Difference between revisions of "Os01g0624500"

Revision as of 01:49, 16 June 2014

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Annotated Information

Function

The UDP-glucose:SA glucosyltransferase (OsSGT1) is a key mediator of development of chemically induced disease resistance.The OsSGT1 gene may contribute to the SA signaling mechanism by inducing up-regulation of SAG in rice plants^[1]. Systemic acquired resistance (SAR), a natural disease response in plants, can be induced chemically. Salicylic acid (SA) acts as a key endogenous signaling molecule that mediates SAR in dicotyledonous plants. The OsSGT1 can catalyzes the conversion of free SA into SA O-b-glucoside (SAG), suggesting that the OsSGT1 plays an essential role in the probenazole-induced disease defense response.

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Structured Information

Gene Name	Os01g0624500
Description	Sgt1
Version	NM_001050155.1 GI:115438680 GeneID:4326682
Length	4940 bp
Definition	Oryza sativa Japonica Group Os01g0624500, 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	Chromosome 1
Location	Chromosome 1:26594542..26599481
Sequence Coding Region	26594595..26594766,26596770..26596839,26596927..26597051,26597274..26597412,26597661..26597757 ,26597840..26597905,26598213..26598351,26598911..26598993,26599090..26599194 ,26599314..26599421
Expression	GEO Profiles:Os01g0624500
Genome Context	<gbrowseImage1> name=NC_008394:26594542..26599481 source=RiceChromosome01 preset=GeneLocation </gbrowseImage1>
Gene Structure	<gbrowseImage2> name=NC_008394:26594542..26599481 source=RiceChromosome01 preset=GeneLocation </gbrowseImage2>
Coding Sequence	<cdnaseq>atggcaaccgccgccgcgtcggatctggagagcaaggccaaggcggccttcgtcgacgacgacttcgagctcgccgccgagctctacacgcaggcaatcgaggccagccccgccaccgccgagctctacgccgaccgcgcccaggcccatatcaagctaggcaactacactgaggctgtagctgatgctaacaaggccattgaacttgacccatcaatgcacaaggcttatcttcgtaaaggcgctgcatgtatacgactggaggagtatcaaactgcaaaagcagctcttgaattgggttactcgttcgcatctggtgactcaaggtttactcgcctaatgaaggagtgtgatgagcgcattgctgaggagcttagtgaagtccctgttaagaaggctgaagatggagcagctgccccctctgttgcttcttttgttgaggaaaaggatgatgctgcaaacatggataatacaccaccaatggtagaagtgaagccaaaatacaggcacgacttctacaacagtgctacagaagttgtattgacaatttttgcaaagggtgttcctgctgagaatgttgttgttgattttggtgaacaaatgttaagtgtgtcgattgaagtccctggagaggagccgtaccattttcagcctcgtctgttttctaagatcatccctgagaaaagcagataccaagtgctatccacgaaggttgaaataagactggctaaagctgaacagattacatggacctcacttgattatgataaaaaaccaaaggctgttccacaaaagataatccctccagctgaatcggcccagaggccatcatatccttcctcaaaatccaagaaagactgggataaactggaagctgaagttaaaaaggaggagaaggaggagaagcttgaaggcgatgctgcattgaacaaatttttccgtgacatctacagtgatgctgatgaagacatgcgacgagcaatgatgaaatcttttgttgaatctaacggtactgttctgtcgaccaattggaaagatgttggctcgaagaaggtagagggaagcccacctgatgggatggagcttaagaaatgggagtactaa</cdnaseq>
Protein Sequence	<aaseq>MATAAASDLESKAKAAFVDDDFELAAELYTQAIEASPATAELYA DRAQAHIKLGNYTEAVADANKAIELDPSMHKAYLRKGAACIRLEEYQTAKAALELGYS FASGDSRFTRLMKECDERIAEELSEVPVKKAEDGAAAPSVASFVEEKDDAANMDNTPP MVEVKPKYRHDFYNSATEVVLTIFAKGVPAENVVVDFGEQMLSVSIEVPGEEPYHFQP RLFSKIIPEKSRYQVLSTKVEIRLAKAEQITWTSLDYDKKPKAVPQKIIPPAESAQRP SYPSSKSKKDWDKLEAEVKKEEKEEKLEGDAALNKFFRDIYSDADEDMRRAMMKSFVE SNGTVLSTNWKDVGSKKVEGSPPDGMELKKWEY</aaseq>
Gene Sequence	<dnaseqindica>54..225#2229..2298#2386..2510#2733..2871#3120..3216#3299..3364#3672..3810#4370..4452#4549..4653#4773..4880#cccccacccgcatcccccggcctcctcaccgcagccgcaaaagccaagccgccatggcaaccgccgccgcgtcggatctggagagcaaggccaaggcggccttcgtcgacgacgacttcgagctcgccgccgagctctacacgcaggcaatcgaggccagccccgccaccgccgagctctacgccgaccgcgcccaggcccatatcaagctaggcaactacactggtaatccatctctcgcaatctcccccttcctccccttccttcgattagattggtttgccgtgtgtgcggtggtggtggtggtggtctggggagtctgtgtggatgtagatgagatcgtgaggcgtggggtgtgtggttttgtgcgtttttgattcgtggtttgttgcgcctatttgcgggagttacgtcaaaccggtgtttgttttgcgtgttcaagcaattcgtgtgcgtgtgtgtgatcgcgcttcgtgatttggagaaggatctagggtgaaggtcatgggatgggccaaaataagttttattagtgacagttgacttgctgataggaggagatattgagcgcaaggagggcatagctgcattgtggcaggtaccatcctagtcgaaagaagcagcatagttgtttgtgggggatatgaggacgccacaaataccatgtttcgaattcgaaccattccgttcgcgtgccgtactgtgtgatttggatttggtctaggtcgggggttattggactggggaaatctgttcgataggtgagagttgacttgctatactccattttctaaacacttgacacttctgaccagaatcctaggcacaattcagagggcttttaaatgatttacgtcaagcatgaatgatgatggtgcgcagtagtgaattggtagggggtaaattgagtttggaagcgtgagagatatttggagtagttaaaaatcaaaggatgagaaagtattgttcaactgttaaagtatacttgattgaacccactaaccattttgtatggaagtcagacttcattaagtgaaccatacttagttgcttgtttatttctagttattgtactccctctggtttcattttaattgatgttttggacaatgacacggtctacaagatatatatttgatcttatttttctattataatatatataataaataaatgcatgtttacttttattatagtgctttaaaagacaaatctatatatgttgttctagttcctttaaactaaatatttttaaagttattgatggtcaaagttataaaagtttgacatcaatcttgttcaaaatgtcaattaatatagaaccggagggagtatatgacaaagctggtgtgcgctgtagaaaaaattgacaactaatgatccaagatgatgcatgttaatgattgtttaaaatttcccttgttctatatatccaaatttcatctgcaccgcatatcatgcctaatgattgcatatagcaaacaaaaacagatatttaaaatttgatgaaacaatcaaatttaactccttagtgtgctgatcttgcctgttccttttgatttacaaagtaagataaaacaagaaatttataaagatatgtgtgcttgactgtttagctagctatgtaggagagtaggtctactcttattttagagcaatagttagccgtggcagattttgatgggtctacctgttgttattgttcagctattacttactgagaattcccagctaaatttgccaactcaaggaaatgctatactcctgcatgtttgctgattactgttttctgtctgttatcatagtattgaattagtataagagtgctggtgctaaaatgatatctggcgacaacttgctgcttgccagcagaaaaccccttggttctgatctttgtaaaaaaaagtcaggttggactagtgtttgatcattccccttggttctgatctttgtaaaaatttgtcaggttgcacatatctttgacaattctgtccgaaatgttgcaaaattttattgccaaacaaggcattaatcatccttatcagtaatagctgtaagttgttttgtagcctgtagccctaaattatcagcactgctatatcttaaaatacctcagtataagggtgctggtgctaaaatgacttagctgcatgtttattttgttttgtttgcaaagacattatcatgctgtttcatattaaagcaacaaattgcactttgtcttgcagaggctgtagctgatgctaacaaggccattgaacttgacccatcaatgcacaaggcttatcttcgtaaagggtcagtcttgactaaattatttaatgttatgaaaaaagactaggcacattaatttattatgatggctgataagcaaatgatctttagcgctgcatgtatacgactggaggagtatcaaactgcaaaagcagctcttgaattgggttactcgttcgcatctggtgactcaaggtttactcgcctaatgaaggagtgtgatgagcgcattgctggtaagctgtccctttgagtccattgcttggttaatacatttgcagtattgtgttatatttttacctggggcataccattacgtgagactaccatattatagtatgcattttcacacatatttgtcctctgggatgaatatccacagcagtcctgtaagttgaagtgaaatgtatgcacgagacatctttctcatactttgatgctgtgcattttcttttcagaggagcttagtgaagtccctgttaagaaggctgaagatggagcagctgccccctctgttgcttcttttgttgaggaaaaggatgatgctgcaaacatggataatacaccaccaatggtagaagtgaagccaaaatacaggtaaccagttcatgaatcctttaacactgtgcttcttttcccaatacagttctttagtcaagtatcaagttattctgaattgaggggtccactttatattttggaaaccacttgacagaatccacatgaatatatgggataatgtcccacaccctttctcagacactaaaccaagtgcttcttagggctggattttaaccccaatgatttggtactgacattttctggaaatgcacctggtgttgcaggcacgacttctacaacagtgctacagaagttgtattgacaatttttgcaaagggtgttcctgctgagaatgttgttgttgattttggtgaacaaatggtgtgtaccttaacaataaattgttgcaaatcatctatatttactaatttactgtgctcactaattaagccttccattttagttaagtgtgtcgattgaagtccctggagaggagccgtaccattttcagcctcgtctgttttctaaggtatgcaatccctgcaataccaggattatttctcttcttaatgcattggaaatggaaacagtgcatattgttatgacctgaatatgtttgtgcatttcctctaatttgtaaggtatttacctgaaatatgcttccaaacctaataaagctgggtgtactgctttgcctattttctttggttgcattgctgttgatccatacatacagttctttttgaaaaccaatactcagcatctgtttattatgatttctatgcacagtaccaatcatctcacctcttaacttttgctaatctcttgactatcagatcatccctgagaaaagcagataccaagtgctatccacgaaggttgaaataagactggctaaagctgaacagattacatggacctcacttgattatgataaaaaaccaaaggctgttccacaaaagataatccctccaggtaacaaactaagcaaaactattgcagttgatttccagaaaactgttgaacctactattgtgttgcttcttgtggttagttgaaagttgcactgttcaatcttattataagaggttccccttaaatatctgtactttgctgggtataattatttactgctttatgttagtaactggtgagctgatttatagccatggaaagaaatgacttcttttccattcatgtggtagttatcaataaggtctgccgttctatgcacttgctgatcgctggctcacatgtcaggctagtcatttccattttgctggttcctgtgcttgttgaacacattaatgtcacaaaaaattggtaatcgaatttaaatgaaaatggaagagggttctgagtgttatcttgctaataccttgttgaggctgatggtttactgccagatcggcttaagcatgaactgtacatgactggaatacaaccaagatcaagtctggcttttttttggggttcaattgttattctttccccatctctcctacagttttactgatagcccttcttttatcagctgaatcggcccagaggccatcatatccttcctcaaaatccaagaaagactgggataaactggaagctgaagttaaaaaggaggttagtatgatgcacatggttcaacgtttcactgcctgtggacattccttgaactctggtaattattgaattgccatgactttgaatttccaacaggagaaggaggagaagcttgaaggcgatgctgcattgaacaaatttttccgtgacatctacagtgatgctgatgaagacatgcgacgagcaatgatgaaatcttttgtatgtctttctttagcacaattgatgaaatgtttataactagtgaccttgctgacagaagtgcgtttagtaagtttgaactttgtatacttatacatcaacgatgtgcttgtttgcaggttgaatctaacggtactgttctgtcgaccaattggaaagatgttggctcgaagaaggtagagggaagcccacctgatgggatggagcttaagaaatgggagtactaagatctcggttcgtgcatgctgtaaattcgttatcgtcgtgagtcatcacttggctggaga</dnaseqindica>
External Link(s)	NCBI Gene:Os01g0624500, RefSeq:Os01g0624500

