Information report for OsSUV3;SUV3
Gene Details
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Functional Descriptions
- The possible mechanism could be that OsSUV3 helicase functions in salinity stress tolerance by improving photosynthesis and antioxidant machinery in transgenic rice.
- OsSUV3 dual helicase functions in salinity stress tolerance by maintaining photosynthesis and antioxidant machinery in rice (Oryza sativa L. cv. IR64).
- Rice SUV3 is a bidirectional helicase that binds both DNA and RNA.
- Salt tolerant SUV3 overexpressing transgenic rice plants conserve physicochemical properties and microbial communities of rhizosphere.
- In the present study, SUV3 overexpressing salt tolerant transgenic rice evaluated in New Delhi and Cuttack soil conditions for their effects on physicochemical and biological properties of rhizosphere.
- The present findings suggest ecologically pertinent of salt tolerant SUV3 rice to sustain the health and usual functions of the rhizospheric organisms.
- In response to stress, OsSUV3 rice plants maintained plant hormone levels that regulate the expression of several stress-induced genes and reduce adverse effects of salt on plant growth and development and therefore sustains crop productivity.
- OsSUV3 transgenic rice maintains higher endogenous levels of plant hormones that mitigates adverse effects of salinity and sustains crop productivity.
- Here, we report further analysis of the transgenic OsSUV3 rice plants under salt stress.
- A similar trend of endogenous plant hormones profile was also reflected in the T2 generation of OsSUV3 transgenic rice under defined parameters and stress condition.
Functional Keywords
- photosynthesis , salinity , salinity-stress , bidirectional-helicase , helicase , salt , growth , salt-stress , stress , development , plant-growth
Literature and News
- OsSUV3 dual helicase functions in salinity stress tolerance by maintaining photosynthesis and antioxidant machinery in rice (Oryza sativa L. cv. IR64) . DOI: 10.1111/tpj.12277 ; PMID: 23808500
- Rice SUV3 is a bidirectional helicase that binds both DNA and RNA . DOI: 10.1186/s12870-014-0283-6 ; PMID: 25311683
- Salt tolerant SUV3 overexpressing transgenic rice plants conserve physicochemical properties and microbial communities of rhizosphere . DOI: 10.1016/j.chemosphere.2014.08.011 ; PMID: 25303666
- OsSUV3 transgenic rice maintains higher endogenous levels of plant hormones that mitigates adverse effects of salinity and sustains crop productivity . DOI: 10.1186/s12284-014-0017-2 ; PMID: 25184028
Gene Resources
- UniProt: Q10D00
- EMBL: AC087852, AP008209, AP014959
