Difference between revisions of "Os06g0133000"
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===Function=== | ===Function=== | ||
Please input function information here. | Please input function information here. | ||
| + | Carbohydrate analysis indicated that the content of amylose in GM077 seeds was significantly reduced, while that of amylopectin significantly rose as compared to the wild type BP034. The content of glucose, sucrose, total starch, cell-wall polysaccharides and oil were only slightly affected in the mutant as compared to the wild type. Suppression subtractive hybridization (SSH) experiments generated 116 unigenes in the mutant on the wild-type background. Among the 116 unigenes, three, AGP, ISA1 and SUSIBA2-like, were found to be directly involved in amylopectin synthesis, indicating their possible roles in redirecting carbon flux from amylose to amylopectin. A bioinformatics analysis of the putative SUSIBA2-like binding elements in the promoter regions of the upregulated genes indicated that the SUSIBA2-like transcription factor may be instrumental in promoting the carbon reallocation from amylose to amylopectin. | ||
===Expression=== | ===Expression=== | ||
Revision as of 16:15, 23 May 2014
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Contents
Annotated Information
Function
Please input function information here. Carbohydrate analysis indicated that the content of amylose in GM077 seeds was significantly reduced, while that of amylopectin significantly rose as compared to the wild type BP034. The content of glucose, sucrose, total starch, cell-wall polysaccharides and oil were only slightly affected in the mutant as compared to the wild type. Suppression subtractive hybridization (SSH) experiments generated 116 unigenes in the mutant on the wild-type background. Among the 116 unigenes, three, AGP, ISA1 and SUSIBA2-like, were found to be directly involved in amylopectin synthesis, indicating their possible roles in redirecting carbon flux from amylose to amylopectin. A bioinformatics analysis of the putative SUSIBA2-like binding elements in the promoter regions of the upregulated genes indicated that the SUSIBA2-like transcription factor may be instrumental in promoting the carbon reallocation from amylose to amylopectin.
Expression
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Evolution
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Labs working on this gene
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References
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Structured Information
| Gene Name |
Os06g0133000 |
|---|---|
| Description |
Granule-bound starch synthase I, chloroplast precursor (EC 2.4.1.21) |
| Version |
NM_001063239.1 GI:115466209 GeneID:4340018 |
