Difference between revisions of "Os01g0678500"

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===Function===
 
===Function===
 
[[File:Expression of OsTPC1in rice tissues.jpg|right|thumb|250px|Fig-4 Expression of OsTPC1in rice tissues. First-strand cDNA was synthesized from the total RNA extracted from various tissues andamplified indicated cycles by RT-PCR. Actin cDNA was used as a control DNA. PCR products were analyzed by agarose gel electrophoresis.From<ref name="ref1" />]]
 
[[File:Expression of OsTPC1in rice tissues.jpg|right|thumb|250px|Fig-4 Expression of OsTPC1in rice tissues. First-strand cDNA was synthesized from the total RNA extracted from various tissues andamplified indicated cycles by RT-PCR. Actin cDNA was used as a control DNA. PCR products were analyzed by agarose gel electrophoresis.From<ref name="ref1" />]]
[[File:Fig-7 Intracellular localization of the GFP-OsTPC1 fusion protein.jpg|left|thumb|250px|Intracellular localization of the GFP-OsTPC1 fusion protein. From <ref name="ref2" />]]
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[[File:Fig-7 Intracellular localization of the GFP-OsTPC1 fusion protein.jpg|left|thumb|250px|Fig-7:Intracellular localization of the GFP-OsTPC1 fusion protein. From <ref name="ref2" />]]
 
'''Os01g0678500''' encodes voltage-dependent calcium channel protein TPC1(OsTCP1),which functions as major voltage-gated Ca2+ channel across the plasma membrane<ref name="ref1" /> .As cytosolic free Ca2+ serves as an important second messenger participating in signal transduction of various environmental stresses and OsTCP1 is involved in the regulation of cytosolic Ca2+ channel,the OsTCP1 plays a important role in regulating the plant growth,acts as the major ROS-responsive Ca2+ channel and is the possible target of Al-dependent inhibition<ref name="ref1" /><ref name="ref2" /><ref name="ref3" />.Also OsTPC1 functions as one of the key regulation factor in elicitor induced disease resistance reaction, the activation of MAPK cascade and hypersensitive cell death<ref name="ref2" />. By generating Ostpc1 knock-out and apoaequorin-expressing Ostpc1 cells, ''Haruyasu Hamada et al''  indicates that OsTPC1 has a role in the regulation of TvX-induced sustained increase in cytosolic Ca2+<ref name="ref4" />.
 
'''Os01g0678500''' encodes voltage-dependent calcium channel protein TPC1(OsTCP1),which functions as major voltage-gated Ca2+ channel across the plasma membrane<ref name="ref1" /> .As cytosolic free Ca2+ serves as an important second messenger participating in signal transduction of various environmental stresses and OsTCP1 is involved in the regulation of cytosolic Ca2+ channel,the OsTCP1 plays a important role in regulating the plant growth,acts as the major ROS-responsive Ca2+ channel and is the possible target of Al-dependent inhibition<ref name="ref1" /><ref name="ref2" /><ref name="ref3" />.Also OsTPC1 functions as one of the key regulation factor in elicitor induced disease resistance reaction, the activation of MAPK cascade and hypersensitive cell death<ref name="ref2" />. By generating Ostpc1 knock-out and apoaequorin-expressing Ostpc1 cells, ''Haruyasu Hamada et al''  indicates that OsTPC1 has a role in the regulation of TvX-induced sustained increase in cytosolic Ca2+<ref name="ref4" />.
  

Revision as of 05:37, 3 June 2014

Please input one-sentence summary here.

Annotated Information

Function

Fig-4 Expression of OsTPC1in rice tissues. First-strand cDNA was synthesized from the total RNA extracted from various tissues andamplified indicated cycles by RT-PCR. Actin cDNA was used as a control DNA. PCR products were analyzed by agarose gel electrophoresis.From[1]
Fig-7:Intracellular localization of the GFP-OsTPC1 fusion protein. From [2]

Os01g0678500 encodes voltage-dependent calcium channel protein TPC1(OsTCP1),which functions as major voltage-gated Ca2+ channel across the plasma membrane[1] .As cytosolic free Ca2+ serves as an important second messenger participating in signal transduction of various environmental stresses and OsTCP1 is involved in the regulation of cytosolic Ca2+ channel,the OsTCP1 plays a important role in regulating the plant growth,acts as the major ROS-responsive Ca2+ channel and is the possible target of Al-dependent inhibition[1][2][3].Also OsTPC1 functions as one of the key regulation factor in elicitor induced disease resistance reaction, the activation of MAPK cascade and hypersensitive cell death[2]. By generating Ostpc1 knock-out and apoaequorin-expressing Ostpc1 cells, Haruyasu Hamada et al indicates that OsTPC1 has a role in the regulation of TvX-induced sustained increase in cytosolic Ca2+[4].