- AlphaFoldDB: Q10D00
- EnsemblPlants: Os03t0746500-01
- Gramene: Os03t0746500-01
- KEGG: dosa:Os03g0746500
- Orthologous matrix: QPANWYT
- InterPro: IPR001650, IPR022192, IPR027417
- PANTHER: PTHR12131, PTHR12131:SF1
- SUPFAM: SSF52540
- PROSITE: PS51192, PS51194
- Gene3D: 1.20.272.40, 1.20.58.1080, 3.40.50.300
- OrthoDB: Q10D00
- SWISS-MODEL: Q10D00
- Conserved Domain Database: cd17913, cd18805
- eggNOG: KOG0953
Sequences
cDNA Sequence
- >LOC_Os03g53500.1
AATCACCTCCGCTTCCTCCGCCGCCTCGGCGCGAAGGCCATCGCCGGATTCCCCGCTTCCTCCGCCTGGATTGCTCCGCACGCAATCGGCCCTGGTTTCTTCCCGGCGGCGTGGTCGTCGCTGTTCCCCACCCGCCGCCGGCGCCGCCGCAGCCGGCGTCTGAGTTGAGGGAGGAGGGAGGAACGGCGGCGCAATGGCGGTGGCTGCGGCGCTGCTGCGCCGGAGGGCGCTCTATTCGGCCCTCGCGTCGCCCTCTTGGCTCCATGATACCAGTTCCTGCTACATTTGCTCCATTTCTGGTACACATTCTTTGGTCAACCATCCCAATTTGAGATTACAGAGGGGCTACCACAACTCTGGGAAGTTTGATTTGACCGACTTGACCCATCCTCATATATGGTATCCGAATGCCCGAGAAAAGAAGCGCAATGTATTTTTACATGTCGGTCCTACAAATAGTGGGAAGACACATAATGCTCTCAAGAGACTAGAAGCAAGTTCTTCAGGAGTATACTGTGGACCTCTTAGATTGTTGGCACGGGAGGTAGCTCAAAGACTAAACAAAGCTAATGTCCCTTGTAACTTAATTACTGGACAAGAAAGGGAGGAAATTGAAGGTGCAAAGCATAGCTCAGTGACAGTTGAGATGGCCGACATGACAACTGAGTATCAATGTGCCGTTATTGATGAAATTCAGATGGTTGGCTGTAGATCGAGGGGTTTTTCATTCACTCGTGCACTTCTGGGGCTTTGTTCAGATGAGCTTCATGTTTGTGGTGACCCAGCTGTGGTTCCTCTCATTCAGCGAATTCTCGAACCTACTGGTGATGTGGTTACGGTCCAATATTATGAGAGGCTATCTCCATTGGTTCCTCTGAAGACTACTCTCGGGTCTTTCTCTAACATTAAGGCAGGGGATTGCGTTGTAACGTTCTCACGACGATCTATCTATATGCTTAAGAGAAGAATTGAAATGGGGGGTAAGCATCTTTGTTCTGTAGTCTATGGCTCATTGCCACCAGAAACTCGAACAAAACAGGCGACAATGTTCAATGATCAAGATAGTAACCTTAATGTGTTAGTGGCTAGTGATGCTATTGGAATGGGTCTTAATCTGAACATTTCTAGAATCATTTTCTCTACACTGGAGAAGTTTGATGGCATCTGCAACAGGGAACTAACTGTGGCCGAAATCAAACAGATTGCTGGAAGGGCTGGGAGATATGGATCTAAATTCCCAGTTGGTGAAGTGACCTGTCTAAATTCTGATCATCTTCCATTACTACACTCTGCTCTGAAATCACCTTCTCCCATTATAGAGCGCGCTGGACTTTTCCCCACATTCGATGTATTATCTCTGTACTCACGATTGCATGGAACTGATTTTTTTCAACCTATATTGGAGCGTTTCTTGGACAAGGCTAAACTATCTCCAGACTATTTCATTGCTGATTGTGAAGATATGCTGAAAGTTGCTGCTATTGTTGATGAGCTACCACTTGGACTATATGATAAATACCTCTTCTGTCTCAGTCCTGTGGACATTCGTGATGATATATCTACTAAAGGATTAATTCAGTTTGCAGAAAATTATGCAAAGAAAGGTATTGTTCGACTCAAAGAGATATTTACACCTGGGACACTCCAAGTGCCTAAATCGCACAATCAACTGAAGGAGCTTGAATCGATTCACAAGGTGCTAGAGTTGTATGTGTGGTTGAGCTTCAGATTGGAGGATTCCTATCCAGACCGTGAATTGGCAGCTTCCCAAAAGTCAATCTGTAGCATGTTGATTGAAGAATATCTGGAAAGGTCCGGCTGGCAGCAAAATGGACGAAAGGACTTTTTGCAGAAGCCAAAAAGACTACACCAAGAATATGATGCATCACAATTGCGCAAATATTTTCAAGAAATTGATGTGAGATCAAAATAAGATGCTTATGCTAGAAAGTCGCCTCACAATATCTGCTTCCGGACAACGGATTTGCTCCTGTTTGCATACGTTATGGTCGAGGAGAGGCGACAAGCCGACAATACATTTTATGGATGACAGGAGTCAAAAGAATATCCTTTGCCGACAATACATTTTATGGATGACAGGAGTCAAAAGAATCATCCTTTGCCAAAACCATTTAATTGGCCTAAGCAGTAAATGTGGCAGCACCTGTCCTCCATCCAAACAATTTTGTAGCTATTCTTTCATTACACTTTATTTTAATTATTTCTAACACAGATGGAGCTGTACATCACGATGAAACGTCTAAATGTTCGTTAAAGTTATTAACATAGACAGGACGAAGCCACCTGTAAACTTTGCGGTTGTAACTCTTTGTGTTATGAAAGGTGTAAATATGTCAAAATGACAGTTGTCAAGTGATGTTTCTTGGGCAGCTAAACACCTGATTTGTGCATGCC
