACAGATGTGGTTGTAGTCGTTGCTGTGATCATACTAATTGGCTTATTCAGCATGCAACACTATGGTACAGATAAAGTTGGATGGCTCTTTGCACCTATAGTGCTCCTTTGGTTTATCCTAATTGGGACTATTGGGGCACTGAACATACACAAGTACAACAGTTCAGTCCTAAAAGCATATAATCCAGTCTATATCTATCGGTATTTCCGACGAGGGAAGTCTGAGAGCTGGACCTCCCTTGGAGGAATCATGCTTAGCATCACAGGGACTGAAGCATTATATGCTGACTTATGTCATTTCCCTGTCTTGGCCATTCAGATTGCTTTCACGTTAGTGGTGTTCCCTTGCCTTCTCCTAGCATACACCGGACAGGCTGCGTACATTATTAGCAACAAGGACCATGTAGTTGATGCCTTTTATCGCTCCATTCCAGATACCATATACTGGCCAGTATTCATCATTGCAACTCTTGCAGCAATAGTTGCAAGTCAAGCCACTATATCTGCTACATACTCGATAATAAAGCAAGCTCTCGCACTGGGCTGTTTTCCTCGAGTCAGTGTCGTCCACACCTCAAAGAAATTTCTCGGGCAGATTTACATCCCTGACATCAACTGGGTACTTATGATTCTTTGCATTGCAGTAACAGCTGGATTCAAAAACCAAAGTCAGATAGGAAATGCATATGGAACTGCAGTGGTGATAGTTATGCTGGTCACGACATTTCTCATGGTCCCAATAATGCTGTTAGTATGGAAAAGCCACTGGATCCTTGTTGTCATTTTTATCGTGCTCTCGTTGATGGTGGAGCTCCCATACTTCACAGCCTGCATTAACAAGGTTGACCAAGGTGGTTGGGTTCCACTTGTTGTTGCAACTACCTGCTTCATCATCATGTATGTGTGGCATTTCTGCACCGTGAAGCGGTATGAATTTGAGATGCACAGCAAGGTTTCCATGGCCTGGATTTTAGGACTCGGACCAAGCCTCGGCCTCGTCAGGGTGCCTGGGATAGGCTTCGTGTACACCGAGCTGGCAAGTGGAGTGCCTCATATCTTCTCCCATTTCATCACCAACCTCCCTGCCATCCACTCGGTCGTCGTCTTCGTTTGTGTCAAGTACCTCCCAGTATATACAGTCCCAACCGAAGAAAGGTTCATCGTGAAGAGGATCGGGCCAAAGAACTTCCACATGTTCCGTTGTGTCGCGAGGTACGGGTACAAGGACATCCACAAGAGAGATGACGACTTCGAGAAGATGCTCCTTGACAGGCTCTTGCTCTTCGTCAGGCTGGAGAGCATGATGGATGACTATTCGGACTCCGAAGACTTCACCATGATGGAGGAGAAGACCCAGGGATCAAGCAATGCGCTGCTGCTAACTGGAAAGGCTGGGAGCAACACAATGTGCTCCACTGGTGACCTGAGCTACTCATCACAGGACTCCATTGTTCCAGCCAAGTCACCCATAAGAGGGAACAGCCTGACAAGGTACTCGAGCCAGACGTTCGGCGATGAACTGGAGTTCCTGAACCTGGAGTTCCTGAACCGGTGCAAGGACGCTGGTGTCGTGCACATCCTGGGGAACACTGTGGTTCACGCGCGCCCTGATTCAGGGATCATCAAGAAGGTTGCTGTGAATTATGTGTTTGCATTCCTCAGGAAGATCTGCAGGGAGAACAGTGTGATATTCAATGTTCCCCATGAAAGTCTTCTCAATGTAGGCCAGATATACTATATATGA
Protein Sequence
- >LOC_Os08g10550.1
MSTDVVVVVAVIILIGLFSMQHYGTDKVGWLFAPIVLLWFILIGTIGALNIHKYNSSVLKAYNPVYIYRYFRRGKSESWTSLGGIMLSITGTEALYADLCHFPVLAIQIAFTLVVFPCLLLAYTGQAAYIISNKDHVVDAFYRSIPDTIYWPVFIIATLAAIVASQATISATYSIIKQALALGCFPRVSVVHTSKKFLGQIYIPDINWVLMILCIAVTAGFKNQSQIGNAYGTAVVIVMLVTTFLMVPIMLLVWKSHWILVVIFIVLSLMVELPYFTACINKVDQGGWVPLVVATTCFIIMYVWHFCTVKRYEFEMHSKVSMAWILGLGPSLGLVRVPGIGFVYTELASGVPHIFSHFITNLPAIHSVVVFVCVKYLPVYTVPTEERFIVKRIGPKNFHMFRCVARYGYKDIHKRDDDFEKMLLDRLLLFVRLESMMDDYSDSEDFTMMEEKTQGSSNALLLTGKAGSNTMCSTGDLSYSSQDSIVPAKSPIRGNSLTRYSSQTFGDELEFLNLEFLNRCKDAGVVHILGNTVVHARPDSGIIKKVAVNYVFAFLRKICRENSVIFNVPHESLLNVGQIYYI*