Expression

Expression of the OsTPC1mRNA is detected at a similar level ubiquitously in calli, mature leaves and shoots except for roots where its expression was weaker.[Fig-4] [1]

Cellular localization

To study the intracellular localization of the OsTPC1 protein, Takamitsu Kurusu et al introduced the green fluorescent protein (GFP) construct fused to the N-terminus of OsTPC1 into onion epidermal cells and examined its intracellular localization by confocal laser scanning microscopy. When GFP alone was expressed, it localized to the nucleus and the cytoplasm[Fig-7 a-c],In contrast, the GFP-OsTPC1fusion protein was specifically targeted to the plasma membrane in patches (Figure-7 d–f), suggesting that OsTPC1 functions at the plasma membrane.[2]

Evolution

Labs working on this gene

Please input related labs here.

References

  1. 1.0 1.1 1.2 1.3 Kurusu T, Sakurai Y, Miyao A, Hirochika H, Kuchitsu K. Identification of a putative voltage-gated Ca2+ -permeable channel (OsTPC1) involved in Ca2+ influx and regulation of growth and development in rice. Plant Cell Physiol. 2004 Jun;45(6):693-702.
  2. 2.0 2.1 2.2 2.3 Kurusu T, Yagala T, Miyao A, Hirochika H, Kuchitsu K. Identification of a putative voltage-gated Ca2+ channel as a key regulator of elicitor-induced hypersensitive cell death and mitogen-activated protein kinase activation in rice. Plant J. 2005 Jun;42(6):798-809.
  3. Hashimoto K, Saito M, Matsuoka H, Iida K, Iida H. Functional analysis of a rice putative voltage-dependent Ca2+ channel, OsTPC1, expressed in yeast cells lackingits homologous gene CCH1.Plant Cell Physiol. 2004 Apr;45(4):496-500.
  4. Hamada H, Kurusu T, Okuma E, Nokajima H, Kiyoduka M, Koyano T, Sugiyama Y, Okada K, Koga J, Saji H, Miyao A, Hirochika H, Yamane H, Murata Y, Kuchitsu K. Regulation of a proteinaceous elicitor-induced Ca2+ influx and production of phytoalexins by a putative voltage-gated cation channel, OsTPC1, in cultured rice cells. J Biol Chem. 2012 Mar 23;287(13):9931-9.

Structured Information

Gene Name

Os01g0678500

Description

Similar to Two-pore calcium channel

Version

NM_001050393.1 GI:115439156 GeneID:4325272

Length

14280 bp

Definition

Oryza sativa Japonica Group Os01g0678500, 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 1:29662516..29676795

Sequence Coding Region

29663493..29663580,29663659..29663699,29664261..29664332,29664532..29664618,29665072..29665162
,29665303..29665367,29665722..29665890,29666294..29666357,29666942..29667049
,29667712..29667769,29668401..29668544,29668895..29668960,29669815..29669887
,29671027..29671088,29671511..29671588,29671712..29671817,29671905..29672071
,29672549..29672609,29673792..29673901,29674421..29674516,29674942..29675049
,29675156..29675299,29676438..29676653

Expression

GEO Profiles:Os01g0678500

Genome Context

<gbrowseImage1> name=NC_008394:29662516..29676795 source=RiceChromosome01 preset=GeneLocation </gbrowseImage1>

Gene Structure

<gbrowseImage2> name=NC_008394:29662516..29676795 source=RiceChromosome01 preset=GeneLocation </gbrowseImage2>

