Difference between revisions of "Os03g0285700"
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OsAPX1 can affect the ability of rice plants to withstand chilling at the booting stage. When overexpress OsAPX1 in rice, it can increase APX activity which determine the antioxidant capacity. The levels of H2O2 and the MDA content increased by 1.5-fold and twofold, respectively in WT plants subjected to a 12℃ treatment for six days. In contrast, transgenic lines showed small changes in H2O2 levels and MDA content under cold stress, and H2O2 levels and MDA content were significantly lower than in WT plants. And the spikelet fertility was significantly higher in transgenic lines than in WT plants after a 12℃ treatment for six days. The reason is the APX activity enhances H2O2-scavenging capacity and protects spikelets, thereby increasing spikelet fertility under cold stress[2]. | OsAPX1 can affect the ability of rice plants to withstand chilling at the booting stage. When overexpress OsAPX1 in rice, it can increase APX activity which determine the antioxidant capacity. The levels of H2O2 and the MDA content increased by 1.5-fold and twofold, respectively in WT plants subjected to a 12℃ treatment for six days. In contrast, transgenic lines showed small changes in H2O2 levels and MDA content under cold stress, and H2O2 levels and MDA content were significantly lower than in WT plants. And the spikelet fertility was significantly higher in transgenic lines than in WT plants after a 12℃ treatment for six days. The reason is the APX activity enhances H2O2-scavenging capacity and protects spikelets, thereby increasing spikelet fertility under cold stress[2]. | ||
| − | + | H2O2 may be involved in the regulation of HS- and Cd-increased APX and GR activities in leaves of rice seedlings.[4] | |
===Expression=== | ===Expression=== | ||
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[3]Ganesh Kumar Agrawal, Nam-Soo Jwac et al.Importance of ascorbate peroxidases OsAPX1 and OsAPX2 in the rice pathogen response pathways and growth and reproduction revealed by their transcriptional profiling.Gene, 2003, 322: 93-103. | [3]Ganesh Kumar Agrawal, Nam-Soo Jwac et al.Importance of ascorbate peroxidases OsAPX1 and OsAPX2 in the rice pathogen response pathways and growth and reproduction revealed by their transcriptional profiling.Gene, 2003, 322: 93-103. | ||
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| + | [4]Ting-Shao Chou;Yun-Yang Chao;Ching Huei Kao | ||
| + | Involvement of hydrogen peroxide in heat shock- and cadmium-induced expression of ascorbate peroxidase and glutathione reductase in leaves of rice seedlings | ||
| + | Journal of Plant Physiology, 2012, 169(5): 478-486 | ||
==Structured Information== | ==Structured Information== | ||
Revision as of 12:10, 10 June 2014
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Contents
Annotated Information
Function
OsAPX1 is a member of ascorbate peroxidase (APX) family. It is a haeme-containing enzyme of the ascorbate glutathione cycle that detoxifies reactive oxygen species in plants by catalyzing the conversion of hydrogen peroxide to water using ascorbate as a specific electron donor. The OsAPX1 expression is stress regulated[1]. OsAPX1 can affect the ability of rice plants to withstand chilling at the booting stage. When overexpress OsAPX1 in rice, it can increase APX activity which determine the antioxidant capacity. The levels of H2O2 and the MDA content increased by 1.5-fold and twofold, respectively in WT plants subjected to a 12℃ treatment for six days. In contrast, transgenic lines showed small changes in H2O2 levels and MDA content under cold stress, and H2O2 levels and MDA content were significantly lower than in WT plants. And the spikelet fertility was significantly higher in transgenic lines than in WT plants after a 12℃ treatment for six days. The reason is the APX activity enhances H2O2-scavenging capacity and protects spikelets, thereby increasing spikelet fertility under cold stress[2].
H2O2 may be involved in the regulation of HS- and Cd-increased APX and GR activities in leaves of rice seedlings.[4]
Expression
Different APX isoforms are present in discrete subcellular compartments in rice and their expression is stress regulated.And OsAPX1 exist in the cytoplasm of rice. OsAPX1 show a weak constitutive expression in leaves. Their transcripts were up-regulated upon wounding (by cut), and diverse signals such as salicylic acid (SA), ethylene (using the ethylene generator, ethephon), abscisic acid (ABA), hydrogen peroxide, copper sulfate, protein phosphatase (PP) inhibitors, cantharidin (CN), endothall (EN) and okadaic acid (OA), and blast pathogen (Magnaporthe grisea) attack, but surprisingly not by jasmonic acid (JA). OsAPX1 mRNAs expression manifested a clear rhythmicity under light/dark cycle[3].
