Os02g0802700
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Contents
Annotated Information
Function
OsMGD play an important role in coping various stresses for plants, which also provide us a possible approach to enhance plant multiple stresses tolerance.The enhanced expression of OsMGD may relate to photosynthesis, and play an important role during submergence.
The full length of OsMGD cDNA was amplified using 5'- and 3'-rapid amplification of cDNA ends, and found to consist of 1,671 bp with an open reading frame of 1,077 bp (181-1257) encoding 358 amino acids.
Expression
OsMGD encodes monogalactosyldiacylglycerol synthase (UDPgalactose: 1,2-diacylglycerol 3-β-D-galactosyl transferase; EC 2.4.1.46, MGDG synthase) Time-course studies showed that the expression of OsMGD in the rice cultivars FR13A and IR42 (submergence-susceptive cultivar) during submergence was gradually increased and that expression in FR13A was higher than in IR42. The expression of OsMGD in FR13A was influenced by benzyladenine and illumination. The accumulation of OsMGD mRNA in both FR13A and IR42 was also increased by ethephon, gibberellin, drought and salt treatment, but cold stress had no effect on the expression of the gene. These results suggest that the expression of OsMGD mRNA requires benzyladenine or illumination, and that the process is also mediated by ethephon and gibberellin. Salt and drought stress have an effect similar to that of submergence. Furthermore, the enhanced expression of OsMGD may relate to photosynthesis, and play an important role during submergence.
Evolution
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Labs working on this gene
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References
Please input cited references here. Cloning of a putative monogalactosyldiacylglycerol synthase gene from rice (Oryza sativa L.) plants and its expression in response to submergence and other stresses.Yanhua Qi, Yasuo Yamauchi, Jianqun Ling, Naoyoshi Kawano, Debao Li, Kiyoshi Tanaka Planta, 2004, 219(3): 450-458. Maintenance of chloroplast structure and function by overexpression of the OsMGD gene leads to enhanced salt tolerance in tobacco. Shiwen Wang,Md. Imtiaz Uddin, Kiyoshi Tanaka, Lina Yin, Zhonghui Shi,Yanhua QiJun'ichi Mano,Kenji Matsui,Norihiro Shimomura,Takeshi Sakaki5,Xiping Deng1and Suiqi Zhang1. Expression and subcellular localization of antiporter regulating protein OsARP in rice induced by submergence, salt and drought stresses. Md Imtiaz Uddin1, Maki Kihara1, Lina Yin, Mst Farida Perveen and Kiyoshi Tanaka.
Structured Information
| Gene Name |
Os02g0802700 |
|---|---|
| Description |
Similar to MGDG synthase type A |
| Version |
NM_001054958.1 GI:115449286 GeneID:4331045 |
| Length |
4212 bp |
| Definition |
Oryza sativa Japonica Group Os02g0802700, 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 2:35110098..35114309 |
| Sequence Coding Region |
35110099..35110336,35110863..35110890,35111867..35112028,35112130..35112271,35112688..35112912 |
| Expression | |
| Genome Context |
<gbrowseImage1> name=NC_008395:35110098..35114309 source=RiceChromosome02 preset=GeneLocation </gbrowseImage1> |
