Difference between revisions of "Os01g0253300"

Revision as of 11:46, 2 June 2014

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Annotated Information

Function

Os01g0253300 encodes importin subunit alpha-1a,a member of importin family, which functions a essential role in nuclear protein import by specifically and directly binding to substrates containing either a simple or bipartite NLS motif^[1].In vivo assay suggests that importin alpha-1a can replace vertebrate importin a in the mediation of nuclear import of NLS substrates, implying that rice importin a1 functions as a NLS receptor in the process of nuclear import of proteins(Fig-1)^[2],which indicates the importin family has a conserved transportation function both in plants and mammals.The importin alpha-1a also has a function in virus infection by interact with mungbean yellow mosaic virus capsid protein^[3].

FIG-1.Rice importina1 supported nuclear import of NLS-GFP in vertebratein vitroassay system.A, mouse importinbalone does not dock (panels candd), whereas in combination with rice importina1,it does dock the T-GFP to the nuclear envelope (panels aandb). Such docking did not occur when Tm-GFP was used as substrate (panels andf). B, rice importin a1 mediates translocation of T-GFP (panels a and b), but not Tm-GFP (panels eandf), into the nucleus in conjunction with mouse importinband Ran-GDP. The translocation did not occur inthe absence of rice importin a1(panels candd). Panels a, c, and e, fluorescence images;panels b, d, and f, phase contrast images^[2].

Expression

Transcript analyses of rice importin alpha-1a by Chang-Jie Jiang et al shows importin alpha-1a is highly expressed in callus, followed by root and etiolated leaf and lowly expressed in green leaf(Fig-2)[1].The expression level of importin alpha-1a is greatly increased after darkt treatment in green leaf[Fig-3][4] .However it has a constitute expression pattern in non-photosynthetic tissues[Fig-4][3].Together,it indicates a complex regulation of the importin alpha-1a transcription.

Evolution

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References

↑ Jiang CJ, Shoji K, Matsuki R, Baba A, Inagaki N, Ban H, Iwasaki T, Imamoto N, Yoneda Y, Deng XW, Yamamoto N. Molecular cloning of a novel importin alpha homologue from rice, by which constitutive photomorphogenic 1 (COP1) nuclear localization signal (NLS)-protein is preferentially nuclear imported. J Biol Chem. 2001 Mar 23;276(12):9322-9. Epub 2000 Dec 20.
↑ ^2.0 ^2.1 Jiang CJ, Imamoto N, Matsuki R, Yoneda Y, Yamamoto N. Functional characterization of a plant importin alpha homologue. J Biol Chem. 1998 Sep 11.
↑ Guerra-Peraza O, Kirk D, Seltzer V, Veluthambi K, Schmit AC, Hohn T, Herzog E. Coat proteins of Rice tungro bacilliform virus and Mungbean yellow mosaic virus contain multiple nuclear-localization signals and interact with importin alpha. J Gen Virol. 2005 Jun;86(Pt 6):1815-26.

