Difference between revisions of "Os06g0194900"
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Please input one-sentence summary here. | Please input one-sentence summary here. | ||
| + | The rice Sus gene family is comprised of six genes | ||
The rice Sus gene family is comprised of six genes | The rice Sus gene family is comprised of six genes | ||
==Annotated Information== | ==Annotated Information== | ||
Revision as of 07:32, 20 May 2014
Please input one-sentence summary here.
The rice Sus gene family is comprised of six genes The rice Sus gene family is comprised of six genes
Contents
Annotated Information
Function
In rice three genes encoding for sucrose synthase (Sus),six genes comprise the entire rice Sus gene family. In addition, overall Sus activity and expression of SUS2 increased significantly in seedlings germinated and grown in hypoxia (submerged conditions), suggesting a role in increasing sucrose metabolism as a response to environmental stress.Sucrose is cleaved in vivo either by sucrose synthase (Sus) (UDP-glucose: D-fructose 2-glucosyl-transferase, EC 2.4.1.13) or by invertase. Sus catalyzes the reversible conversion of sucrose and UDP into UDP-glucose and fructose. There is considerable evidence to indicate that Sus plays a major role(s) in metabolism in a number of different growth processes within a variety of sink tissues.Sus is also proposed to supply UDP-glucose for cellulose synthesis in the cell wall, and in cotton fiber which is supported by experimental evidence from antisense suppression of the enzyme.[1]
Expression
Sus transcripts were detected in a wide range of tissues and at different developmental stages, indicating that Sus is involved in numerous and diverse growth processes in the rice plant. SUS2 was shown to be expressed in a wide range of tissues, suggesting that it may perform a number of housekeeping role(s)[2]
Sus gene expression has also been reported to be induced in response to environmental stresses such as hypoxia and cold. Sus is reported to be encoded by multiple genes which have distinct and partially overlapping expression patterns. For example, maize has at least three genes encoding Sus, Sh1, Sus1 and Sus3 . Although all three genes are expressed in the developing kernels, Sh1 has the dominant role in cell-wall synthesis whereas Sus1 plays a role in starch synthesis. the entire Sus gene family in rice does in fact comprise the six reported genes. the established sequences have 8950 and 7586 bp for RSus2 and RSus3,respectively
Evolution
