Os09g0244900
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Contents
Annotated Information
Function
The TRAPP complexes, large multimeric assemblies that function in membrane traffic, are guanine nucleotide exchange factors (GEF) that activate the Rab GTPase Ypt1p.Ypt1p is activated by a large multisubunit complex called TRAPP that also functions in tethering. TRAPP is found in two forms: TRAPPI mediates traffic from the ER to the early Golgi, while TRAPPII plays a role in transport to the late Golgi. The two TRAPP complexes share seven subunits (Bet3p, Bet5p, Trs31p, Trs33p, Trs23p, Trs20p, and Trs85p), of which four (Bet3p, Bet5p, Trs23p, Trs31p) are required for the activation of Ypt1p.TRAPP is thus an unusual GEF in that its activity does not reside in a single subunit but instead requires a minimal five-subunit subcomplex comprising four different proteins[1].
Expression
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Evolution
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Labs working on this gene
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References=
- ↑ Harvey F. Chin, Yiying Cai, [...], and Enrique M. De La Cruz.Kinetic Analysis of the Guanine Nucleotide Exchange Activity of TRAPP, a Multimeric Ypt1p Exchange Factor.J Mol Biol. Jun 5, 2009; 389(2): 275–288.
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Structured Information
| Gene Name |
Os09g0244900 |
|---|---|
| Description |
Transport protein particle (TRAPP) component, Bet3 family protein |
| Version |
NM_001069192.2 GI:297609099 GeneID:4346489 |
| Length |
6323 bp |
| Definition |
Oryza sativa Japonica Group Os09g0244900, 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 9:3935276..3941598 |
| Sequence Coding Region |
3935389..3935540,3938899..3939016,3939091..3939345 |
| Expression | |
| Genome Context |
<gbrowseImage1> name=NC_008402:3935276..3941598 source=RiceChromosome09 preset=GeneLocation </gbrowseImage1> |
| Gene Structure |
<gbrowseImage2> name=NC_008402:3935276..3941598 source=RiceChromosome09 preset=GeneLocation </gbrowseImage2> |
| Coding Sequence |
<cdnaseq>atggtgcgggaggttgcggagagctgtgtcgacggggtggtgatggagatggtggcggcctactgcggccgcttctacgccgccaagccggagctcgccgcccgccgcatcgaggccatcggcttccaggtcggccaccagctcacggagagatataccatggagcgccctcgatttagtgatcatcttgaagcaatcaaatttatctgcaaagacttttggtcagagctattcaagaagcagattgacaatcttaaaactaatcataggggaacatttgttcttcaagataaccgtttccggtggcttactcgtgtttctatagatccatctgtagagagcatggatgcaactgacaatgactctgcaacactaggggatagcgcagcccaaacaacaagcatgcttctgtactttccatgcgggataataagaggtgccttgaccaatttgggtatttcgtgttctgtcactgcagacatgtccaaccttccagcatgtgagttgcactactccttttcatga</cdnaseq> |
| Protein Sequence |
<aaseq>MVREVAESCVDGVVMEMVAAYCGRFYAAKPELAARRIEAIGFQV GHQLTERYTMERPRFSDHLEAIKFICKDFWSELFKKQIDNLKTNHRGTFVLQDNRFRW LTRVSIDPSVESMDATDNDSATLGDSAAQTTSMLLYFPCGIIRGALTNLGISCSVTAD MSNLPACELHYSFS</aaseq> |
| Gene Sequence |
<dnaseqindica>114..265#3624..3741#3816..4070#tgggttcgtgcgacgggacctcgattcgtccatccagcttccactacccctccgcgcgctgcctagatctttcctctctctcgcaccctcttattggcggaggaggaggagggatggtgcgggaggttgcggagagctgtgtcgacggggtggtgatggagatggtggcggcctactgcggccgcttctacgccgccaagccggagctcgccgcccgccgcatcgaggccatcggcttccaggtcggccaccagctcacggagaggtaaacgaatctctctctctctcttgctggatggatctgctgctgcgcccctcccccgatctttccggcgagtccgccgacgagggcctcagatcttctcagtcggcagtcgctatcggttcttgctgactccgataaattttgaaatgttgcttttagtcgccctaaataagggcttattaatcagatttcgcaacaatatcgagccttagacttgatcgcgaagcacttcttgtctttgggagcaggagtgcagggccttgcctacaatcaaaatttgggttaattggatccgctattataaatttcacggtttagaaaaataccattactatttggtaccattgccattgcaatttcataagtattatcactacagaccttttcataacattttttgttttttaagaccaaattaccccctcttcttccttcttccttcccctctctcctctcttccagccgacgaactcgtatgagttcagcagctcatgccgcaggctgcagcgctggaagagccgccgcgcaggacactgctgccgatggagctgaaggagagtggcatagagttgtgagagcttgcttgcactcatttaagctaggattcagtaatgtcgtgcggaaacgtacaacatccgttggcctatgtagtgtgtcattgtgtatatgcagagacgtacgggacatgcatttgctgcaagtattcagtgactgaaccatgccaggtaggagtgtatgtgtatacaggcttgttcctatatgctgtgtcgtatggtagggcacagcacctcaactggatcacgcctccaacaatgtggcaaacgctcttgccgtctacaacagcctttctagcacaccgtcgtcgacgtgaacggaccaactgctgccggcagcctctctgaactctgccgagactgcagtcctcgccgtgcagtccagcgccgtggccggctacacaatttcgtcggagtttgttaagctggaggacaggagattgggggaaaataagtagatgagggtagaagaaagggacaattttgtcctaaaaactcagggttaattggatccatgccattataaattttttagttttgacgtatgcaattactattcaactattcagagtcataccaatacaatttttcaggtgtggaaatatatcactacatacccctttgatgtgtttcacaaaatttttagaccaaaatgccctcatcttcttcctttgtctcatcccatctcctgtagtcctgttaatcttcttcctcctatttttccccttccggatctgaatctggcaacttgtcttcttccttctcatttcctctgtcggccatgatgccagtgttgtgctgcgccatctagttcctcttattcccttcgccggccaaccaaggagcggagctcgtcgtcggcgcatcgttgtggaaggtgctgctggtgttgttcgcctgcggcgacttcaccatggcacgtggtcgtcgatgggcacatgctgtccatgatctgacagagtggcctttttcatgtgtaatctcaaactgaacatccttttttatgtgcctaattgagttggtcaaacatcccaaaatccattccactagcttctgctgagcagcaagcaaccaactaccagactaccagtacgtccttcaacagcaggaaaccaaccatgtgcaagaaatgggaagaagaagaagatgaacagcagacaggtcgggtagctctgaccagctgctgcagtttcgtgtatatggggctggtggccggcgccaccgggaccaacaccatcgagcaatggcggttggctcggactaggtgctgcggcatccagatccgatgagcctgaacccaacgccatctttggcacagccgactcgagccagcctgtcccaatcggcaaccccttgcactgaacttgcagcaagaattgagagaaagaagatgtacaggagagatggaaggacaccaaggaagaagaagagggcattttggtctaagaattttgttaaacacattgaaggggtatgtagtggtatattttcaatacctggaaaattgtaatggcatagctcttaatagttgaatggtaatggcatatgtcagaactgaaaaaatgctgtgaaagggtatatagcggcatatctctaacacttgtaaaattgtaatggcatgatttcaaatagatgaataataatggtatatttccaaactgcgaaatttacagtggcatagatccaattaacccaccatatatattccacaattccaaatgttcattccataagttttaacttcagtacatgtctagtatttcgaacaggtcacttgtttaaccgtttactgatgtgtatacaaatttgtaattctagacagtttatctattctcttgactggtactgttgtatcagcctttattaatagatcgcataactggatgccgccagcaccaatgttctgtcagacagggtaaaaaatatatcacatgattacagccatacggagtatatatttttatttaaacaagtacaactcttttttactgcatacctggctttcagtgtagggatccgaaaatgttatcactttgaactgcagtatatcctcaaatatggtgggtactggataggttcatctcatatagccttggagatctagataacatagatcattctggagttaattactccccggcattcttcttgaaattgatgatatatttcctaaacttttgtgtgtgtgtgtgcgggaacttcaaaggactcaacgagctgaaacagttgattgaagaacctttgtaccgatactttgattcatatgcgacagagtttaataatgcttacattttatcgtatggacattttctcgtgcaatatgtatgctcattattacgaaaatcctatattccttcagtaaccattgacatccttagttaaaaggatagggtatgtttgatcgatgattgggtgcttgtttatgactattttcttgagcaaagaattttgaagctaactataaaaaaggttcaacccgtattaatcatttacaaatgtttatgatgtttgtaattatttacaaaacaaaaatgctacttagcaattttagttatagtttattctctttttattttacttttttcagaaatgtgtttgcaattgtttatataatggaagtttcattttaattgctaattaaattttgtatgtttttattgcccttggtcatttattgattgtttcctgaagtatcatattcttgagcacaaatgtaactgctgtctgaattgcatatgtgtattgggttcttacctccactccttgtagtgctgcgattaaccataatttctgttcaaaatcagatataccatggagcgccctcgatttagtgatcatcttgaagcaatcaaatttatctgcaaagacttttggtcagagctattcaagaagcagattgacaatcttaaaactaatcatagggtaatgaatttaaaattcgtaccttattttgcgcttgtgacagaactgatgttacttgacttccctatatgcagggaacatttgttcttcaagataaccgtttccggtggcttactcgtgtttctatagatccatctgtagagagcatggatgcaactgacaatgactctgcaacactaggggatagcgcagcccaaacaacaagcatgcttctgtactttccatgcgggataataagaggtgccttgaccaatttgggtatttcgtgttctgtcactgcagacatgtccaaccttccagcatgtgagttgcactactccttttcatgacctttactttgcatgcaactccatgaggttgcaaaatgcactggatggtactccttctgttttcatataattattgccattagctttatttttcaaactcattaaacatggaatacctcaagggaaaaatattaaagtattttgaatgataaatgttatagtattattctttcctactaactaaaaaaattaaaatactacttgtcaaatgttgaatagtatagtcatgctcattgctgttaaaaaaggctgggccagtacttgaattaagaaaatcagatcagataatgctcaacatgagtgtctccatatgagaaattatttggtgaaaaatcttttggtgaatatgatggataagattttcattgtggatatttagtatctcagattgaataaccttatcacttgatcacacaagcatattcaaaagcactctcatgtggccatcattgatgccccaatcatcaaaaccaagcagagaattttgagaccacctgatcaggtagcaagttccagcttagctgcttaggatagatatgtcaggaagaagcagccagtatctttctagatgattttgatttcatccagatccagttcacgcagcaaacaaagtcttccatatgcaccgtatgtggcatcgacaaaaaataagtatcccacctgccattcttatggaccactggacatgcctcccttctttagcgttatttggctgcttggagcctgcttacttagtgaactgtttggggagctccttgctaagggtgcaaggggattctcttcctattcctcgactaaatcctttctgctgatctgttaaaaaaaaatagtatctatttccgtttgcctttcctagaaggttgttcaaatgtttgtagagatatt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