Difference between revisions of "Os08g0174700"

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===Function===
 
===Function===
  
the gene encode a somatic embryogenesis(SERK-family)receptor-like protein kinase 1(OsSERK1) ,it also named BRI1-Associated receptor Kinase 1 (OsBAK1). The expression of OsBAK1changed important agricultural traits of rice such as plant height, leaf erectness, grain morphologic features, and disease resistance responses. A new rice variety with erect-leaf and normal reproduction can be generated simply by suppressing the expression level of OsBAK1<ref name="ref1" />.
+
the gene encode a somatic embryogenesis(SERK-family)receptor-like protein kinase 1(OsSERK1).Functionally, OsSERK1 is the closest homolog of AtBAK1 in
 +
rice. Therefore, we named it as OsBAK1( BRI1-Associated receptor Kinase 1)<ref name="ref1" />. The expression of OsBAK1changed important agricultural traits of rice such as plant height, leaf erectness, grain morphologic features, and disease resistance responses. A new rice variety with erect-leaf and normal reproduction can be generated simply by suppressing the expression level of OsBAK1<ref name="ref1" />.
 
Reduceing  levels of  OsBAK1  and decreasing sensitivity to BL will  lead to semidwarfism in overall growth and result in abnormal growth patterns(Fig.1)[[File:The unnormal growth condition of OsBAK1.jpg|left|thumb|200px|'' Fig.1The_unnormal_growth_condition_of_OsBAK1.(The outer appearance of OsBAK1RNAi line leaves (right) showing constitutive sickness compared with those of control plants (left) grown for two weeks. (from reference <ref name="ref2" />).'']], especially in leaf development(Fig.8)[[File:Defective_leaf_development_of__OsBAK1_RNAi_plants.jpg|right|thumb|200px|'' Fig.8 Defective_leaf_development_of__OsBAK1_RNAi_plants.(A) Surface of leaves of an OsBAK1RNAi plants (right) and control plant (left) grown for four weeks.Pictures in the lower panel show higher magnification of the boxed region.White bars indicate 300 µm. (B) Internal structures of leaves of an OsBAK1RNAi #5 plant (right) and a wild-type plant (left) grown for five weeks. Leaves containing veins were transversely sectioned by hand and observed under a compound microscope. Bulliform cells shown in wild-type plants are marked with arrow heads. Bar indicates 500 µm.(from reference <ref name="ref2" />).'']]. OsBAK1RNAi transgenic rice plants are defective in the development of bulliform cells in the leaf epidermal layer and increase expression level of pathogenesis related gene and enhance susceptibility to a rice blast-causing fungal pathogen, Magnaporthe oryzae (Fig.2)[[File:Higher susceptibility to biotic stress of leaves of OsBAK1RNAi plants.jpg|left|thumb|200px|''Fig.2 Higher susceptibility to biotic stress of leaves of OsBAK1RNAi plants.(Extent of OsBAK1RNAi line (right) infection with Magnaporthe oryzae compared to wild-type plant (left) grown for 7 weeks. Enlarged leaf features of them are shown in the lower panel.)(from reference <ref name="ref2" />).'']]. OsBAK1, play versatile roles in rice growth and development<ref name="ref2" />.
 