Evolution
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Labs working on this gene
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References
[1]Saurabh Pandey; Yogesh Kumar Negi,et al.Modeling and phylogenetic analysis of cytosolic ascorbate peroxidase (OsAPX1) from rice reveal signature motifs that may play a role in stress tolerance.Bioinformation,2014,10(3):119-123
[2]Yutaka Sato;Yukari Masuta et al.Enhanced chilling tolerance at the booting stage in rice by transgenic overexpression of the ascorbate peroxidase gene, OsAPXa.Plant Cell Reports, 2011, 30(3): 399-406.
[3]Ganesh Kumar Agrawal, Nam-Soo Jwac et al.Importance of ascorbate peroxidases OsAPX1 and OsAPX2 in the rice pathogen response pathways and growth and reproduction revealed by their transcriptional profiling.Gene, 2003, 322: 93-103.
[4]Ting-Shao Chou;Yun-Yang Chao;Ching Huei Kao
Involvement of hydrogen peroxide in heat shock- and cadmium-induced expression of ascorbate peroxidase and glutathione reductase in leaves of rice seedlings Journal of Plant Physiology, 2012, 169(5): 478-486
Structured Information
| Gene Name |
Os03g0285700 |
|---|---|
| Description |
Similar to L-ascorbate peroxidase |
| Version |
NM_001056304.1 GI:115452336 GeneID:4332474 |
| Length |
3335 bp |
| Definition |
Oryza sativa Japonica Group Os03g0285700, complete gene. |
| Source |
Oryza sativa Japonica Group ORGANISM Oryza sativa Japonica Group
Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;
Spermatophyta; Magnoliophyta; Liliopsida; Poales; Poaceae; BEP
clade; Ehrhartoideae; Oryzeae; Oryza.
|
| Chromosome | |
| Location |
Chromosome 3:9893999..9897333 |
| Sequence Coding Region |
9894067..9894185,9894281..9894455,9894550..9894615,9895972..9896020,9896354..9896439 |
| Expression | |
| Genome Context |
<gbrowseImage1> name=NC_008396:9893999..9897333 source=RiceChromosome03 preset=GeneLocation </gbrowseImage1> |
| Gene Structure |
<gbrowseImage2> name=NC_008396:9893999..9897333 source=RiceChromosome03 preset=GeneLocation </gbrowseImage2> |
| Coding Sequence |
<cdnaseq>atggctaagaactaccccgtcgtgagcgccgagtaccaggaggccgtcgagaaggccaggcagaagctgcgcgccctcatcgccgagaagagctgcgcccctctcatgctccgcctcgcgtggcactcggcggggacgttcgacgtgtcgtcgaagaccgggggcccgttcgggacgatgaagaccccggcggagctgtcgcacgccgccaacgcggggctggacatcgcggtgcggatgctcgagcccatcaaggaggagatacccaccatctcctacgccgatttctaccagcttgccggagttgtggccgtcgaggtgtccggtggacctgccgtccccttccacccaggaagggaggacaaacctgcacccccacctgagggccgtcttcctgatgctaccaagggttctgaccacctaaggcaggtcttcggtgcgcagatgggcttgagtgatcaggacattgttgccctctctggcggtcacaccctgggaaggtgccacaaggaaagatctggttttgagggaccttggacaagaaaccctctgcagtttgacaactcttacttcacggagcttctgagtggtgacaaggagggccttcttcagcttcctagtgacaaagccctgctgagtgaccctgccttccgcccactcgtcgagaaatatgctgcagatgagaaggctttctttgaagactacaaggaggcccacctcaagctctccgaactggggttcgctgatgcttaa</cdnaseq> |
| Protein Sequence |
<aaseq>MAKNYPVVSAEYQEAVEKARQKLRALIAEKSCAPLMLRLAWHSA GTFDVSSKTGGPFGTMKTPAELSHAANAGLDIAVRMLEPIKEEIPTISYADFYQLAGV VAVEVSGGPAVPFHPGREDKPAPPPEGRLPDATKGSDHLRQVFGAQMGLSDQDIVALS GGHTLGRCHKERSGFEGPWTRNPLQFDNSYFTELLSGDKEGLLQLPSDKALLSDPAFR PLVEKYAADEKAFFEDYKEAHLKLSELGFADA</aaseq> |
| Gene Sequence |