↑ Cite error: Invalid <ref> tag; no text was provided for refs named ref1

[ref1-1] Cite error: Invalid <ref> tag; no text was provided for refs named ref1

[1]

@@ Line 3: / Line 3: @@
 ==Annotated Information==
 ===Function===
-The UDP-glucose:SA glucosyltransferase (OsSGT1) is a key mediator of development of chemically induced disease resistance.The OsSGT1 gene may contribute to the SA signaling mechanism by inducing up-regulation of SAG in rice plants.<ref name="ref1" />. <br><br>
+The UDP-glucose:SA glucosyltransferase (OsSGT1) is a key mediator of development of chemically induced disease resistance.The OsSGT1 gene may contribute to the SA signaling mechanism by inducing up-regulation of SAG in rice plants<ref name="ref1" />.
 Systemic acquired resistance (SAR), a natural disease response in plants, can be induced chemically. Salicylic acid (SA) acts as a key endogenous signaling molecule that mediates SAR in dicotyledonous plants. The OsSGT1 can catalyzes the conversion of free SA into SA O-b-glucoside (SAG), suggesting that the OsSGT1 plays an essential role in the probenazole-induced disease defense response.

Difference between revisions of "Os01g0624500"

Revision as of 01:49, 16 June 2014

Contents

Annotated Information

Function

Expression

Evolution

Labs working on this gene

References

Structured Information

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