Coding Sequence

<cdnaseq>atgagggagaggggagagatgagggaggcgaaggcgcctctgatcgcggaggcggcggagcacatatcccattcccacggctccgggtcgtccggcaccggcagccacaccagcggcggcggcggcgggtggaggggctcgaggcagtaccagcgccgctcggacgccctcgcctacggcaaccggtaccagaaggcggccgccctcgtcgacctcgcagaagatggtgtgggtatccctgaggatgtcttgaatgacacaaggtttgagagggctatgagattctattttgtgtatctccggttggattggctgtggtcacttaacctatttgctttgattcttttgaattttctcgagaagcctctctggtgccggggatattctcaacatgcttgtgatcaaagggatctttactttctggggcagttgccatacttgagcaaaactgaatctctcatatatgaggggctcacacttgttattcttgtaatggatatcttctatccactgtcctatgaaggtttaaacctattctggaagaacacaataaataaactgaaggttcttcttctcttcatcttagcatgtgacatactggtgtttgcatttagtccccaacctttcagagtagctccttacatccgtgttgcgtttctaataatgaatatcagggaactgcgaatgtgtgctgttacactggttggtatggttgggacataccttaatgttttggccctttcactattgttcctcttattcgcaagctggctagcttatgtaacatttgaggatacaccacaaggaaagactgttttctcgtcatatggtaccacgttatatcagatgtttattctcttcaccacctccaataatcctgatgtatgggttcctgcttataagagctctcgttggtcctcactattttttattgtctacgtacttttgggagtttacttcctaacaaatttaattcttgctgtcatttatgatagctttaaggagcagctagcaaagcaagtttctcaggcagactgtacaaggaaaagtatactagagaaggcatttggtatcattgatgctactggtcagggttatctcaacaaagaacagtgcctatcattactagatgagctcaacaaatacagatcgttacctaaaacctcaagggaagattttgaattaatttttgccgagcttgatcagagtggtgattttaaggttacctctgaagaatttgctacactgtgcaataccattgcaataaaattccagaaagaaccacctccatcctatctcgagaagtatccatctttctatcattcagcactgtgtgaatggttgaaatcttttgtgcggagcccactgtttgagtatattgttatttttgttcttctgatgaatctagtcgctgtcattattgaaacaacgctggatatagaaaacagctcctcgcagaaagtgtggcaagaagttgagtttgtctttggatggatttacgttatagagatggcactcaaaatattttcattaggatttggtgcctactggatggaaggtcaaaacaagtttgattttgtgcttacttggactatatttattggagagactctaacatttgccttcccatcgaagctttcttttctttcaaatggagaatggattcggtaccttcttcttggaaggatgttacgcttgacaagaattctgttgcaagttcggcgtttcagagcatttgttgcaacattctttactctgatgtctagcttgatgccatatttggggattgtattctgcaccctttgcatttactgctcccttggtttgcagatatttgggggcattgtgtatgcaggaaatccaacactagaagaaaccgatctcttcagtaacgactatcttctttttaacttcaatgactatccaagtggtatggtaactctgttcaatttgttagtgatgggcaattggcaagcttggatggagagctacaggcaattgactggaagttattggagcctgatttattttgtcagcttttacctcatttcagtattactgctgcttaatctgattgtagcatttgtgttggaggcattttttgctgagatggaactggagaaagatggcgaagctgatatccaggatcctactttggaaggaagaaacaggcggcgatctgtgcgtgtgaggacaaaggggaccatggttgatattcttcttcaccatatgttgagcaatgaacttgatggatctcaaaaccgtgaccaatag</cdnaseq>

Protein Sequence

<aaseq>MRERGEMREAKAPLIAEAAEHISHSHGSGSSGTGSHTSGGGGGW RGSRQYQRRSDALAYGNRYQKAAALVDLAEDGVGIPEDVLNDTRFERAMRFYFVYLRL DWLWSLNLFALILLNFLEKPLWCRGYSQHACDQRDLYFLGQLPYLSKTESLIYEGLTL VILVMDIFYPLSYEGLNLFWKNTINKLKVLLLFILACDILVFAFSPQPFRVAPYIRVA FLIMNIRELRMCAVTLVGMVGTYLNVLALSLLFLLFASWLAYVTFEDTPQGKTVFSSY GTTLYQMFILFTTSNNPDVWVPAYKSSRWSSLFFIVYVLLGVYFLTNLILAVIYDSFK EQLAKQVSQADCTRKSILEKAFGIIDATGQGYLNKEQCLSLLDELNKYRSLPKTSRED FELIFAELDQSGDFKVTSEEFATLCNTIAIKFQKEPPPSYLEKYPSFYHSALCEWLKS FVRSPLFEYIVIFVLLMNLVAVIIETTLDIENSSSQKVWQEVEFVFGWIYVIEMALKI FSLGFGAYWMEGQNKFDFVLTWTIFIGETLTFAFPSKLSFLSNGEWIRYLLLGRMLRL TRILLQVRRFRAFVATFFTLMSSLMPYLGIVFCTLCIYCSLGLQIFGGIVYAGNPTLE ETDLFSNDYLLFNFNDYPSGMVTLFNLLVMGNWQAWMESYRQLTGSYWSLIYFVSFYL ISVLLLLNLIVAFVLEAFFAEMELEKDGEADIQDPTLEGRNRRRSVRVRTKGTMVDIL LHHMLSNELDGSQNRDQ</aaseq>