Structured Information

Gene Name	Os01g0253300
Description	Importin alpha-1a subunit
Version	NM_001049146.1 GI:115435705 GeneID:4327117
Length	5116 bp
Definition	Oryza sativa Japonica Group Os01g0253300, 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 1:8381095..8386210
Sequence Coding Region	8381261..8381470,8382333..8382429,8382526..8382617,8382709..8382840,8382955..8383140 ,8383224..8383387,8383494..8383572,8384464..8384592,8385082..8385209 ,8385328..8385691
Expression	GEO Profiles:Os01g0253300
Genome Context	<gbrowseImage1> name=NC_008394:8381095..8386210 source=RiceChromosome01 preset=GeneLocation </gbrowseImage1>
Gene Structure	<gbrowseImage2> name=NC_008394:8381095..8386210 source=RiceChromosome01 preset=GeneLocation </gbrowseImage2>
Coding Sequence	<cdnaseq>atgtcgctgcgcccgagcgagcgggtggaggtgcggcggaaccgctacaaggtggcggtggacgccgaggaggggaggcggcggcgcgaggacaacatggtggagatccgcaagagccgccgcgaggagagcctcctcaagaagcgccgcgaggggctccaggcccaggcccccgtccccgcctccgccgcaaccggcgtcgataagaagctcgaaagccttcctgctatgattggtggagtttattcggacgataacaaccttcagcttgaggccacaacacagttccgcaagttgctttctatagagaggagccctccaattgaagaggttattcaatcaggcgttgttcctagattcgtgcagtttcttaccagagaggatttcccccagctacagttcgaagctgcgtgggcacttacaaacattgcatctggcacttcggagaatacaaaggttgtcattgatcatggggctgtaccaatatttgtgaagcttcttggttcttctagtgatgatgttcgtgagcaggctgtatgggcattgggcaatgttgctggtgattcccctaagtgccgtgaccttgttcttgccaatggtgcattgctgcctctgctagcacagttgaatgagcacactaaactctctatgctaaggaatgcaacttggactttatcgaacttctgcagaggaaaaccacagccatcatttgaacagactaggcctgctcttccagcactggcacggcttattcactccaatgatgaggaagttctcactgatgcgtgctgggctctttcatatttatctgatggcactaatgacaagatccaagccgtgattgaagctggtgtttgcccccgtcttgtggagcttctcctccatccatcaccttcagtgcttatacccgcactacgaactgttggaaatattgtaactggagatgacgcgcaaactcagtgcatcattgatcatcaagccctcccttgcctcctaagtctgttgacacaaaatctcaagaaaagcatcaagaaagaggcttgctggactatttcaaatattactgctggtaacaaagatcagatacaggctgtcataaatgctggcattattggtcctctggtgaatctgctccaaacggcagagttcgatatcaagaaggaagctgcatgggccatctcaaatgctacttcaggcggtagccatgatcaaatcaagtatctggtgagcgagggctgcatcaagccattgtgtgatcttcttatttgcccagatataagaatcgttacagtttgtttggagggtctcgagaacattcttaaagtaggagaaaccgacaagaccttggctgcaggtgatgtgaatgtcttttcccagatgattgatgaagcggaaggtttggaaaagattgagaacttgcagagccatgataacaatgagatctatgaaaaagctgtgaagattcttgaggcctactggatggatgaggaggatgatacaatgggagctaccacggtagctgctccccaaggtgctacttttgactttggccaaggcggtggtgctgctcaattcaaataa</cdnaseq>
Protein Sequence	<aaseq>MSLRPSERVEVRRNRYKVAVDAEEGRRRREDNMVEIRKSRREES LLKKRREGLQAQAPVPASAATGVDKKLESLPAMIGGVYSDDNNLQLEATTQFRKLLSI ERSPPIEEVIQSGVVPRFVQFLTREDFPQLQFEAAWALTNIASGTSENTKVVIDHGAV PIFVKLLGSSSDDVREQAVWALGNVAGDSPKCRDLVLANGALLPLLAQLNEHTKLSML RNATWTLSNFCRGKPQPSFEQTRPALPALARLIHSNDEEVLTDACWALSYLSDGTNDK IQAVIEAGVCPRLVELLLHPSPSVLIPALRTVGNIVTGDDAQTQCIIDHQALPCLLSL LTQNLKKSIKKEACWTISNITAGNKDQIQAVINAGIIGPLVNLLQTAEFDIKKEAAWA ISNATSGGSHDQIKYLVSEGCIKPLCDLLICPDIRIVTVCLEGLENILKVGETDKTLA AGDVNVFSQMIDEAEGLEKIENLQSHDNNEIYEKAVKILEAYWMDEEDDTMGATTVAA PQGATFDFGQGGGAAQFK</aaseq>
Gene Sequence	<dnaseqindica>167..376#1239..1335#1432..1523#1615..1746#1861..2046#2130..2293#2400..2478#3370..3498#3988..4115#4234..4597#gtgtgagctttaactccccccctttccccgcggccactagggtttctcctcctctttcctctcctcctccgccccgacgcctcgctagggtttttgcctctccctccgccgccgccgctgccgcgaggagaggagggggggagagcacccagccggcgagccagccatgtcgctgcgcccgagcgagcgggtggaggtgcggcggaaccgctacaaggtggcggtggacgccgaggaggggaggcggcggcgcgaggacaacatggtggagatccgcaagagccgccgcgaggagagcctcctcaagaagcgccgcgaggggctccaggcccaggcccccgtccccgcctccgccgcaaccggcgtcgataagaaggtgagtagtatactcctcgattcccccccgctcccctcccctcccctcccctgcctccgatgacgctatcccatcgtgtcctggatcccatattttaggtaggtgttggattggattgcactttttgagagggtttttgattcgtctgcggcatatttgtttaagtttgttattatacccgcatgtctactagcgtgcgggtgagggtaggttcctgctagatgtaggcaacacttagcaccacgtttcgatgcctcgattagtcacttgatttctgattctccttctgttgacaatattacaagtactgttagttggcacggttgcgaactcctagcgtttgaaatgtttccaggtacatgcctgctagctccagtgatctagttttagttttaggacatgtagattgtggtcttaggatcaaatcttccacggattcactgcggataattagttaggtgaccaggaactgtaataatgattgatcttcctgataatttttagtgtacatcttgctgttgtttcatcttatgttttgatagaagcatacaaatgagctgatgccatattatatctttatagctattttttgtgctatcttgaaattgagggtccagtgcaactttccttatgactgaaccttgtctttagtacatggaagcacataaatcatatagtagtgtttctggtcatgtttctagagacgtcctacattgataacgcatacatttatgttactgttaaactacctctggtttctgttctttgcaccacccctaaaagagaaggaaactgcttttaaaccctttttggggtttaatacgggaagttgagtatttgatatctctgttgaatgttgtagctcgaaagccttcctgctatgattggtggagtttattcggacgataacaaccttcagcttgaggccacaacacagttccgcaagttgctttctataggtacaaacctcttaaatgttttgggctgttaccttgtgaaaataatagttgaacaaaagttaattactaattacacccattacaatttttaattagagaggagccctccaattgaagaggttattcaatcaggcgttgttcctagattcgtgcagtttcttaccagagaggatttcccccagctacaggtgtgtgccaacacaatattattttcattatctggtaggttcaaataaaaatggatttattactgtggtgcttttgaattaaattttgtagttcgaagctgcgtgggcacttacaaacattgcatctggcacttcggagaatacaaaggttgtcattgatcatggggctgtaccaatatttgtgaagcttcttggttcttctagtgatgatgttcgtgagcaggtatccgatcatctcctgacttgtctttgtgctttctgtacttccttgatattattttgattgagtgcattgttggagttattaatgtttttacctcttgaaaaaaaattgaaggctgtatgggcattgggcaatgttgctggtgattcccctaagtgccgtgaccttgttcttgccaatggtgcattgctgcctctgctagcacagttgaatgagcacactaaactctctatgctaaggaatgcaacttggactttatcgaacttctgcagaggaaaaccacagccatcatttgaacaggtttggacaaagtttctttgtactctactgtagttagtagggaaagacagttccttaacatgatgtttattgggtgtcaatagactaggcctgctcttccagcactggcacggcttattcactccaatgatgaggaagttctcactgatgcgtgctgggctctttcatatttatctgatggcactaatgacaagatccaagccgtgattgaagctggtgtttgcccccgtcttgtggagcttctcctgtaagtgacaacattgcattacaattttctgccattttcctttagattcttatttgctactctcattataccctttttaatattttatactgtttacaacatgaagccatccatcaccttcagtgcttatacccgcactacgaactgttggaaatattgtaactggagatgacgcgcaaactcaggtattgtgttgattttttgcatctctatatctgacagattttgtatcaattgatatcaactactaagactcatgaatcttgagcttaatatttagaggttgtgttcatcacagttgatattaaattttaggcttgtggaaaatgtttaatatcatagttgatattaaatctagaggttgcatctaatgtggaaaatgttttgtaaaaactattgaaaaataaatgcacatatttgtcatatgtagatgcacatgtttggcaatttgacctactctttacgcccatcaattaaagatttgtctagtttgtgtcacttaaatacttgagatttgtcctctcacagtatcacttagatctatactctatactactttaaaaggtagtagtggtggtggcagtgaatctgccagcactacctctatcactaatgtatgggccctccatgttgggtgaaacccacatgctcaataaatttaaacgtcctccaaaagataatgtccatattgtttggtaagatctacagggaaggaatccataaaggggttgaaaagagccagtctacatattcttcaaatgatgagcatgcagtgtgcacagcatgatttttttttcattgcaacgcataggcaatttgctagtttgcctaaaaattcattgcctgctttgcagcaagtcatagctgctgtacttgtttcagccaaacttggcttttcttattgtattcttattattgtttgagttttaggagagctgagaatttttctgctatgctaaagctggtgttcatataatatgaaatatctactgtagatcacagcatgaaagttaattgcttttttgacatccatattgccatctcatcatctccccccaccccctttttttgtacagtgcatcattgatcatcaagccctcccttgcctcctaagtctgttgacacaaaatctcaagaaaagcatcaagaaagaggcttgctggactatttcaaatattactgctggtaacaaagatcagatacaggtatgtgtacagacttaaaaaatactgacatgctcatcattctactaagtcatgaaggatttgtgtagtgcatacttagtagttttaattgtgttccctctccaaaccataaacaccacacaatgttcatattccatgcaagctttcaggtcaacttttcctttcatgatgattacacttgttagcagactcatccttgttgtacaaagactgagaacatggtagtaacttaaagaaacccttatgtatgatttgctcgcaaagtatcaatggcagcctaatcactagtccaaatgttgctgctgggacctggggtcctagaaggggaggggatgggagcatatggatgattgattcatttacacggttgggaacttgtgcacttagctgcaatctttcgtccttaacctataatagcctatagctatagatcttgttgattgtgcatgttctgaaatgttcaacaatttgctgcattgactaccataggctgtcataaatgctggcattattggtcctctggtgaatctgctccaaacggcagagttcgatatcaagaaggaagctgcatgggccatctcaaatgctacttcaggcggtagccatgatcaaatcaagtatgtttactcaccttgcaccagttctattcagctttatgaaatgcaaatataaccgctttcatagtttcatgttaagcttcatttggatttgatattgtatggtttgttaaaataggtatctggtgagcgagggctgcatcaagccattgtgtgatcttcttatttgcccagatataagaatcgttacagtttgtttggagggtctcgagaacattcttaaagtaggagaaaccgacaagaccttggctgcaggtgatgtgaatgtcttttcccagatgattgatgaagcggaaggtttggaaaagattgagaacttgcagagccatgataacaatgagatctatgaaaaagctgtgaagattcttgaggcctactggatggatgaggaggatgatacaatgggagctaccacggtagctgctccccaaggtgctacttttgactttggccaaggcggtggtgctgctcaattcaaataaatacaggtactctcaatcctcaacatggtttgtgtttattgtgggttgtttccactcttaccataaatcctttctgttctggtatcattcacttgaggcaacaagtaatgatttcaaatttcctcgacagatttgaccagaggtggtaaattgtggccactgtgcggggtactgaattgttctggtggttcaataagctaaaggtttcaagggggccagtgttacattatttccctactggtcacggatatcatatcactacgtctgtaacagggattaaagctttgaagtctgcgtttttcatcaggctactactatgtagtgtttgcatcttttagtatggtgtgcaacattttgctacttgtatagcctgagtcgaagcttctgcaaagccgtcacaacacattcctgaacccgtctggttttgagtttcgtcaggagtgtgctgagttgcagtttgtccggacatgtaaaccattatgccttttaaattatatattgctagggtttgttcggttc</dnaseqindica>
External Link(s)	NCBI Gene:Os01g0253300, RefSeq:Os01g0253300

[ref1-1] Jiang CJ, Shoji K, Matsuki R, Baba A, Inagaki N, Ban H, Iwasaki T, Imamoto N, Yoneda Y, Deng XW, Yamamoto N. Molecular cloning of a novel importin alpha homologue from rice, by which constitutive photomorphogenic 1 (COP1) nuclear localization signal (NLS)-protein is preferentially nuclear imported. J Biol Chem. 2001 Mar 23;276(12):9322-9. Epub 2000 Dec 20.

[ref2-2] 2.0 ^2.1 Jiang CJ, Imamoto N, Matsuki R, Yoneda Y, Yamamoto N. Functional characterization of a plant importin alpha homologue. J Biol Chem. 1998 Sep 11.

[ref3-3] Guerra-Peraza O, Kirk D, Seltzer V, Veluthambi K, Schmit AC, Hohn T, Herzog E. Coat proteins of Rice tungro bacilliform virus and Mungbean yellow mosaic virus contain multiple nuclear-localization signals and interact with importin alpha. J Gen Virol. 2005 Jun;86(Pt 6):1815-26.

[1]

[2]

[3]

@@ Line 7: / Line 7: @@
 [[File:Fig1 Rice importina1 supported nuclear import of NLS-GFP in vertebratein vitroassay system.jpg]]
-FIG-1.'''Rice importina1 supported nuclear import of NLS-GFP in vertebratein vitroassay system'''.A, mouse importinbalone does not dock (panels candd), whereas in combination with rice importina1,it does dock the T-GFP to the nuclear envelope (panels aandb). Such docking did not occur when Tm-GFP was used as substrate (panels andf). B, rice importin a1 mediates translocation of T-GFP (panels a and b), but not Tm-GFP (panels eandf), into the nucleus in conjunction with mouse importinband Ran-GDP. The translocation did not occur inthe absence of rice importin a1(panels candd). Panels a, c, and e, fluorescence images;panels b, d, and f, phase contrast images.
+FIG-1.'''Rice importina1 supported nuclear import of NLS-GFP in vertebratein vitroassay system'''.A, mouse importinbalone does not dock (panels candd), whereas in combination with rice importina1,it does dock the T-GFP to the nuclear envelope (panels aandb). Such docking did not occur when Tm-GFP was used as substrate (panels andf). B, rice importin a1 mediates translocation of T-GFP (panels a and b), but not Tm-GFP (panels eandf), into the nucleus in conjunction with mouse importinband Ran-GDP. The translocation did not occur inthe absence of rice importin a1(panels candd). Panels a, c, and e, fluorescence images;panels b, d, and f, phase contrast images<ref name="ref2" />.
 ===Expression===

Difference between revisions of "Os01g0253300"

Revision as of 11:46, 2 June 2014

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Function

Expression

Evolution

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References

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