Reduceing  levels of  OsBAK1  and decreasing sensitivity to BL will  lead to semidwarfism in overall growth and result in abnormal growth patterns(Fig.1)[[File:The unnormal growth condition of OsBAK1.jpg|left|thumb|200px|'' Fig.1The_unnormal_growth_condition_of_OsBAK1.(The outer appearance of OsBAK1RNAi line leaves (right) showing constitutive sickness compared with those of control plants (left) grown for two weeks. (from reference <ref name="ref2" />).'']], especially in leaf development(Fig.8)[[File:Defective_leaf_development_of__OsBAK1_RNAi_plants.jpg|right|thumb|200px|'' Fig.8 Defective_leaf_development_of__OsBAK1_RNAi_plants.(A) Surface of leaves of an OsBAK1RNAi plants (right) and control plant (left) grown for four weeks.Pictures in the lower panel show higher magnification of the boxed region.White bars indicate 300 µm. (B) Internal structures of leaves of an OsBAK1RNAi #5 plant (right) and a wild-type plant (left) grown for five weeks. Leaves containing veins were transversely sectioned by hand and observed under a compound microscope. Bulliform cells shown in wild-type plants are marked with arrow heads. Bar indicates 500 µm.(from reference <ref name="ref2" />).'']]. OsBAK1RNAi transgenic rice plants are defective in the development of bulliform cells in the leaf epidermal layer and increase expression level of pathogenesis related gene and enhance susceptibility to a rice blast-causing fungal pathogen, Magnaporthe oryzae (Fig.2)[[File:Higher susceptibility to biotic stress of leaves of OsBAK1RNAi plants.jpg|left|thumb|200px|''Fig.2 Higher susceptibility to biotic stress of leaves of OsBAK1RNAi plants.(Extent of OsBAK1RNAi line (right) infection with Magnaporthe oryzae compared to wild-type plant (left) grown for 7 weeks. Enlarged leaf features of them are shown in the lower panel.)(from reference <ref name="ref2" />).'']]. OsBAK1, play versatile roles in rice growth and development<ref name="ref2" />.
  

Revision as of 05:27, 9 June 2014

Please input one-sentence summary here.

Annotated Information

Function

the gene encode a somatic embryogenesis(SERK-family)receptor-like protein kinase 1(OsSERK1).Functionally, OsSERK1 is the closest homolog of AtBAK1 in rice. Therefore, we named it as OsBAK1( BRI1-Associated receptor Kinase 1)[1]. The expression of OsBAK1changed important agricultural traits of rice such as plant height, leaf erectness, grain morphologic features, and disease resistance responses. A new rice variety with erect-leaf and normal reproduction can be generated simply by suppressing the expression level of OsBAK1[1].

Reduceing levels of OsBAK1 and decreasing sensitivity to BL will lead to semidwarfism in overall growth and result in abnormal growth patterns(Fig.1)
Fig.1The_unnormal_growth_condition_of_OsBAK1.(The outer appearance of OsBAK1RNAi line leaves (right) showing constitutive sickness compared with those of control plants (left) grown for two weeks. (from reference [2]).
, especially in leaf development(Fig.8)
Fig.8 Defective_leaf_development_of__OsBAK1_RNAi_plants.(A) Surface of leaves of an OsBAK1RNAi plants (right) and control plant (left) grown for four weeks.Pictures in the lower panel show higher magnification of the boxed region.White bars indicate 300 µm. (B) Internal structures of leaves of an OsBAK1RNAi #5 plant (right) and a wild-type plant (left) grown for five weeks. Leaves containing veins were transversely sectioned by hand and observed under a compound microscope. Bulliform cells shown in wild-type plants are marked with arrow heads. Bar indicates 500 µm.(from reference [2]).
. OsBAK1RNAi transgenic rice plants are defective in the development of bulliform cells in the leaf epidermal layer and increase expression level of pathogenesis related gene and enhance susceptibility to a rice blast-causing fungal pathogen, Magnaporthe oryzae (Fig.2)
Fig.2 Higher susceptibility to biotic stress of leaves of OsBAK1RNAi plants.(Extent of OsBAK1RNAi line (right) infection with Magnaporthe oryzae compared to wild-type plant (left) grown for 7 weeks. Enlarged leaf features of them are shown in the lower panel.)(from reference [2]).
. OsBAK1, play versatile roles in rice growth and development[2].

Expression

Expression of OsSERK1 and in various organs of rice

Using a set of OsSERK1 primers (K-1; 5’AT(CT)AT(ATC)CATCG(AT)GATGTCAA3’ and K6-2; 5’CCATCTTGGGGCGTTCTGTG3’, where nucleotides in parentheses are a mixture). Actin (RAc-1; 5’AACTGGGATGATATGGAGAA3’, RAc-2; 5’CCTCCAATCCAGACACTGTA3’) was used as an internal control. The result showed that OsSERK1 was expressed in all organs and calli examined with different levels.Expression of OsSERK1 was relatively strong in a 1 DAP flower which contained a very early embryo, a leaf blade and a shoot apex[1]. A callus on a regeneration medium with both cytokinin and auxin did not show significant change of the level of the OsSERK1expression in comparison to a callus on a callus-inducing medium(Fig.3 ).
Fig.3 Expression of OsSERK1 and in various organs of rice(Poly(A)+RNAs isolated from the indicated organs were reversetranscribed and used as templates of the PCR. RT-PCR products were detected by Southern blot (OsSERK1) or ethidium bromide staining (actin). + and–indicate whether reverse transcriptase was add). (from reference [1]).