CDS Sequence
- >LOC_Os03g53500.1
ATGGCGGTGGCTGCGGCGCTGCTGCGCCGGAGGGCGCTCTATTCGGCCCTCGCGTCGCCCTCTTGGCTCCATGATACCAGTTCCTGCTACATTTGCTCCATTTCTGGTACACATTCTTTGGTCAACCATCCCAATTTGAGATTACAGAGGGGCTACCACAACTCTGGGAAGTTTGATTTGACCGACTTGACCCATCCTCATATATGGTATCCGAATGCCCGAGAAAAGAAGCGCAATGTATTTTTACATGTCGGTCCTACAAATAGTGGGAAGACACATAATGCTCTCAAGAGACTAGAAGCAAGTTCTTCAGGAGTATACTGTGGACCTCTTAGATTGTTGGCACGGGAGGTAGCTCAAAGACTAAACAAAGCTAATGTCCCTTGTAACTTAATTACTGGACAAGAAAGGGAGGAAATTGAAGGTGCAAAGCATAGCTCAGTGACAGTTGAGATGGCCGACATGACAACTGAGTATCAATGTGCCGTTATTGATGAAATTCAGATGGTTGGCTGTAGATCGAGGGGTTTTTCATTCACTCGTGCACTTCTGGGGCTTTGTTCAGATGAGCTTCATGTTTGTGGTGACCCAGCTGTGGTTCCTCTCATTCAGCGAATTCTCGAACCTACTGGTGATGTGGTTACGGTCCAATATTATGAGAGGCTATCTCCATTGGTTCCTCTGAAGACTACTCTCGGGTCTTTCTCTAACATTAAGGCAGGGGATTGCGTTGTAACGTTCTCACGACGATCTATCTATATGCTTAAGAGAAGAATTGAAATGGGGGGTAAGCATCTTTGTTCTGTAGTCTATGGCTCATTGCCACCAGAAACTCGAACAAAACAGGCGACAATGTTCAATGATCAAGATAGTAACCTTAATGTGTTAGTGGCTAGTGATGCTATTGGAATGGGTCTTAATCTGAACATTTCTAGAATCATTTTCTCTACACTGGAGAAGTTTGATGGCATCTGCAACAGGGAACTAACTGTGGCCGAAATCAAACAGATTGCTGGAAGGGCTGGGAGATATGGATCTAAATTCCCAGTTGGTGAAGTGACCTGTCTAAATTCTGATCATCTTCCATTACTACACTCTGCTCTGAAATCACCTTCTCCCATTATAGAGCGCGCTGGACTTTTCCCCACATTCGATGTATTATCTCTGTACTCACGATTGCATGGAACTGATTTTTTTCAACCTATATTGGAGCGTTTCTTGGACAAGGCTAAACTATCTCCAGACTATTTCATTGCTGATTGTGAAGATATGCTGAAAGTTGCTGCTATTGTTGATGAGCTACCACTTGGACTATATGATAAATACCTCTTCTGTCTCAGTCCTGTGGACATTCGTGATGATATATCTACTAAAGGATTAATTCAGTTTGCAGAAAATTATGCAAAGAAAGGTATTGTTCGACTCAAAGAGATATTTACACCTGGGACACTCCAAGTGCCTAAATCGCACAATCAACTGAAGGAGCTTGAATCGATTCACAAGGTGCTAGAGTTGTATGTGTGGTTGAGCTTCAGATTGGAGGATTCCTATCCAGACCGTGAATTGGCAGCTTCCCAAAAGTCAATCTGTAGCATGTTGATTGAAGAATATCTGGAAAGGTCCGGCTGGCAGCAAAATGGACGAAAGGACTTTTTGCAGAAGCCAAAAAGACTACACCAAGAATATGATGCATCACAATTGCGCAAATATTTTCAAGAAATTGATGTGAGATCAAAATAA
Protein Sequence
- >LOC_Os03g53500.1
MAVAAALLRRRALYSALASPSWLHDTSSCYICSISGTHSLVNHPNLRLQRGYHNSGKFDLTDLTHPHIWYPNAREKKRNVFLHVGPTNSGKTHNALKRLEASSSGVYCGPLRLLAREVAQRLNKANVPCNLITGQEREEIEGAKHSSVTVEMADMTTEYQCAVIDEIQMVGCRSRGFSFTRALLGLCSDELHVCGDPAVVPLIQRILEPTGDVVTVQYYERLSPLVPLKTTLGSFSNIKAGDCVVTFSRRSIYMLKRRIEMGGKHLCSVVYGSLPPETRTKQATMFNDQDSNLNVLVASDAIGMGLNLNISRIIFSTLEKFDGICNRELTVAEIKQIAGRAGRYGSKFPVGEVTCLNSDHLPLLHSALKSPSPIIERAGLFPTFDVLSLYSRLHGTDFFQPILERFLDKAKLSPDYFIADCEDMLKVAAIVDELPLGLYDKYLFCLSPVDIRDDISTKGLIQFAENYAKKGIVRLKEIFTPGTLQVPKSHNQLKELESIHKVLELYVWLSFRLEDSYPDRELAASQKSICSMLIEEYLERSGWQQNGRKDFLQKPKRLHQEYDASQLRKYFQEIDVRSK*