| Gene Structure |
<gbrowseImage2> name=NC_008395:35110098..35114309 source=RiceChromosome02 preset=GeneLocation </gbrowseImage2> |
| Coding Sequence |
<cdnaseq>ctcgcctccccaattttaaactcccttctctctctctctcgtcgtcgtcgtccaccgccgcaaaggggtctcgtctctctcgggggcgatggcggcgtcgtcgtcgtcgtcgtcgtcgatggcgtcgccgagggggaggtcgatccgggagacggtgctggagacggtggcggcgtaccaccagcagcagaggatgaggcgcaagttcaggaagagcctctcctacgcgggggagctgtcgccgcgctcgcctcattctatgccaagaaggttgaggctggactcaagaagtacaaaccagatattataattagtgtccaccccctcatgcaacacattcctctatgggtactcaaatggcaagggctacaaaatagagtggtctttgtcactgtcatcacagacctcaacacttgtcaccctacatggttccatgctgatgtcaatagatgttactgcccatcggaagaagttgccaagagagcagcactggatgacctacaaccttctcaaatccgtgtgtttggccttccgattcggccatcattctgccgagccgttcttgttaaggatgatttgaggaaggaacttgaattggatcctgagctgcctgcagtattgctgatgggaggtggagagggcatgggtcctgtcaagaagaccgcaaaagcccttggagagtcgttgtttgacaaggagcttggaaaaccaattggacagttaattgtcatttgtggtcggaacaaaacgctgagctcctcattgcaggctcttgaatggaaaataccaattaaggttaggggatttgagacccagatggagaaatggatgggggcttgtgattgcattataacaaaggctggaccaggtaccatcgccgaagccttgattagagggttgcctatcatccttaatgacttcatacctggacaggaagttggcaatgtcccttatgttgtggacaatggtgctggtgtcttctccaaaagttctagggaaactgctaaacttgttgcccgctggtttggtccagattctgatgaactgaagaggatgtcagaaaaagcgttaaaactggctcagccagaagcggtgtttgatattgtcagagacatccatgagctatctcgggagcaaggggtgatttcacagatatccagttccttgacatcatcctttttcataccatcgccagaaaccacacctatacaacttatgtga</cdnaseq> |
| Protein Sequence |
<aaseq>LASPILNSLLSLSRRRRPPPQRGLVSLGGDGGVVVVVVVDGVAE GEVDPGDGAGDGGGVPPAAEDEAQVQEEPLLRGGAVAALASFYAKKVEAGLKKYKPDI IISVHPLMQHIPLWVLKWQGLQNRVVFVTVITDLNTCHPTWFHADVNRCYCPSEEVAK RAALDDLQPSQIRVFGLPIRPSFCRAVLVKDDLRKELELDPELPAVLLMGGGEGMGPV KKTAKALGESLFDKELGKPIGQLIVICGRNKTLSSSLQALEWKIPIKVRGFETQMEKW MGACDCIITKAGPGTIAEALIRGLPIILNDFIPGQEVGNVPYVVDNGAGVFSKSSRET AKLVARWFGPDSDELKRMSEKALKLAQPEAVFDIVRDIHELSREQGVISQISSSLTSS FFIPSPETTPIQLM</aaseq> |
| Gene Sequence |
<dnaseqindica>2..239#766..793#1770..1931#2033..2174#2591..2815#2920..2982#3088..3162#3469..3756#actcgcctccccaattttaaactcccttctctctctctctcgtcgtcgtcgtccaccgccgcaaaggggtctcgtctctctcgggggcgatggcggcgtcgtcgtcgtcgtcgtcgtcgatggcgtcgccgagggggaggtcgatccgggagacggtgctggagacggtggcggcgtaccaccagcagcagaggatgaggcgcaagttcaggaagagcctctcctacgcgggggagctgtcgtcggcggggcgcgcgcgaggggagggcggggcgtcctcgtcggcgtccaccacctcgctgtgtggccccgacgaggacgacgagcccttctgggaggaggaggagggcaccgtcgagctcgtccagctcggcgccaaccgggctaagaacgtgctcatcctcatgagcgacaccggcggcggccaccgcgcctccgccgaggctatcaaggacgccttccgcatcgagttcggcgacgattaccgggtgcgcggcctcctttttttttttttgctgctgtcgtctcgtgtgaaatcggcatggtagcgtaggctggaatctggccattgggaacacaagggttttgatttgttgtgctcgggattggcgttgtggcaggtcttcgtcaaggatctgtgcaaggatcacgcggggtggccgctgaacaacatggagagctcgtacaagttcatggtgaagcatgtgcagctatggaaggtggccttccacaccacatcgccgagatgggtccattgcttctacctcgccgcgctcgcctcattctatgccaagtacgccggatacttccctttcacggctcagcaatgtttttttaaaaaaaaaatcttactagaatgtttcattgtttcactgacagctttggcgatttgtgtttttcgtagttacgaattgttgttttttttttctgttgtttgctgcttccttggattgctaatcgctcatctaattgcagatttttgcaatggttcagcagttttgtcattatcgactaggcttataatttactctagagaagttttattagtgctagatattagcccgtgatgttacaggattagttttatattgccaattcttgagtgcaatcttcaactgtgaggttcttctttgacttgggatgctaaaatatctgttctgaatccatcgtaccacatagtgcgagtagtttgcttgaaatgcaaatctgaatatatggtaatattgagccgagatatgcaaccatgttggatctgttgaaccagagggttggagacaggaccagagagcatttcagaaaattcaattcctgccctgtgcatctacccaacatgcccacttggtcatcactcatatgctttcagaattgccagtctgtcctcgcataaaattgtttccaggtcatgatccacatattatgcatcataatagcacatgcaaactgttcatttgttggatcgctgtcagttctgtctaattccatgcttcagcaatctctgccaaccaattgacagtatagtcaatttaatatgtccgttcaagttttggatctattccgatgttgccattgattatatttgttgttagcgttctatgatcgaaattgcttcgagaaggcatcaaactaatgtaaaacagttcatttatagctctaacttgtggacccatgatcttaagctcatcgacccattatgtgtgtgagactttttctttacatcaagatggtacatggaacaccttttctgaatagcttattgtttgtgggtgaaggaaggttgaggctggactcaagaagtacaaaccagatattataattagtgtccaccccctcatgcaacacattcctctatgggtactcaaatggcaagggctacaaaatagagtggtctttgtcactgtcatcacagacctcaacacttgtcaccctacatggtacgtggaggctatccataagaaaaaacctggttatcttcttctgcaaaaacaattgtttctgttcaaaccattgaattaatcaatcggaaacattacaggttccatgctgatgtcaatagatgttactgcccatcggaagaagttgccaagagagcagcactggatgacctacaaccttctcaaatccgtgtgtttggccttccgattcggccatcattctgccgagccgttcttgttaaggtatgtgctccttatttaacttcaggactgttattccgatgcctgcgaattttttgtttcatatttgatctctcaaaaggtagatattcagtcgtggtattttacttgatctttcaataggtagatattcagtcgtggtattttatttgatcttgcagaatgtataggttatttatgcttttttatttaacatgcttaatgaatgctcttatcatggatttgtgctttgattaattgcaagcatgcataccccaaaagcattgctttaaatttaggatgtccattgactatattttaaaggaaaaatgacaaatttatgatagtgtggctgtacaatgatacacatcttaatacaaatgtgtagtatgcttttctatccactcaagtgttactttttttttaaaccaactcaccaggatgatttgaggaaggaacttgaattggatcctgagctgcctgcagtattgctgatgggaggtggagagggcatgggtcctgtcaagaagaccgcaaaagcccttggagagtcgttgtttgacaaggagcttggaaaaccaattggacagttaattgtcatttgtggtcggaacaaaacgctgagctcctcattgcaggctcttgaatggaaaataccaattaaggtatatgatagaaacgtgtgtttataataattctttttaagatgcagactgcttatcctcctatgttgaaacacatgttccttatcgacttcttttaacaaaaggttaggggatttgagacccagatggagaaatggatgggggcttgtgattgcattataacaaaggtatatccatgacattctatgattgttagcacgttatttcatacaaagatctctgtgtcattcttaaatcttaaatgttttttatgtttttatttgtctcaataggctggaccaggtaccatcgccgaagccttgattagagggttgcctatcatccttaatgacttcatacctggacaggttagggtctactaactttccgcggttattataaaagaacggtacgaatgtacatctatgttttatatggttattgactttgtggaccatacatatttaatactacaagggtgaatctcatgaaagttttatacgttaaataaaaaagatgtgtatgtgttttagaacttatttgtagcgtcagtgacactaatgttatgcagtgcacaaaataaatgattttttatcaagtgcgatatacagtatgtagcagttatatgatcacccagtggacatcatctaatgtaagtttgttctgcatggcaggaagttggcaatgtcccttatgttgtggacaatggtgctggtgtcttctccaaaagttctagggaaactgctaaacttgttgcccgctggtttggtccagattctgatgaactgaagaggatgtcagaaaaagcgttaaaactggctcagccagaagcggtgtttgatattgtcagagacatccatgagctatctcgggagcaaggggtgatttcacagatatccagttccttgacatcatcctttttcataccatcgccagaaaccacacctatacaacttatgtgaaaaatccgtgtatagctagaactgcattctttgacctcgtgaaatttgcctttgtcctacaatgtcctgaaaaagaaaaatatgtcaatggatttagctggtttgtttcatctgtctcacggcgttgggatgaggtaagcaggatttcgactgcttttcagtttgtggtctctcatggtagttatgggcttgtttgactgacagctgctcttgtgtaatatccatattcggtttttgttaaaatcattcgttcatatgattttttttaaaaaatcctgtcgtcctttgttcagagggaccagcgatgggctgcaaattgtacactgttagttgatgttggaaagtttaaacctctcgacttgtaacatatccattcatgtaagatccatcgtgactgtaaagtgtatgagacaatgacaaattgtgctagtgagagagtcatgtgcttgttgaagg</dnaseqindica> |
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