OsSERK genes were expressed in various organs but with some tissue specificity

The OsSERK1 promoter showed reporter gene activities in some specific tissues in a germinating seed, leaf and root, but not in a developing embryo[1]. This promoter activity suggests that OsSERK1 may have roles in non-embryonic tissues rather than in the embryo[1].OsSERK1 might also be involved in signaling of or response to phytohormones in these tissues(Fig.4 ).
Fig.4 Tissue-specific_GUS_activities_in_the_OsSERK1-GUS_rice_plants((A) 1-day imbibed embryo of plant #7. (B) Lamina joint of plant #7. (C) Growing lateral roots of plant #7. (D) Developing embryo (10 DAP) of plant #7. (E) 1-day imbibed embryo of plant #23. (F) Lamina joint of plant #23. (G) Growing lateral roots of plant).(from reference [1]).

The subcellular localization of OsBAK1 protein

The OsBAK1 protein in onion epidermis cells is located at plasma membrane[3] (Fig.5)
Fig.5 The_subcellular_localization_of_OsBAK1_protein_in_onion_epidermis_cellsThe upper panel shows the 35S::GFP signal alone, which is distributed on the plasma membrane, cytoplasm and nucleus; the middle panel displays the signal from 35S::OsBAK-GFP which is primarily located in the plasma membrane; the lower panel shows 35S::OsB). (from reference [3]).

Rice SERKs are involved in BR signalling Overexpress the OsSERK1 rice gene in a weak BRI1 mutant,bri1-5.The transgenic Arabidopsis lines ectopically expressing OsSERK1 partially rescued the defective phenotypes of bri1-5(Fig.9)Compared to bri1-5, transgenic plants expressing OsSERK1 showed larger statures, longer petioles and earlier flowering phenotypes (Figure 9a,b)

Evolution

Phylogenetic analysis and suppression of a weak Arabidopsis mutant bri1-5 indicated that OsBAK1 (Os08g0174700) is the closest relative of Arabidopsis BAK1(AtBAK1). Genetic, physiological, and biochemical analyses all suggest that the function of OsBAK1 is conserved with AtBAK1[3](Fig.6‎).
Fig.6 A_phylogenetic_tree_of_the_SERK_family_protein_kinases_drawn_on_the_basis_of_predicted_entire_amino_acid_sequences.(from reference [3]).

Phylogenetic analysis of SERK proteins in Arabidopsis and rice.

In order to search for AtBAK1 orthologs among the rice genes that were reported to be as OsSERKs or OsSERLs in the public database using the amino acid sequence of AtBAK1 as a query. It was difficult to determine which gene was an exact AtBAK1 ortholog, because many similar genes were identified[2]. OsSERKs and OsBISERK1 cluster together, closer to each other than to any other AtSERKs based on amino acid sequence homology [4](Fig.7‎).
Fig.7 Phylogenetic_analysis_of_SERK_proteins_in_Arabidopsis_and_rice.(Amino acid sequences encoded by AtSERK1 (At1g71830),AtSERK2 (At1g34210), AtBAK1/AtSERK3 (At4g33430),AtSERK4/ BAK7/BKK1 (At2g13790), AtSERK5(At 2g13800) in Arabidopsis and OsSERK2(Os04g0457800),OsSERK3 (Os06g0225300), OsSERK4(Os02g0283800) in rice (Oryza) (from reference [4]).

References

Please input cited references here.