| Length |
4953 bp |
| Definition |
Oryza sativa Japonica Group Os06g0133000, 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 6:1764623..1769575 |
| Sequence Coding Region |
1765922..1766260,1766374..1766454,1766562..1766660,1766757..1766846,1766946..1767009 |
| Expression | |
| Genome Context |
<gbrowseImage1> name=NC_008399:1764623..1769575 source=RiceChromosome06 preset=GeneLocation </gbrowseImage1> |
| Gene Structure |
<gbrowseImage2> name=NC_008399:1764623..1769575 source=RiceChromosome06 preset=GeneLocation </gbrowseImage2> |
| Coding Sequence |
<cdnaseq>atgtcggctctcaccacgtcccagctcgccacctcggccaccggcttcggcatcgccgacaggtcggcgccgtcgtcgctgctccgccacgggttccagggcctcaagccccgcagccccgccggcggcgacgcgacgtcgctcagcgtgacgaccagcgcgcgcgcgacgcccaagcagcagcggtcggtgcagcgtggcagccggaggttcccctccgtcgtcgtgtacgccaccggcgccggcatgaacgtcgtgttcgtcggcgccgagatggccccctggagcaagaccggcggcctcggtgacgtcctcggtggcctcccccctgccatggctgcgaatggccacagggtcatggtgatctctcctcggtacgaccagtacaaggacgcttgggataccagcgttgtggctgagatcaaggttgcagacaggtacgagagggtgaggtttttccattgctacaagcgtggagtcgaccgtgtgttcatcgaccatccgtcattcctggagaaggtttggggaaagaccggtgagaagatctacggacctgacactggagttgattacaaagacaaccagatgcgtttcagccttctttgccaggcagcactcgaggctcctaggatcctaaacctcaacaacaacccatacttcaaaggaacttatggtgaggatgttgtgttcgtctgcaacgactggcacactggcccactggcgagctacctgaagaacaactaccagcccaatggcatctacaggaatgcaaaggttgctttctgcatccacaacatctcctaccagggccgtttcgctttcgaggattaccctgagctgaacctctccgagaggttcaggtcatccttcgatttcatcgacgggtatgacacgccggtggagggcaggaagatcaactggatgaaggccggaatcctggaagccgacagggtgctcaccgtgagcccgtactacgccgaggagctcatctccggcatcgccaggggatgcgagctcgacaacatcatgcggctcaccggcatcaccggcatcgtcaacggcatggacgtcagcgagtgggatcctagcaaggacaagtacatcaccgccaagtacgacgcaaccacggcaatcgaggcgaaggcgctgaacaaggaggcgttgcaggcggaggcgggtcttccggtcgacaggaaaatcccactgatcgcgttcatcggcaggctggaggaacagaagggccctgacgtcatggccgccgccatcccggagctcatgcaggaggacgtccagatcgttcttctgggtactggaaagaagaagttcgagaagctgctcaagagcatggaggagaagtatccgggcaaggtgagggccgtggtgaagttcaacgcgccgcttgctcatctcatcatggccggagccgacgtgctcgccgtccccagccgcttcgagccctgtggactcatccagctgcaggggatgagatacggaacgccctgtgcttgcgcgtccaccggtgggctcgtggacacggtcatcgaaggcaagactggtttccacatgggccgtctcagcgtcgactgcaaggtggtggagccaagcgacgtgaagaaggtggcggccaccctgaagcgcgccatcaaggtcgtcggcacgccggcgtacgaggagatggtcaggaactgcatgaaccaggacctctcctggaaggggcctgcgaagaactgggagaatgtgctcctgggcctgggcgtcgccggcagcgcgccggggatcgaaggcgacgagatcgcgccgctcgccaaggagaacgtggctgctccttga</cdnaseq> |
| Protein Sequence |