the evolution of multiple SS genes is not for the need of diversified catalytic functions but to meet the differential temporal and spatial requirements of the catalytic functiong according to the scheme of plant development and in response to environmental changes.this trend may be especially enhanced in the rice where the plant must adapt to the aerobic( leaf,stem,and grain) and anaerobic (root) conditions simultaneously and accumulate starch in a short period of the life span.[1]
Labs working on this gene
Please input related labs here.
References
- ↑ 1.0 1.1 Ju-Wei HUANG;Jen-Tao CHEN;Wei-Ping YU;Lie-Fen SHYUR;Ai-Yu WANG;Hsien-Yi SUNG;Ping-Du LEE;Jong-Ching Su Complete Structures of Three Rice Sucrose Synthase Isogenes and Differential Regulation of Their Expressions Bioscience, Biotechnology, and Biochemistry, 1996, 60(2): 233-239
- ↑ 2.0 2.1 Tatsuro Hirose;Graham N. Scofield;Tomio Terao An expression analysis profile for the entire sucrose synthase gene family in rice Plant Science, 2008, 174(5): 534-543
Structured Information
| Gene Name |
Os06g0194900 |
|---|---|
| Description |
Sucrose synthase 2 (EC 2.4.1.13) |
| Version |
NM_001063582.1 GI:115466895 GeneID:4340386 |
| Length |
5882 bp |
| Definition |
Oryza sativa Japonica Group Os06g0194900, 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 6:4795629..4801510 |
| Sequence Coding Region |
4795896..4795943,4796041..4796179,4796291..4796535,4796666..4796984,4797324..4797548 |
| Expression | |
| Genome Context |
<gbrowseImage1> name=NC_008399:4795629..4801510 source=RiceChromosome06 preset=GeneLocation </gbrowseImage1> |
| Gene Structure |
<gbrowseImage2> name=NC_008399:4795629..4801510 source=RiceChromosome06 preset=GeneLocation </gbrowseImage2> |
| Coding Sequence |
<cdnaseq>atggctgccaagctagctcgcctccacagtctccgcgaacgcctcggtgccaccttctcgtctcatcccaatgagttgattgcactcttctctaggtatgttaaccagggaaagggaatgctccagcgtcaccagctgcttgcggagttcgatgccttgatcgaagctgacaaagagaaatatgctccctttgaagacattctccgggctgctcaggaagccattgtgctgccgccctgggttgcactggccatcaggccaaggcctggtgtctgggactacattcgggtgaatgtaagtgagttggcagtggaagagctgagtgtttctgagtacttggcattcaaggaacagcttgttgatggacacaccaacagcaactttgttcttgagcttgattttgagcccttcaatgcctccttcccgcgcccgtccatgtccaagtccatcggaaatggggtgcagttccttaaccgtcacctgtcgtccaagttgttccaggacaaggagagcctctaccccttgctgaacttcctgaaagcccataaccacaagggcacgacaatgatgctgaatgacagaattcagagccttcgtgggctccaatcatcccttagaaaggcagaagaatatctgatgggcattcctcaagacacgccctactcggagttcaaccacaggttccaagagctcggtttggagaagggttggggtgactgtgcaaagcgtgtgcttgacaccatccacttgcttcttgaccttcttgaggcccctgatccggccaacttggagaagttccttggaactattccaatgatgttcaatgttgttatcctgtctccgcatggatactttgcccaatccaatgtgttgggataccctgatactggtggtcaggttgtgtacattttggaccaagtccgcgctttggagaatgagatgcttttgaggatcaagcagcaaggccttgatatcacacctaagatcctcattgtaaccaggctgttgcctgatgctgttggtactacatgcggccagcgtgtggagaaggttattggaactgagcacactgacattcttcgtgttccattcaggagtgagaatggtatcctccgcaagtggatctcccgttttgatgtctggccattcctggaaacatacactgaggatgttgcaaacgaaattatgagggaaatgcaagccaaacctgatctcatcattggcaattacagtgatggaaaccttgttgccactctgctggctcacaaattaggagttacccagtgtaccattgctcatgccttggagaaaaccaaataccccaactcagacatatacttggacaagtttgacagccagtaccacttctcatgccaattcactgctgatcttatcgccatgaatcacactgatttcatcatcaccagtacattccaagaaattgctggaagcaaggacactgtggggcagtatgaatcacacattgcattcacccttcctgggctttaccgagttgtgcatggcatagatgtttttgatcccaagttcaacattgtctctcctggagctgacatgagtgtctacttcccgtacaccgaggctgacaagaggctcactgctttccaccctgaaattgaggagcttctctacagtgaagtcgagaacgatgaacacaagtttgtattgaaggacaagaacaagccaatcatcttctccatggctcgtcttgaccgagtgaagaacatgacaggtctggttgagatgtatggtaagaatgcacatctcagggatttggcaaaccttgtgattgtttgtggtgaccacggcaatcagtccaaggacagggaggagcaggctgagttcaagaagatgtacggtctcattgaccagtacaagttgaaggggcatatccgctggatctcagctcagatgaaccgtgttcgtaacggggagttgtaccgatacatttgtgacaccaagggagtctttgtccagcctgcattctatgaagcgtttggtctgactgtcatcgaagccatgacatgtggtttgccaacaatcgcaacatgccatggtggccctgctgagattattgttgatggggtgtctggtctgcacattgatccttaccacagtgacaaggctgctgatatcttggtcaacttctttgagaagtgcaagcaggattcaacctactgggacaatatttcacagggaggtctgcagaggatttacgagaagtacacctggaagctgtactctgagaggctgatgaccttgactggtgtatacggattctggaagtacgtaagcaaccttgagaggcgcgagactcgccgttacattgagatgttctatgctctgaaataccgcagcctggccagcgccgtcccattggctgtcgatggagagagcacatccaagtaa</cdnaseq> |
| Protein Sequence |
<aaseq>MAAKLARLHSLRERLGATFSSHPNELIALFSRYVNQGKGMLQRH QLLAEFDALIEADKEKYAPFEDILRAAQEAIVLPPWVALAIRPRPGVWDYIRVNVSEL AVEELSVSEYLAFKEQLVDGHTNSNFVLELDFEPFNASFPRPSMSKSIGNGVQFLNRH LSSKLFQDKESLYPLLNFLKAHNHKGTTMMLNDRIQSLRGLQSSLRKAEEYLMGIPQD TPYSEFNHRFQELGLEKGWGDCAKRVLDTIHLLLDLLEAPDPANLEKFLGTIPMMFNV VILSPHGYFAQSNVLGYPDTGGQVVYILDQVRALENEMLLRIKQQGLDITPKILIVTR LLPDAVGTTCGQRVEKVIGTEHTDILRVPFRSENGILRKWISRFDVWPFLETYTEDVA NEIMREMQAKPDLIIGNYSDGNLVATLLAHKLGVTQCTIAHALEKTKYPNSDIYLDKF DSQYHFSCQFTADLIAMNHTDFIITSTFQEIAGSKDTVGQYESHIAFTLPGLYRVVHG IDVFDPKFNIVSPGADMSVYFPYTEADKRLTAFHPEIEELLYSEVENDEHKFVLKDKN KPIIFSMARLDRVKNMTGLVEMYGKNAHLRDLANLVIVCGDHGNQSKDREEQAEFKKM YGLIDQYKLKGHIRWISAQMNRVRNGELYRYICDTKGVFVQPAFYEAFGLTVIEAMTC GLPTIATCHGGPAEIIVDGVSGLHIDPYHSDKAADILVNFFEKCKQDSTYWDNISQGG LQRIYEKYTWKLYSERLMTLTGVYGFWKYVSNLERRETRRYIEMFYALKYRSLASAVP LAVDGESTSK</aaseq> |
| Gene Sequence |
<dnaseqindica>5568..5615#5332..5470#4976..5220#4527..4845#3963..4187#3708..3874#3509..3625#3251..3424#3059..3154#2760..2976#2546..2664#2204..2396#1969..2120#1759..1879#1253..1347#aactatttattggtccttctggatctcggagaaaccctccattcgtttgctcgtctctgaccaccattgggtatgttgcttccattgccaaactgttcccttttacccataggctgattgatcttggctgtgtgattttttgcttgggtttttgagctgattcagcggcgcttgcagcctcttgatcgtggtcttggctcgcccatttcttgcgattctttggtgggtcgtcagctgaatcttgcaggagtttttgctgacatgttcttgggtttactgctttcggtaaatctgaaccaagaggggggtttctgctgcagtttagtgggtttactatgagcggattcggggtttcgaggaaaaccggcaaaaaacctcaaatcctcgacctttagttttgctgccacgttgctccgccccattgcagagttctttttgcccccaaatttttttttacttggtgcagtaagaatcgcgcctcagtgattttctcgactcgtagtccgttgatactgtgtcttgcttatcacttgttctgcttaatcttttttgcttcctgaggaatgtcttggtgcctgtcggtggatggcgaaccaaaaatgaagggttttttttttttgaactgagaaaaatctttgggtttttggttggattctttcatggagtcgcgaccttccgtattcttctctttgatctccccgcttgcggattcataatattcggaacttcatgttggctctgcttaatctgtagccaaatcttcatatctccagggatctttcgctctgtcctatcggatttaggaattaggatctaactggtgctaatactaaagggtaatttggaaccatgccattataattttgcaaagtttgagatatgccatcggtatctcaatgatacttactaaaacccaacaaatccatttgataaagctggttcttttatccctttgaaaacattgtcagagtatattggttcaggttgatttattttgaatcagtactcgcactctgcttcgtaaaccatagatgctttcagttgtgtagatgaaacagctgtttttagttatgttttgatcttccaatgcttttgtgtgatgttattagtgttgatttagcatggctttcctgttcagagatagtcttgcaatgcttagtgatggctgttgactaattattcttgtgcaagtgagtggttttggtacgtgttgctaagtgtaacctttctttgcagttcctgaaattgagtcatggctgccaagctagctcgcctccacagtctccgcgaacgcctcggtgccaccttctcgtctcatcccaatgagttgattgcactcttctctaggtgaagatctcaatataatatcttgtgtcttcttggaacctgctactaattgttttgagttttcaatgattttatccatacagttggttagttcttagtcaacccagatgtgaaacgataacatgttagtatgttacaaattcttagctgacaaggttatgcatctctttagttttaatgatggtatctataataatctgtgatgagctctaacatttttgtcttgagtcatgaatcttagatgatgttgaaatattgtttgttcatagctagattaagtacagatcatgtggtcttaaaaataagaagtaaaaatcaggtttatgtggtagtgccattaacatagttcagccgcagaaaggatgtgagatctaagcattggttctatttcttaaatatcactctatgcaggtatgttaaccagggaaagggaatgctccagcgtcaccagctgcttgcggagttcgatgccttgatcgaagctgacaaagagaaatatgctccctttgaagacattctccgggctgctcaggtaaatttggcaatgagccaggatggttatgatagtcaactcaaagtcaaataccagtctttctaacttacttccttgactgtatgtaggaagccattgtgctgccgccctgggttgcactggccatcaggccaaggcctggtgtctgggactacattcgggtgaatgtaagtgagttggcagtggaagagctgagtgtttctgagtacttggcattcaaggaacagcttgttgatggacagtaagtaccagaacgacgatttgcagattataactgaagcaaaataacagtgactgaattttacttctgtttttcttaaacagcaccaacagcaactttgttcttgagcttgattttgagcccttcaatgcctccttcccgcgcccgtccatgtccaagtccatcggaaatggggtgcagttccttaaccgtcacctgtcgtccaagttgttccaggacaaggagagcctctaccccttgctgaacttcctgaaagcccataaccacaagggcacggtaagcttccaatttgtggaacataccaaatgcttttatactagatgttttttcttgtgtgaattgctttaaatgttagtcctttagaaacccacttgacattctctgtaagttccaccaaatgacgggatccgaattttctattacagacaatgatgctgaatgacagaattcagagccttcgtgggctccaatcatcccttagaaaggcagaagaatatctgatgggcattcctcaagacacgccctactcggagttcaaccacaggtgattactttattatttctccttatcatatagcccatgttatactactgcaaatggaataattccttacaatgtgattcatgatttgaatacaggttccaagagctcggtttggagaagggttggggtgactgtgcaaagcgtgtgcttgacaccatccacttgcttcttgaccttcttgaggcccctgatccggccaacttggagaagttccttggaactattccaatgatgttcaatgttgttatcctgtctccgcatggatactttgcccaatccaatgtgttgggataccctgatactggtggtcaggtagagctttttaacaaattttccccttatatacagtacttcaaatatttctagttttgacctgttattctgttgtttgcaggttgtgtacattttggaccaagtccgcgctttggagaatgagatgcttttgaggatcaagcagcaaggccttgatatcacacctaagatcctcattgtatgttcaagatgttggtcttgaatgtttcaagttttaaacacttctcagtgcgaattgtagagtaacgtgcggacatgattttacttgatgcaggtaaccaggctgttgcctgatgctgttggtactacatgcggccagcgtgtggagaaggttattggaactgagcacactgacattcttcgtgttccattcaggagtgagaatggtatcctccgcaagtggatctcccgttttgatgtctggccattcctggaaacatacactgaggtaaatggtttatctgacaacgtccttcagagctgagcacaaaccatgaattctgagagctcatctttttttttttggttgcaggatgttgcaaacgaaattatgagggaaatgcaagccaaacctgatctcatcattggcaattacagtgatggaaaccttgttgccactctgctggctcacaaattaggagttacccaggtatgtttggttgtaaaccactcctttaaatatttctttcattaagtcaattacttatgatttctcttctacatggatacagtgtaccattgctcatgccttggagaaaaccaaataccccaactcagacatatacttggacaagtttgacagccagtaccacttctcatgccaattcactgctgatcttatcgccatgaatcacactgatttcatcatcaccagtacattccaagaaattgctggaaggtaaaattttctaaagagcagtagaatattgctgcgttgtgccaacacctaaacgggtatctgatgtttgtttcctctgtttcttcagcaaggacactgtggggcagtatgaatcacacattgcattcacccttcctgggctttaccgagttgtgcatggcatagatgtttttgatcccaagttcaacattgtctctcctggagctgacatgagtgtctacttcccgtacaccgaggctgacaagaggctcactgctttccaccctgaaattgaggagcttctctacagtgaagtcgagaacgatgaacacaagtgagtactgaactgctggttccgtccctgttattcacctaccatgtaacaaataattaaacactgatttgtgtgtttggtctagctttggctcttcagtctactaagtgccatgcactagaactttgtagatttgaactgcaattcttaattttctcactccttagtagaccacaataataattattgtgtctgacccagctagtttacaatagtgacttcaatgcttgttttttccccttgaacaattgtttactttctagcagtggagtttggcatctaaacttgaatacacgctgttcttttttgtgtataaaatgtttatttaatgttctgcaggtttgtattgaaggacaagaacaagccaatcatcttctccatggctcgtcttgaccgagtgaagaacatgacaggtctggttgagatgtatggtaagaatgcacatctcagggatttggcaaaccttgtgattgtttgtggtgaccacggcaatcagtccaaggacagggaggagcaggctgagttcaagaagatgtacggtctcattgaccagtacaagttgaaggggcatatccgctggatctcagctcagatgaaccgtgttcgtaacggggagttgtaccgatacatttgtgacaccaagggagtctttgtccaggtatatacatacgctgtcatattctactgctatatttctattctgagcttccagtagcaaatgatttctactatttgtaaagaacagccttgtgcttgagactaaaactgcttttaaaattgttttttagcctgcattctatgaagcgtttggtctgactgtcatcgaagccatgacatgtggtttgccaacaatcgcaacatgccatggtggccctgctgagattattgttgatggggtgtctggtctgcacattgatccttaccacagtgacaaggctgctgatatcttggtcaacttctttgagaagtgcaagcaggattcaacctactgggacaatatttcacagggaggtctgcagaggatttacgagaagtatgtatttcatgatctgcaaatatataacattttttttttacgattgacatataactgtagaaatcatgtgtccaatctatattgatcctacaaatttggacttgtcaggtacacctggaagctgtactctgagaggctgatgaccttgactggtgtatacggattctggaagtacgtaagcaaccttgagaggcgcgagactcgccgttacattgagatgttctatgctctgaaataccgcagcctggtaagttactctcgctgttcaacagcttgttaatttcagtattattgcactgagcatatctctgaattctgttgctacatttctttgttgaatccaggccagcgccgtcccattggctgtcgatggagagagcacatccaagtaatggaggggaaaatatgcatcttcagcaggagaagccgtcagctgcattcgaatttgataattttctgtagttgtcatttggcatccatgtttgccatggatgtgtactatgtctaaggtttcagtacttttgcgagattttgggcagtgcttgcctcaaataaacgccggttcctggtgtttatcgttcagaattcaatgcaatgttttattgccgcgcttcctcaatctgtcatgttgaatgaccactccctagtgccctactgtt</dnaseqindica> 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