  1. 1.0 1.1 1.2 1.3 1.4 1.5 1.6 Dan Li; Lei Wang; Min Wang; Yun-Yuan Xu; Wei Luo; Ya-Ju Liu; Zhi-Hong Xu; Jia Li; Kang Chong Engineering OsBAK1 gene as a molecular tool to improve rice architecture for high yield Plant Biotechnology Journal, 2009, 7(8): 791-806.
  2. 2.0 2.1 2.2 2.3 2.4 Hye Sun Park;Hee Young Ryu;Beg Hab Kim;Sun Young Kim;In Sun Yoon;Kyoung Hee Nam A subset of OsSERK genes, including OsBAK1, affects normal growth and leaf development of rice Molecules and Cells, 2011, 32(6): 561-569.
  3. 3.0 3.1 3.2 3.3 Yukihiro Ito; Kazuhiko Takaya; Nori Kurata Expression of SERK family receptor-like protein kinase genes in rice Biochimica et Biophysica Acta, 2005, 1730(3): 253-258.
  4. 4.0 4.1 Guindon, S., and Gascuel, O.A simple, fast, and accurate algorithm to estimate large phylogenies by maximum likelihood.Syst. Biol. 2003,52, 696-704.

Structured Information

Gene Name

Os08g0174700

Description

Similar to SERK1 (Fragment)

Version

NM_001067643.1 GI:115475022 GeneID:4344785

Length

6295 bp

Definition

Oryza sativa Japonica Group Os08g0174700, 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 8

Location

Chromosome 8:4343174..4349468

Sequence Coding Region

4343458..4343542,4345257..4345389,4345463..4345534,4345871..4346014,4346735..4346806
,4346933..4347004,4347088..4347200,4347342..4347473,4347551..4347892
,4347975..4348369,4348640..4348954

Expression

GEO Profiles:Os08g0174700

Genome Context

<gbrowseImage1> name=NC_008401:4343174..4349468 source=RiceChromosome08 preset=GeneLocation </gbrowseImage1>

Gene Structure

<gbrowseImage2> name=NC_008401:4343174..4349468 source=RiceChromosome08 preset=GeneLocation </gbrowseImage2>

Coding Sequence

<cdnaseq>atggcggcgcatcggtgggcggtgtgggcggtgctgctgctgcggctgctcgtgccggcggcgcgggtgctcgccaacatggaaggtgatgcattgcatagcttgaggactaatttagttgatcctaataatgttctacaaagttgggacccaactctggtcaatccgtgcacttggtttcatgttacttgcaataacgacaacagtgttatcagagttgatcttgggaatgctgcactatcaggcactttggtcccacaacttgggcaactaaaaaacttgcaatacctggagctctacagtaataacataagcggaacgatacctagtgaacttggaaacctcacaaacttggtcagtttggatttgtacttgaacaacttcactggtccaataccagattcacttggaaacctattgaagctacgattcctgcgtcttaacaataacagcctttcgggttcaattcctaaatcactaactgctatcactgccctacaagttctagatctttcaaacaacaatttgtctggagaagttccatcaactggttccttttcattattcacccctatcagttttgccaacaacccttccttgtgtggtcctgggaccacaaaaccttgccctggtgctccccccttttccccacctcctccatataatcctccaactcctgtgcagtcaccagggagttcatctagtactggagcaattgctggtggagtggctgctggagcagccttgctatttgctattcctgctattggttttgcatggtatcggcgcaggaaaccccaagagcatttctttgatgtgcctgctgaggaggatccagaggtccatcttggccagcttaaaagattttcactacgagaactacaagttgcaacagataccttcagcaataaaaacattctcggaagaggtgggtttggcaaggtctataaaggaagattagcagatggttctttagtagctgttaagagactaaaggaggagagaacacctggtggggaactacagtttcaaacagaagttgagatgattagcatggctgtacatagaaatctgctgcgtttacgagggttctgtatgacacccacagaaaggttgcttgtgtatccatacatggctaatggaagcgttgcgtcacgtcttagagaacggccaccatcggaacctccacttgattggcgaacaagaagaaggattgcgttgggttccgccagggggctgtcctatttacatgatcattgtgacccaaagattatccatcgtgatgtcaaagctgcaaatattttattagatgaagactttgaagctgtagtaggggactttggtttggccaaactaatggattacaaggatacccatgtaacaactgcagttcgtggaacaattgggcatattgcaccagaatatctttcaacaggaaaatcatctgagaaaactgatgtatttggttatgggattatgcttttggagcttataacaggacaacgtgcctttgaccttgctcgtctagccaatgatgatgatgtcatgctactggactgggtaaaaggattactcaaggagaaaaggctggagatgttggttgatccagatttacagagcaactacattgatgttgaggtagaatcactaatccaggttgctcttctttgcacacaaggctcccccacagaacgccccaagatggcggaggttgtgaggatgcttgaaggtgatggccttgccgagagatgggaggagtggcagaagatagaagtagtacggcaggaggtagagcttggccctcatcggaactcagagtggattgtcgactcgacggacaaccttcatgcggttgagctatcagggccgaggtga</cdnaseq>