<aaseq>MSALTTSQLATSATGFGIADRSAPSSLLRHGFQGLKPRSPAGGD ATSLSVTTSARATPKQQRSVQRGSRRFPSVVVYATGAGMNVVFVGAEMAPWSKTGGLG DVLGGLPPAMAANGHRVMVISPRYDQYKDAWDTSVVAEIKVADRYERVRFFHCYKRGV DRVFIDHPSFLEKVWGKTGEKIYGPDTGVDYKDNQMRFSLLCQAALEAPRILNLNNNP YFKGTYGEDVVFVCNDWHTGPLASYLKNNYQPNGIYRNAKVAFCIHNISYQGRFAFED YPELNLSERFRSSFDFIDGYDTPVEGRKINWMKAGILEADRVLTVSPYYAEELISGIA RGCELDNIMRLTGITGIVNGMDVSEWDPSKDKYITAKYDATTAIEAKALNKEALQAEA GLPVDRKIPLIAFIGRLEEQKGPDVMAAAIPELMQEDVQIVLLGTGKKKFEKLLKSME EKYPGKVRAVVKFNAPLAHLIMAGADVLAVPSRFEPCGLIQLQGMRYGTPCACASTGG LVDTVIEGKTGFHMGRLSVDCKVVEPSDVKKVAATLKRAIKVVGTPAYEEMVRNCMNQ DLSWKGPAKNWENVLLGLGVAGSAPGIEGDEIAPLAKENVAAP</aaseq> |
| Gene Sequence |
<dnaseqindica>1300..1638#1752..1832#1940..2038#2135..2224#2324..2387#2480..2580#2671..2780#2902..3145#3263..3439#3683..3874#3981..4067#4177..4305#4663..4779#accattccttcagttctttgtctatctcaagacacaaataactgcagtctctctctctctctctctctctctctctctctctctgcttcacttctctgcttgtgttgttctgttgttcatcaggaagaacatctgcaagttatacatatatgtttataattctttgtttcccctcttattcagatcgatcacatgcatctttcattgctcgtttttccttacaagtagtctcatacatgctaatttctgtaaggtgttgggctggaaattaattaattaattaattgacttgccaagatccatatatatgtcctgatattaaatcttcgttcgttatgtttggttaggctgatcaatgttattctagagtctagagaaacacacccaggggttttccaactagctccacaagatggtgggctagctgacctagatttgaagtctcactccttataattattttatattagatcattttctaatattcgtgtctttttttattctagagtctagatcttgtgttcaactctcgttaaatcatgtctctcgccactggagaaacagatcaggagggtttattttgggtataggtcaaagctaagattgaaattcacaaatagtaaaatcagaatccaaccaattttagtagccgagttggtcaaaggaaaatgtatatagctagatttattgttttggcaaaaaaaaatctgaatatgcaaaatacttgtatatctttgtattaagaagatgaaaataagtagcagaaaattaaaaaatggattatatttcctgggctaaaagaattgttgatttggcacaattaaattcagtgtcaaggttttgtgcaagaattcagtgtgaaggaatagattctcttcaaaacaatttaatcattcatctgatctgctcaaagctctgtgcatctccgggtgcaacggccaggatatttattgtgcagtaaaaaaatgtcatatcccctagccacccaagaaactgctccttaagtccttataagcacatatggcattgtaatatatatgtttgagttttagcgacaatttttttaaaaacttttggtcctttttatgaacgttttaagtttcactgtctttttttttcgaattttaaatgtagcttcaaattctaatccccaatccaaattgtaataaacttcaattctcctaattaacatcttaattcatttatttgaaaaccagttcaaattcttttaggctcaccaaaccttaaacaattcaattcagtgcagagatcttccacagcaacagctagacaaccaccatgtcggctctcaccacgtcccagctcgccacctcggccaccggcttcggcatcgccgacaggtcggcgccgtcgtcgctgctccgccacgggttccagggcctcaagccccgcagccccgccggcggcgacgcgacgtcgctcagcgtgacgaccagcgcgcgcgcgacgcccaagcagcagcggtcggtgcagcgtggcagccggaggttcccctccgtcgtcgtgtacgccaccggcgccggcatgaacgtcgtgttcgtcggcgccgagatggccccctggagcaagaccggcggcctcggtgacgtcctcggtggcctcccccctgccatggctgtaagcacacacaaacttcgatcgctcgtcgtcgctgaccgtcgtcgtcttcaactgttcttgatcatcgcattggatggatgtgtaatgttgtgttcttgtgttctttgcaggcgaatggccacagggtcatggtgatctctcctcggtacgaccagtacaaggacgcttgggataccagcgttgtggctgaggtaggagcatatgcgtgatcagatcatcacaagatcgattagctttagatgatttgttacatttcgcaagattttaacccaagtttttgtggtgcaattcattgcagatcaaggttgcagacaggtacgagagggtgaggtttttccattgctacaagcgtggagtcgaccgtgtgttcatcgaccatccgtcattcctggagaaggtggagtcatcattagtttaccttttttgtttttactgaattattaacagtgcatttagcagttggactgagcttagcttccactggtgatttcaggtttggggaaagaccggtgagaagatctacggacctgacactggagttgattacaaagacaaccagatgcgtttcagccttctttgccaggtcagtgattacttctatctgatgatggttggaagcatcacgagtttaccatagtatgtatggattcataactaattcgtgtattgatgctacctgcaggcagcactcgaggctcctaggatcctaaacctcaacaacaacccatacttcaaaggaacttatggtgagttacaattgatctcaagatcttataactttcttcgaaggaatccatgatgatcagactaattccttccggtttgttactgacaacaggtgaggatgttgtgttcgtctgcaacgactggcacactggcccactggcgagctacctgaagaacaactaccagcccaatggcatctacaggaatgcaaaggtctatgcttgttcttgccataccaactcaaatctgcatgcacactgcattctgttcagaaactgactgtctgaatctttttcactgcaggttgctttctgcatccacaacatctcctaccagggccgtttcgctttcgaggattaccctgagctgaacctctccgagaggttcaggtcatccttcgatttcatcgacgggtatgagtaagattctaagagtaacttactgtcaattcgccatatatcgattcaatccaagatccttttgagctgacaaccctgcactactgtccatcgttcaaatccggttaaatttcaggtatgacacgccggtggagggcaggaagatcaactggatgaaggccggaatcctggaagccgacagggtgctcaccgtgagcccgtactacgccgaggagctcatctccggcatcgccaggggatgcgagctcgacaacatcatgcggctcaccggcatcaccggcatcgtcaacggcatggacgtcagcgagtgggatcctagcaaggacaagtacatcaccgccaagtacgacgcaaccacggtaagaacgaatgcattcttcacaagatatgcaatctgaattttctttgaaaaagaaattatcatctgtcacttcttgattgattctgacaaggcaagaatgagtgacaaatttcaggcaatcgaggcgaaggcgctgaacaaggaggcgttgcaggcggaggcgggtcttccggtcgacaggaaaatcccactgatcgcgttcatcggcaggctggaggaacagaagggccctgacgtcatggccgccgccatcccggagctcatgcaggaggacgtccagatcgttcttctggtataatataatacactacaagacacacttgcacgatatgccaaaaattcagaacaaattcagtggcaaaaaaaaaactcgaatattagggaaggacctaataatatcaaataattagaaggggtgaggctttgaacccagatcgtctagtccaccaccttgtggagttagccggaagacctctgagcatttctcaattcagtggcaaatgatgtgtataattttgatccgtgtgtgtttcagggtactggaaagaagaagttcgagaagctgctcaagagcatggaggagaagtatccgggcaaggtgagggccgtggtgaagttcaacgcgccgcttgctcatctcatcatggccggagccgacgtgctcgccgtccccagccgcttcgagccctgtggactcatccagctgcaggggatgagatacggaacggtatacaatttccatctatcaattcgattgttcgatttcatctttgtgcaatgcaatgcaattgcaaatgcaaatgcatgatgattttccttgttgatttctccagccctgtgcttgcgcgtccaccggtgggctcgtggacacggtcatcgaaggcaagactggtttccacatgggccgtctcagcgtcgacgtaagcctatacatttacataacaatcagatatgacacatcctaataccgataagtcggtacactactacacatttacatggttgctggttatatggtttttttggcagtgcaaggtggtggagccaagcgacgtgaagaaggtggcggccaccctgaagcgcgccatcaaggtcgtcggcacgccggcgtacgaggagatggtcaggaactgcatgaaccaggacctctcctggaaggtataaattacgaaacaaatttaacccaaacatatactatatactccctccgcttctaaatattcaacgccgttgtcttttttaaatatgtttgaccattcgtcttattaaaaaaattaaataattataaattcttttcctatcatttgattcattgttaaatatacttatatgtatacatatagttttacatatttcataaaattttttgaacaagacgaacggtcaaacatgtgctaaaaagttaacggtgtcgaatattcagaaacggagggagtataaacgtcttgttcagaagttcagagattcacctgtctgatgctgatgatgattaattgtttgcaacatggatttcaggggcctgcgaagaactgggagaatgtgctcctgggcctgggcgtcgccggcagcgcgccggggatcgaaggcgacgagatcgcgccgctcgccaaggagaacgtggctgctccttgaagagcctgagatctacatatggagtgattaattaatatagcagtatatggatgagagacgaatgaaccagtggtttgtttgttgtagtgaatttgtagctatagccaattatataggctaataagtttgatgttgtactcttctgggtgtgcttaagtatcttatcggaccctg</dnaseqindica> 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