Gene Sequence

<dnaseqindica>13216..13303#13097..13137#12464..12535#12178..12264#11634..11724#11429..11493#10906..11074#10439..10502#9747..9854#9027..9084#8252..8395#7836..7901#6909..6981#5708..5769#5208..5285#4979..5084#4725..4891#4187..4247#2895..3004#2280..2375#1747..1854#1497..1640#143..358#agttaatcccactcccacttccatatcggcgtaacgctcctgtaaactaatccacttctacttccgcttccgctcgcggttccagatctctccctgcacatctgcatccactcacactcgagggagagggagagggggagagatgagggagaggggagagatgagggaggcgaaggcgcctctgatcgcggaggcggcggagcacatatcccattcccacggctccgggtcgtccggcaccggcagccacaccagcggcggcggcggcgggtggaggggctcgaggcagtaccagcgccgctcggacgccctcgcctacggcaaccggtaccagaaggcggccgccctcgtcgacctcgtcggttccctcctcctctgcctccctcttgtgtcgttcgtactcgttgttaggcgaagcgcgacgctgctttgctgtaggctgctcctgtgttgggaattgcggtgatcgtggtcgtgggtttgtcggggtgggtggtgtgcgctggcgagcgtggatgtaggggcggtgtttgatggattgtctgcccgagctcggcatgtttacgtggtgcgggagcttggcgtggtcgaggtagttgtttgcagcttgtgctctgttcggagccgtgagatagggccaaggcgccactcggcataggttgcttggcgataacctgaactttgcgcacatttacgtgccaatgccagaattaagcgtggtttcagttgtgctgttttatgacagaaaacgtactaacagtgtttaagttgactttcactatttccgatgttgcatatagctgttaacttttgtttcgatttttgcaagcgctatctttgaattatgttaaaaatgtaccatctaaaaattttatcatgtgcaaattgacgttttactataactgtcgtgtcatttgcatgtgaattctcactcaatacccagtaccataacaagaatatatgttatccgtcgacactcttagctaacggacttagcgcagtaaatcccattttcttttgcaacacaactagggtatctttaatgatgcaaaacaaggtctacatttgtgttttgcgatcagggttcactctatcggttcagggttttctatcgggggtcaccgaaatcctgaaatttcggtccaaaatttccgaaattttaaacaaaatttagttgaatttgaacaaatattatccaaattcatgaaaaaattgaaaaattcaaaaatttcggccgaattaatatcgtatcgggggtcacttggaaatttcggtccgaaatttccaaccctgtttgcgatattgttgtcattttctgatgagttcacgtcctctaccataatatcactaccattacaggcactgacgtgtgggacaataggaggataggacccacatactagtgattgtaatggtactgtaatggtagtgactttatggtagaggatcctcacccttttctgatatactgggaattaattgcaatggtttgacaggcagaagatggtgtgggtatccctgaggatgtcttgaatgacacaaggtttgagagggctatgagattctattttgtgtatctccggttggattggctgtggtcacttaacctatttgctttgattcttttgaattttctcgaggttagttatgaaaatggaacccatctattacattgtacaggaaagcggctaaaatcctgcaagtcccattatggtcatgttttgagttgtttcttttgcatttcagaagcctctctggtgccggggatattctcaacatgcttgtgatcaaagggatctttactttctggggcagttgccatacttgagcaaaactgaatctctcatatatgaggtaaggctttgtctataagagtggtgtttctatgttctctgaaaactttaattgcagaaaacttcaaaaactacagtcggtagtagattaatgagcagttggaaagtcaggtcaataatttgcttttgtaattacactcaactttgttggtgaccattaaagcaacctttggtgactatactaatcacagcttctcaatattattgttgagctttgagatgtattgcatagttagttgggccagagcatggtcatttgagtacattaaaatctgaattccatcattctagattttgtatggttatttgttgtataacaggataatgcacatgctttttttaacgaacatgtaatggtctgtattgaggactgaaaacattaatctgatatatttgacgcaaacttgccgttcttttcaatttcaggggctcacacttgttattcttgtaatggatatcttctatccactgtcctatgaaggtttaaacctattctggaagaacacaataaataaactgaaggtatggcatctgtttataaaatagatatatatgagtataaatagcaagaatagcatacatgtttgtttttctaagatccattgatgtggatagcatacaagtataaactgaagttaaataaaactatgtaactgcaaaaaataatggatgatgtggattacatctggccctactgagataaaatctaaaatttgaaggcatatgtgagtgaacattcacatatttaactactttttgtaaattaactatgtgcttttacgtatgagggatggctattttttttgttagatttgactaggcccttccaatttttgatacagttacattcaagctaaataaacttccttgttttaactagactacccattgtgctaactctgccccttttaattcctacgctgcaaacagactgtaatcctgttgttttactttaattaagcatatgtttctctctaaaaatgtgtctttcttactgcttcacaaactgtggtctatccatatttctgctttgtcttgtaggttcttcttctcttcatcttagcatgtgacatactggtgtttgcatttagtccccaacctttcagagtagctccttacatccgtgttgcgtttctaataatgaatatcaggtttgcagtgttttatctactctagactacagtttctgctgctagctttctgaattcagtatgaaggttcgttactgaatcaatctcaaagaaaactagctgggtggcccgcgcaattgcgcggctagcacccatacaaaattatctattttttacatattattttacttaaattttgttaaatagctaactcattgtcttaggactttgaaagaccgaactttatcatccaagtgtttctaattttatattttttagaagtcacgctagtcgctacccctttatttgttgccgatttaccaccgtttctattcatcctcctcatttgtcatcgttgtgttctagatggacttttttttttgaaaattccatatttttcaccctgatatttttttatttataaattgttttcctacttgaactcttataattatttttctatgtttggaatttattttatttgttacttcggattttaattaatctcgtcatgtgttcttgatggtctcttctttcaattgtctttattttttattaagaattttaattatttataattgtattcctagttgaactcttattttcctttttataatttctgaatttattttattttttatttagattttaattaatcttgttttgtgttctatatggactattctttcgatgttactttttttttattttaaattttagttgtttcaaaattgtattaatatttgaactctattttatttttctaataatttcttaatttattttattttttattccaaattttaattaatcgtgtattgggttcttatatggactctttttctaatattgcttatttttaattccaaatttcagttattttaaaattgtattcctacttggactcttctttctttttctccgattaatgtggtaatttctagcctccacaacgaacgtggtgcctcctttcaatgctatcttaataatataatagatagatagatgacctagatttctgcaggataatcatactgcatagcaaagagaagacccataaataattataattagcgttcacatagacacataggcaaacacttacctgtcccatttaggaaaagatacatgtcaatgttagttaagatatatgttatttttttgattgtttgacagatgtattaactgttccttttgtgacagggaactgcgaatgtgtgctgttacactggttggtatggttgggacataccttaatgttttggtaagactttattaattatgcaaaattactatacttctagcactgtaggacatacaatgattatattccttcagaataagccattagaagtttttgtctatgcttgagagtcacggggacctttcgttactctcttcatctgatggtttgtggtgcatgaattgaaattgtggacaccaacttataaatagtgtgggaccattgtagatttaggtaggctgggaaggagggggagattgttctcttctgacatcctgttcattcttgagttctgccctttctgctttccaatataaaagtcaattttgaactacattttacggcctagttattggaatactaattacaaagatgtttacctcaatttacttttccatgagtttcttatggttctgcatgttcatatttatgtctgcattagtgcacattatgtgttcagttttgatgcatatctttttggtcgcttgcattatgtaggccctttcactattgttcctcttattcgcaagctggctagcttatgtaacatttgaggatacaccacaaggaaagactgttttctcgtcatatggtaccacgttatatcagatgtttattctcttcaccacctccaataatcctgatgtatgggttcctgcttataagtaagaaggcatcactattactgaagtgtttatgatagttcctgcatatgacatgcatacaaattaaccttatacatctttgagcaggagctctcgttggtcctcactattttttattgtctacgtacttttgggagtttacttcctaacaaatttaattcttgctgtcatttatgatagctttaaggagcaggtgggttcctcacctctgtcctaattcacatgatgatcgctatttttttttgttatgaattctgagttattattattattatgcttcacatactgctaacatggcatattttttgtgatctagctagcaaagcaagtttctcaggcagactgtacaaggaaaagtatactagagaaggcatttggtatcattgatgctactgtaagtgttttccattttatgttgtcctgcaaactagtgcaccacaatttggcaacgtattttagtgcaagtattttttatgttttcctgaaaactgatgcacctcagcagtacttcagtactttagtataactttgatgttcaggttatccttcatcagagtatagtctgatcacttcggttctcagttgggattattttaaatgttcaaattatcaaataagcagcactagctcaccttcgcaaggcgtgatgagattaatattatagatcttagattagggaaaacgagttagcaagaaaatcaaggtcctgctgctattgagatgatatagacgtgtttagttgtttggctgtgttattcatgagtattattaatattggctgctgatatccctttcttccctatctgtggacatcagggtcagggttatctcaacaaagaacagtgcctatcattactagatgagctcaacaaatacaggtaaccaaaatgccctcttacattacactccttcaaatctccttattacattatagagtgatttagtccttgagggggtaccataccttttagtattaaatttgtgctaccttcaggtacctcaacttaaatttgtgctaccttcaagtacctcaacacaagggaggtaccaaaaatttacactgaaaatacagtacctcccggtacatcctcaaggaatgtaaacactgcattttatgggtagtaagtttatttttacaatcttttttgtggagatgttcctccatttcctgaaggaatcttaagtcagtcaaaatcaatatctgtcatgcatgaaaccaatcttcaaaattaaatccatagtaggtaaagtggttagcaaacgtgctgaaggagatcccacccaacccagatgccaacaaaattaactccatgtccatgccaagggtataagaagtctctaattgccccacttccgtgcaagcttgatgctatctgtgaaagtggccgatccattaaggaaggtctttttttttttatccttacactgaaaactgaaaagggtaactaactcatgcaaatggtaagcaaaagaaaaaccctttaaacaatgacgtgactgcctttggaagatgggcatccttactggtctgtagagccaaatatccatttttatgatgatgcactggtacttgaatactcattagatgacatgccatctcgaagagaacacaggtcagaatgggtgtctgctttcgttattacaatctcaatgctattccaaattacattatttcagttttgctccattattttgacattcataacatatatcagaaatcagcagaattaattgtgtagaaaatgtcaaattaatatctagaagcctagaacatggttcttacaattgcagcatatcatgctgtccacttttcggttttgcatttattgattttattgaaccaacaacttaatggtttgtaagtgtaagttagttttgcttattatcataacatggtagggagacatcccttcccctccaaagttgatgacgacagatgttatccttgcattttaccaaattcctgctagctcctggatcagttatgggtctcacagaatggtgcctccttttgtagatcgttacctaaaacctcaagggaagattttgaattaatttttgccgagcttgatcagagtggtgattttaaggtacgtgctcctactatcttcagtaggcatgtcttagttttaataattcttcaagcacgttcaccctccatcctctccccctaagcccccccccccccccccccaaaaaaaaaagtacttgtaagaatgtttataacaaaaacacttaaggctgtgtttagtggtggttggaaaccttttccctccgcacggaaaatgaggtagcacattagcacatgattaattaagaattagctaaaaacttaaaaatggattaatatgatttttaagcaacttttctatagactttttttttggtgcaaaaaagcaccattcagtagttcgggaagcatgctcatgggaaacgagggagtagaggttgggaaacttgagttctgaacgcagcctaagaagctggtactaaggccatccccaacccagaaactatcaaatagtttccgtacttgctatgtcatatagacactatgtatagaaactacaattcaatggatggtgtcttcaaattaaattctcatccaatcacctctcttctctctccttttatctacctatccccttgttttcattcttggttcttgtgtagagatggtttcttgcatgagaaatggtttattcatctttttacctctctcctctttagctctcttgccacatcagatttttgcttatgtggcaatgcattaaatgctatggagactagatggcatggttggggatggcctaattatcacctgtaccattttctgaaagtatacatgcctcagtgaggtcttaattctgatgttaatttttatcctcatttgatggtatggcatgttagtgtttttttatctcacttatttatccttgtccaggttacctctgaagaatttgctacactgtgcaataccattgcaataaaattccagaaagaaccacctgtaagttgtacttattttgatgttcataattttctactctttctttatcatggaaaattgaaagctatactccttcaacctaaaacaaataccctctatttgacttgccacaaaccccaatgcaaaatcttggctgttattttattgttacttttagcaaaagtttaaggaaatgttttgtgacattatgtttttgcccttcccttgtttacacaatctgaatacttcaattgcaaatgtatcaatgaccaaatattgttaagagtgtcaaggatataaatacgtcgatgttgcactgtttgcagcaacattctaccttgtttgacctaatgttgtacatatttttgcagccatcctatctcgagaagtatccatctttctatcattcagcactgtgtgaatggttgaaatcttttgtgcggagcccactgtttgagtatattgttatttttgttcttctgatgaatctagtcgctgtcattattgaaacaacggtatggcagtttttttttcttctaatttgtgttttatttttattcaacttggaatcatactttatattgttagcagtattctatttccatatctgctagacttaaatttatactcttagcacttctcagtatttgttttctattttttgtttactatcaactactgagtacatggcagcgtaatcagcctactatattagctttgcaatagtttgttgactacaaaattattcaatctaagttatctatgctaatataaaagatggtaatggtgagtctaccaccaccaacacctgaccacccaactaccatgcgggacctacgaacagtgagacaaaactttgcttgtttcccagcccccacatgctatagaccccagcgcaaggaaaatatgacaatagaatattatggattttttcatctttgtgaaatgacaacaaaattagcacaatgataatatattagacaattagaaacaaattttgttgcaacatacgggcattatgctagtgtttaacaacgttttgtagacaaggaagcatggcttcattttagaaccaagaattgaaataattaaattcacaaacggatgtgaaaactgtatgtaatccctgggatatgatttttgcagctggatatagaaaacagctcctcgcagaaagtgtggcaagaagttgagtttgtctttggtaagcatattttggtgaactttgtttcaacaatgctctgtaagcagtaactatctcctataaaatctccctggcatattatcttgagtttccaacttaaagttgacacttgaagaataattgccatttctcttaggtttgatgattatgtagccgaacttcagaatttgtattctactgtagtagtctgtcgttcttaaattttgttgaaagggtctactgtgttttcctgatttaggttgctgcagtactgtggggtcgatacagaatcgcatatgattgcaatggtcataagtttattccctctatttagaaatgtatattgtatcagaaatcatgtaatcaaacttcttacactgttttcacatccgtttgtgaatttaattatttcaattcttggctgtgtacatctgtttggatgtagaggccggtttaatccatcatcttaaaaaaaagttcttacactgaggtttgacacaattaaattcgtagtttattgaacttcacgagtatattcataagaaagtacccattctgtcctttttttataaggtgcatatggtgcacgatgttatggagtgctggcattgtaatgtaataatatgttcatatccttgtcttcacgtatgtaagtatgtcaatacaaatctataatgttgcaggatggatttacgttatagagatggcactcaaaatattttcattaggatttggtgcctactggatggaaggtcaaaacaagtttgattttgtgcttacttggactatatgtaagttaatcctactaatttattttgagacgattttagtaacagttctgtgtagttgcttattttcttccattgctacttttcaccttgcattttaaagaaaaatccatattaccaagaagtatttctggttcaaaagaagagttgcatttcacaacaaaactgaattagaaaaatattgtatgggtgagaggttatattttaagaatactatatttaagaataggtgtgtgcattcactgttactgaaaaactatggagtataattgattttcccttggtcatgattggatgatgataaactctcaacttcaaaaccatgtttcctttccaagaaaataacactggtcatatcaaatgcgttatgttcttcaaatttagcttttgcctaacctggacaaccaaatattcttgttccatgcagtttccgctgaaaataagtaaataactagtactgtatattcaactgccttaattcatatctgaaaaggagtatcgttggaagagaactttttttttttttttgcatatagtaatcttcttgccaattactttgtggcatctgacttctcatttcattgtagttattggagagactctaacatttgccttcccatcgaagctttcttttctttcaaatggagaatggtaatttcactgttttggatgctttactttccaaaatttagtcaatccatcatatgtacatcaagatacaaacatcaatccttttagtatgcatcatgctctttaattgctgaaactaaattaataacctctttcctaatatgatggtgatttaagaactatgtacttaagttaccatgtgaataaaaaataaactctaacctgaaatatcatgttgagctatatgggttgttgaatcttaataattgccctgaactttactttgaatcatcactttaacattaagtcacttaaacaggttctgagtggataacagttctgacagaattctctgttaactatttatcgttgtttactgccttgctctaataatcctgattttcctctgaattttgcctggcaggattcggtaccttcttcttggaaggatgttacgcttgacaagaattctgttgcaagttcggcgtttcagagcatttgttgcaacattctttactctgatgtctagcttgatgccatatttggggattgtattctgcaccctttgcatttactgctcccttggtttgcaggttggaataaactaatggttttccatatcaagtttaatgtcctaaatagttcatccaagagcttaaagtttttggggaaacataaatatttgtgctcattcttcagtgcttcccctcacatgcagtcttgacaaaattgctggtccagtttgtttactggtcacagcaatctgttacttacactagtgattggagttccttttctttgttcttagattgtccagttactaattactattgttatttgtacttttccttgtctaaacagcacgtcattgctgtctatatatcataaacacttttcacacctcaattattgtcattagatgacagtctcgagtcttctgtttgcagatatttgggggcattgtgtatgcaggaaatccaacactagaagaaaccgatctcttcagtaacgagtaccctttttgttcttatttcaccgttttgatttctaaaaagttttagaagtgtttttgttccagtaacttctatactaaaatctcaccttctatttatttttgacaaaattctcactcttttaccttggcatgtgcagctatcttctttttaacttcaatgactatccaagtggtatggtaactctgttcaatttgttagtgatgggcaattggcaagcttggatggaggtaagaacatggcagccatgcatgtgctcaatcttgcttgttctatacactgaatattttatattttgaggggtgagagggtggttttgtatgcactgatttactttactatttttcaccttgataagttgactcatgtagagcctgcccattttactgtatccaaatgaatgcttaagatctgtgaaattaagtttaaaagtttaccctatagatgttaaaaagtatgcaactagaaaaaagatagttaagagtaataaatcagaaggaaaaggataatattttctctcttatatttatattcttataaatttagctcattgatctggatcatctgcctacaataatttaagtaaaatctgccaaaatgtcttgagtgacttattttatttgctaaccttcgtttccttatctttgttcttttgaatgaagctccttttttctttctttcagagctacaggcaattgactggaagttattggagcctgatttattttgtcagcttttacctcatttcagtattactgctgcttaatctggtaagatattaaatagttatttcagtttttgttcatgcagtgacattcatggcatttctaatattgcatgatactgttgtttttattatttatgtgcatgcagttagaaagttgttgacattcctattatcctacttatattttttagatgattatttgttgattaaataaattgtgtcctcccttttttttccctcagattgtagcatttgtgttggaggcattttttgctgagatggaactggagaaagatggcgaagctgatatccaggttagaacaatatttgtgccgacaacaaattctctttacttgtatttagaaaactgctgaaaagccagtaattaactggttacaggtagcctagttgtcctttgacaacatcgattcacactacactattatcgcacaattatttgaataagtacgaatcgaaaccttgccagtgttgccttaggtgagtttgagcagctgagggatggttgaggctaacgtttggtttgtagttgcactttctgagccagcttgccagttgccatttggttgtgcgctcatgtcatgtgtcatctccaaattgtggctaagtgtgggaaccaatcaaacgactcatgaatcccacttctcttgagcttttgattggaagtagtactatatctgtttggttgtttctaactttctgttatgtcaaatcaagaaagaatttggcgttactagcttcgcctacacaaactgtggattataaagtataaaataactttagtttgtataaacttaagcagttacctggattgaaatagctagtagttttttgagggcatctgttcatccatgcaggatcctactttggaaggaagaaacaggcggcgatctgtgcggtaataaaagaaaacgattagttgttatggcatgataacatatttctgcaacattaatttaccattgatgttgtgcagtgtgaggacaaaggggaccatggttgatattcttcttcaccatatgttgagcaatgaacttgatggatctcaaaaccgtgaccaatagcttatcttcatggtactaccctgtttttctctccaatggcaactcccgtaaaattagatgaccgaatacatgatttgaaaatgctaccagccatttctaatatttctgatgcctataccatgtcactgtgtgctaatgtatttttagttttttactctagcataggtaatcggtattactgtattagatcagccgatcagccacatcatttgcattcttgcgttctatgccttccatttaaatcaagggtgtagctatatttatggtgccatatttttcatcaaaaaatagtcggcatgtatttacattgtaagtccctaaattacatatgtaattttagtgtatttacaatgtaagtctcaaaattacatatgtaagtactaaaattacatatgtaaattcaaaaattacatactaattacatatgtaagtggggtgtaaatgaggtgtaactactgtgtaagtggctgaaaaaaatcgactatagcatatggcgccatatttctagcaactccgtaaatcaattgcttcttttaccatgattaatatttttaactcaggtcttttttttttttaaaaaaaaggccctgcaggaagaaagcaagaacagaaaaaaaaaaggaaatgattagagccggttctcgagcatggagttatgttttgttatgtcaggtactcaggtgcaaaggaatcttggtgaggtgatggaaaggactctgcttgtcatactttagttgtcaaggagaacagcagatgtgttctctttctgctccaaaggagaccttaaaggagcttttttttaaaagtaaatattgtaggagattctcctacagtgcatatatatttatacaaaggagctctttttgtataggattaaaatgtgctaatggttctggtgattttcttttttgaaaactttacaggttattatagccataatactccacatttccttattgttatactatatacacgtt</dnaseqindica>

External Link(s)

NCBI Gene:Os01g0678500, RefSeq:Os01g0678500