Protein Sequence

<aaseq>MAAHRWAVWAVLLLRLLVPAARVLANMEGDALHSLRTNLVDPNN VLQSWDPTLVNPCTWFHVTCNNDNSVIRVDLGNAALSGTLVPQLGQLKNLQYLELYSN NISGTIPSELGNLTNLVSLDLYLNNFTGPIPDSLGNLLKLRFLRLNNNSLSGSIPKSL TAITALQVLDLSNNNLSGEVPSTGSFSLFTPISFANNPSLCGPGTTKPCPGAPPFSPP PPYNPPTPVQSPGSSSSTGAIAGGVAAGAALLFAIPAIGFAWYRRRKPQEHFFDVPAE EDPEVHLGQLKRFSLRELQVATDTFSNKNILGRGGFGKVYKGRLADGSLVAVKRLKEE RTPGGELQFQTEVEMISMAVHRNLLRLRGFCMTPTERLLVYPYMANGSVASRLRERPP SEPPLDWRTRRRIALGSARGLSYLHDHCDPKIIHRDVKAANILLDEDFEAVVGDFGLA KLMDYKDTHVTTAVRGTIGHIAPEYLSTGKSSEKTDVFGYGIMLLELITGQRAFDLAR LANDDDVMLLDWVKGLLKEKRLEMLVDPDLQSNYIDVEVESLIQVALLCTQGSPTERP KMAEVVRMLEGDGLAERWEEWQKIEVVRQEVELGPHRNSEWIVDSTDNLHAVELSGPR </aaseq>

Gene Sequence

<dnaseqindica>285..369#2084..2216#2290..2361#2698..2841#3562..3633#3760..3831#3915..4027#4169..4300#4378..4719#4802..5196#5467..5781#atcgacggtataaagcgaggcgacgaactgactcgactcaactcaaccccccccaaaaaaaagaagaaaaaaaagaaaaagaaaaaaaagtcgtcgaaaagcgagagaaggggatcgattcgaagagagaggaggtaaagcggcggcgggagaatcttcgccggatcggcggcggtggcggaggaggaggaggaggaggaggaagagggtggtgctgatttggtgtggaggcggggaaatgcgtgatgtgtgagatctagggcgtggggaggcggatcgcggcaatggcggcgcatcggtgggcggtgtgggcggtgctgctgctgcggctgctcgtgccggcggcgcgggtgctcgccaacatggaaggtgggtggggggggaggtttgcgtttgagttgagcttttgcttgggttttggtcgatctggggtgtgttcttgctgggttggagtggattggtgtcgggagcttggggggtggctgcttgcttggcttggtttgagcagttagtacaagttgccgcggctgctggtttttgctgtgtgtgtaagttgctacgagacgtcgcttgattttggtttgatgcgtggccgctttgtacggatcctaccttttttactctccctcgcggaagaatcggagcattttctcgaatttttctccggtcgaatttggacttctctgcgttccaaattcactccgaattcccctagcctgtgaattgcttcaaaaatctgcgcaaagtcgggagctaaatttgcgctttcaaaatgtgaaacccttgtcggaaaaaagttgccatcgcgtttgatttaatttaatttaattttccatgcatttggatcatgtgttctattgaatgaagatttgaactgtgctgcgccgatgctgcacgtttcggagatttcccctttctatcgggtttctgcgtgcgcttgagagagctactgttgcattaaatcgcgttgctacacgttgcttgctagttgttcatggactaatctgctagagctgtgttaatcgattctttcccgtggttgttaggtcttgattaggacgtctaatgacgtggttttgctatttcgggccattgttagattcgagctgtcggtgcctaagttcgtgacataattgggttaccttttcgcgcgcgcgtgcgggttggtggctaggtgatttttcaagccggactttgtgtctaatcatggtacgaaatgggatggatcgtttcgattgcggattttctcgagcatggcttgtttagtcttgagatcccagttgcttaggcctgcctgggattgattaggacgttgatgcgcgtttgacgacgctagactgctaattttgggggtgggattggttgtatgtgtgtagttctagttggggattcggcaaattgtagtgggggcctgtgagctgtgggtcaaattgtattttccaggacaattggtagttgatgtgtgatcttgaagcttcaagcacctgaagcctgatggtgattgcttgtatttgaaaactttggtagtagtaggatataaagaggccaagttggtgttgtaattttcattttagttcgaccctttgatgctgatctcttacttaggtacttactttggagtgattcataagaaaatttaaaagcttattcacgacttacattctcataattgagatgttctcataattgatgatattttgagtttggctcactggttttaagtctagcgtctaagagttatctttcatgtacttatttgcccctttgtcatatactagagtaacaatttaactttttttaaaaacaaatcatactagctatggctgatgaaatggaatttttttgacatacaagtcagatagaattgtgccagatgcaatacaaacaccacatgaatcatgcatgctagttgaccttttggtttcgctccttttctgcatgatgatttggagtgttttcctttggacaaattctattttcaatctacacaacaattattagctactatttatgcacaatcctcattgattgtttggttaaattttattcacctgttgttgatacatgattctattattggcaggtgatgcattgcatagcttgaggactaatttagttgatcctaataatgttctacaaagttgggacccaactctggtcaatccgtgcacttggtttcatgttacttgcaataacgacaacagtgttatcagagtgtacgtgctaccttttgtctactatgcaatccacgcctcatacatttttattgaaattatctccatttttcagtgatcttgggaatgctgcactatcaggcactttggtcccacaacttgggcaactaaaaaacttgcaatacctgtaagttctcttcctgttgttaagtgttgtgcacatcattaaatgccattcctgctgcacatggtgcaatgttttgtcattgttctgatctttgaatttaggttaataccttgtaatgtgatatacgaattcatataataaatgttccattttgtaaataaatgcctattacctttcttatgtgagtatgtgatgaatgtctcacctatatcatcagaatatctacagtcacgtggagaaatattcctagctagtgtgttgtgctcagatcaactcaagccaatcactgagtattgtagagtattaatgttcattgttttcttctttatgatgcagggagctctacagtaataacataagcggaacgatacctagtgaacttggaaacctcacaaacttggtcagtttggatttgtacttgaacaacttcactggtccaataccagattcacttggaaacctattgaagctacgattcctgtatgcttctactttactagctaaccgcttctacatatttacgtttagtagagatatacatggtcagccatctcatatttttaggacttggaaactatacttaaatacatatgttttagctggtgagtatttttgagctctcaacctaaggatcttgaattttcagaacacatattctcttagcatagtgcattggaatattggatagagatgaaatgaatctgtggtagtatcggttcatggcaatataaagcctatcgttgagaatcatgctgatgtagccaaccatatagctaaattggttttgtcgaccatttaacctgatatcaatggacagttggacacgcaatgcttacatattttggataacagcacttaacatggtaatgccattgttttaccaacatgcacttataagtgggaaaacattgccatgtgtactacaacaaaatgatttggttcgatttgttttcctggtctgaccttttcattcaacttggttgtgcattagtacattgcaattatatttccagactgctgtttatgagatgatggatagcttttgctactttctcactccttttctgatgttttagggcatctcctatgcctcttgattttcgaagtagttttctagagtctctgcattatatttattctctgtcattttctgtcaatgttactaatttggtgacttattttgtatttctgcgaggataggcgtcttaacaataacagcctttcgggttcaattcctaaatcactaactgctatcactgccctacaagttctgtaagttatcccccccccctttattatacacttgtttaatcctttcttttcagtgtagtctttgttttttgttctgtggtttaattagtaaataacccatggtcaatgttttctatttaattaaagagatctttcaaacaacaatttgtctggagaagttccatcaactggttccttttcattattcacccctatcaggtaaaactagatttaataatgattgcagttcactgctcttttccaatacactgctgctatttacacttgcctgtcttttgcagttttgccaacaacccttccttgtgtggtcctgggaccacaaaaccttgccctggtgctccccccttttccccacctcctccatataatcctccaactcctgtgcagtcaccaggtgagatctgttcatattcacagctgtgcaacagccaacactatgatttttttttgttgcactgacgcgtggtacttatgctggtatggactatggaacatattgttgttgttctgacaataataacctcatgttctatagggagttcatctagtactggagcaattgctggtggagtggctgctggagcagccttgctatttgctattcctgctattggttttgcatggtatcggcgcaggaaaccccaagagcatttctttgatgtgcctggtaagcgtccaatagaacaagcgaacttggagaataatattgagccaactttgattgagattcattatttgttacagctgaggaggatccagaggtccatcttggccagcttaaaagattttcactacgagaactacaagttgcaacagataccttcagcaataaaaacattctcggaagaggtgggtttggcaaggtctataaaggaagattagcagatggttctttagtagctgttaagagactaaaggaggagagaacacctggtggggaactacagtttcaaacagaagttgagatgattagcatggctgtacatagaaatctgctgcgtttacgagggttctgtatgacacccacagaaaggttgcttgtgtatccatacatggctaatggaagcgttgcgtcacgtcttagaggtacgttgccttttttttttccaatctgacatccctgtatctttcagataattggagggttgatttgggttttatattatagaacggccaccatcggaacctccacttgattggcgaacaagaagaaggattgcgttgggttccgccagggggctgtcctatttacatgatcattgtgacccaaagattatccatcgtgatgtcaaagctgcaaatattttattagatgaagactttgaagctgtagtaggggactttggtttggccaaactaatggattacaaggatacccatgtaacaactgcagttcgtggaacaattgggcatattgcaccagaatatctttcaacaggaaaatcatctgagaaaactgatgtatttggttatgggattatgcttttggagcttataacaggacaacgtgcctttgaccttgctcgtctagccaatgatgatgatgtcatgctactggactgggtaattgactagcacaatcttcaattcaaattgcagtccatattcatgcccttttgtggcttgatgttgtgttgggagttagataaaattacttttatgtatgtccaaaatcgtatcatataaaaaatagtagttacagtaaggtcttaaaagtagtcctttttttaatcattatggcattagctaagctaagcataggattgaacatcatcgtctgagaaatacactgttatatggtaagccaatattcatgtgctgtgctttgtgcaggtaaaaggattactcaaggagaaaaggctggagatgttggttgatccagatttacagagcaactacattgatgttgaggtagaatcactaatccaggttgctcttctttgcacacaaggctcccccacagaacgccccaagatggcggaggttgtgaggatgcttgaaggtgatggccttgccgagagatgggaggagtggcagaagatagaagtagtacggcaggaggtagagcttggccctcatcggaactcagagtggattgtcgactcgacggacaaccttcatgcggttgagctatcagggccgaggtgatgacagcgcactggtagtttgctgctaattcttgtccgtcggaagagtgatttttatcagccatcctagtcgaatcgccatttgttcataccaaccaattggcccaatgtagccagctacaactatgttttgatgtatattgcttgatttgctccttgatgtgccgccttggatatcggtgacccgaaaacagcaggagcccaaggaactattgtcctgaagcttgcaagttgcaacaagatcccagtatgttaaagctcacaaggtagcagctaggagtgaggttgctgcggctgtttgctggacctgtgaaaattgtactgactggtgacatctaactattttgtaccaaatgtaaggaaaaaccatggtattattactttggcctcctctgggaaaggttcagaactttcagatgatgcagttggcctcactggtatactctatttggacatttgattatgatgtgtttactgtaaatgatacccagttctgaatcaaatgtaccttctgc</dnaseqindica>

External Link(s)

NCBI Gene:Os08g0174700, RefSeq:Os08g0174700