<dnaseqindica>69..187#283..457#552..617#1974..2022#2356..2441#2528..2607#2703..2805#2923..2981#3068..3083#aagcctttcgagtcgtcttctccccttcttctcctcctcctcctcgattcggagctccacccgcagccatggctaagaactaccccgtcgtgagcgccgagtaccaggaggccgtcgagaaggccaggcagaagctgcgcgccctcatcgccgagaagagctgcgcccctctcatgctccgcctcgcgtaagccgtcgccctcgcactcgctcgcttctaggttttgtgtagaggcggatttccgtagactgatccggtttttgtggagacggatcgcgcaggtggcactcggcggggacgttcgacgtgtcgtcgaagaccgggggcccgttcgggacgatgaagaccccggcggagctgtcgcacgccgccaacgcggggctggacatcgcggtgcggatgctcgagcccatcaaggaggagatacccaccatctcctacgccgatttctaccaggttcgccgcgagccccggatagatctggatggacggccccgatctggtcaaacggacgtggttctgatgttttttccccgttgtttttgcgcagcttgccggagttgtggccgtcgaggtgtccggtggacctgccgtccccttccacccaggaagggaggtgagatttcctattacctttcaactcttggggtttttctcagggttctagttaggccttgatatggcagtggtaaactggatggcgtgtggatttgtttgtgatgccacgagattagtcgtaatttgttagtgctccattgatgtgtgtgcttttcatttgtggggactgggggttggtggttcctagagagtagacaaagtgatcaccactaatctaaggccagcagtataataatattttaacagtacggacttttctatattatatacccggataataccgtcaaattgggtttgttcgtattcttgttggtgggtcggcgttacttgacatcctctagatctagaggtggttaaatatccgtgacctcatttacatttccgtaagaccttgtttatttaccataaacatgctaattgttattttttagttattgttggctcatgtgtttgtgtcagttgagtcacataggattcattttcatgcatgctgtatggtgtgaagtttgttatccattcatgcacaaggatattatttttaaggatgtcgccttatcctttttctttgtagtctggctattctcaaagtagtcactgatttaccatggttgtttgcggcatttccctgttcagggttttgatagttactgatctttcattttatcatttttattttttactcaggatagtagttctcatcctaatcgatgtcatactctaaaccatgacaaataaacaattattttctgaattaatggaagaagccttggggacctggaagaagccttggggaccggggttgtttccgttctctatgcatgatatagtttgatctgttggattgtgccatgtaggatatttgttgtgctttgtgaatataaacttaagaaagcatccattatttacaagtctagttggttcagataaagtatattagggcctcccaacttattgcattgacataaaatgataattaggggttcaatctgaaggcagttggaaagcttaatgaaaaaacagtgggccgatatatatctatatgttatgttttaggaaactttagaaaggtgacttggtgcttgttttaggatataataactgttatggatatatctttttttataaatacataatgttcagtaattattatgcaccttcaacaatatcaccgatgatagtaatatatatcatatatgtaacattatacagtgcttaaaatttgcttgtgcatatctggctcatctttatatttatttctaaaatggagagatgattaagtgtttttttatgttccattttatattcattgtgttgttaattgagattgttttcatccttccttgaccttttgcaggacaaacctgcacccccacctgagggccgtcttcctgatgctaccaagggtatgttgccagtttacactactagtctcttccaggaactatagaaacattcaccactattgccataaaagaaacccttgcaaataagtcatcctttaaaatgtttttgtttctgcaatagttgaggtgttatttctgtgtagcacatctaaaatgcttagttatggtagaagtttttcccactgcacacttgacaaatgattcctgtgttgttgtaggcatgttgtatttttctgcatgcttcatttctgatatgatcctgctttgaccttgttctagtaaacctcatgtaaagcaccattgcttacactttgagcttgattgctttaccaggttctgaccacctaaggcaggtcttcggtgcgcagatgggcttgagtgatcaggacattgttgccctctctggcggtcacaccctggttagtttggctattaaccattgtatgcctctgcagtatgtaggagtacatgttctaatgtcggatttctgtgctttgttctgcagggaaggtgccacaaggaaagatctggttttgagggaccttggacaagaaaccctctgcagtttgacaactcttacttcacgtaagcgatgttacgagtggttgaattttgttcttatgctgaacaaagttggtaacaaaaatgttgaactcatctctccgcgacgattttaatagggagcttctgagtggtgacaaggagggccttcttcagcttcctagtgacaaagccctgctgagtgaccctgccttccgcccactcgtcgagaaatatgctgcagtatgtctcctatcaatcatcatcttgtgttccacgttttgcatcttgtgttcctcgttttgcagagatatgccagaacatgatactgattgtgttttttttccccaattctgctaggatgagaaggctttctttgaagactacaaggaggcccacctcaagctctccgaactggggtgagtaatggtttgtcaatccatttatcgtgttatctttcatgacaacaaggtcatggtagctaattgtactcttgtgatttcaggttcgctgatgcttaagaggtttctagtctactactgctagtacattgcccgtggtactcttgttttgcatctaggctagggccagtgtgaaccagcagactaccactgtgagtcgcctctgtaataaaatttgttcggcctatggccatcctcagtacgttgtcaatgtctcggtgggctgttatgctcaactgcaatgctgcatccactgaaacctctttctagatgtgttggtatgaaatgcggtattgcgttcccgatttcccc</dnaseqindica> |
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