|
Basic Information
|
|
CGSNL 遺伝子シンボル
|
PAL1
|
|
遺伝子シンボルシノニム
|
OsPAL, Pal1*, Pal1, PAL, Pal_1, PalI, PAL2, OsPAL01, PAL01, OSPAL, CP-1, GP-1, OsPAL1, PAL3, OsPAL3
|
|
CGSNL 遺伝子名
|
PHENYLALANINE AMMONIA-LYASE 1
|
|
遺伝子名シノニム
|
phenylalanine ammonia-lyase, phenylalanine ammonia lyase 1, Phe ammonia lyase 1
|
|
タンパク質名
|
PHENYLALANINE AMMONIA-LYASE 1
|
|
対立遺伝子
|
|
|
染色体番号
|
2
|
|
解説
|
EC=4.3.1.24 P14717. X16099. GP-1 (genomic) and CP-1 (cDNA) in Minami et al. 1989. D48330. PAL2 in Xie el al. 2011. EF576408. GO:1901698: response to nitrogen compound. PAL3 in Wu et al. 2019.
|
|
形質クラス
|
生化学的性質
栄養器官 - 葉
栄養器官 - 稈
着色 - アントシアニン
種子
耐性、抵抗性
耐性、抵抗性 - 病気抵抗性
耐性、抵抗性 - 害虫抵抗性
耐性、抵抗性 - ストレス耐性
|
|
発現
|
|
|
Sequence/Locus
|
|
cDNA Accession No.
|
AK102817
AK067923
AK060724
AK058306
|
|
MSU ID
|
LOC_Os02g41630.2
|
|
RAP ID
|
Os02g0626100
|
|
Links
|
Oryzabase Chromosome View
(
IRGSP 1.0
/
Build5
)
RAP-DB
(
IRGSP 1.0
/
Build5
)
Related IDs List (
IRGSP 1.0
/
Build5
)
|
INSD Accession List
(Test version)
|
Link to INSD Accession List
|
|
マップ
|
|
位置情報(cM)
|
|
|
リンケージマップ
|
Classical linkage map
|
|
文献
|
|
Liu Y., Zhang W., Wang Y., Xie L., Zhang Q., Zhang J., Li W., Wu M., Cui J., Wang W., Zhang Z.
Front Plant Sci 2022 13 1054917
<i>Nudix hydrolase 14</i> influences plant development and grain chalkiness in rice.
|
|
Yang X., Gu X., Ding J., Yao L., Gao X., Zhang M., Meng Q., Wei S., Fu J.
BMC Genomics 2022 23(1) 278
Gene expression analysis of resistant and susceptible rice cultivars to sheath blight after inoculation with Rhizoctonia solani.
|
|
Gao Y., Xiang X., Zhang Y., Cao Y., Wang B., Zhang Y., Wang C., Jiang M., Duan W., Chen D., Zhan X., Cheng S., Liu Q., Cao L.
Int J Mol Sci 2022 23(2)
Disruption of <i>OsPHD1</i>, Encoding a UDP-glucose epimerase, Causes JA Accumulation and Enhanced Bacterial Blight Resistance in Rice.
|
|
Li Y., Liu P., Mei L., Jiang G., Lv Q., Zhai W., Li C.
Front Plant Sci 2022 13 1065253
Knockout of a papain-like cysteine protease gene <i>OCP</i> enhances blast resistance in rice.
|
|
Wang R., You X., Zhang C., Fang H., Wang M., Zhang F., Kang H., Xu X., Liu Z., Wang J., Zhao Q., Wang X., Hao Z., He F., Tao H., Wang D., Wang J., Fang L., Qin M., Zhao T., Zhang P., Xing H., Xiao Y., Liu W., Xie Q., Wang G.L., Ning Y.
Genome Biol. 2022 23(1) 154
An ORFeome of rice E3 ubiquitin ligases for global analysis of the ubiquitination interactome.
|
|
Li N., Yang Z., Li J., Xie W., Qin X., Kang Y., Zhang Q., Li X., Xiao J., Ma H., Wang S.
Rice (N Y) 2021 14(1) 39
Two VQ Proteins are Substrates of the OsMPKK6-OsMPK4 Cascade in Rice Defense Against Bacterial Blight.
|
|
Qiao W., Wang Y., Xu R., Yang Z., Sun Y., Su L., Zhang L., Wang J., Huang J., Zheng X., Liu S., Tian Y., Chen L., Liu X., Lan J., Yang Q.
Theor. Appl. Genet. 2021 134(5) 1531-1543
A functional chromogen gene C from wild rice is involved in a different anthocyanin biosynthesis pathway in indica and japonica.
|
|
Jiang J., Yang G., Xin Y., Wang Z., Yan W., Chen Z., Tang X., Xia J.
Genes (Basel) 2021 12(5)
Overexpression of <i>OsMed16</i> Inhibits the Growth of Rice and Causes Spontaneous Cell Death.
|
|
Wang H., Bi Y., Gao Y., Yan Y., Yuan X., Xiong X., Wang J., Liang J., Li D., Song F.
Front Plant Sci 2021 12 802758
A Pathogen-Inducible Rice NAC transcription factor ONAC096 Contributes to Immunity Against <i>Magnaprothe oryzae</i> and <i>Xanthomonas oryzae</i> pv. <i>oryzae</i> by Direct Binding to the Promoters of <i>OsRap2.6</i>, <i>OsWRKY62</i>, and <i>OsPAL1</i>.
|
|
Xu R., Pan R., Zhang Y., Feng Y., Nath U.K., Gan Y., Shi C., Akhter D.
Int J Mol Sci 2021 22(18)
RNA-Seq-Based Profiling of <i>pl</i> Mutant Reveals Transcriptional Regulation of Anthocyanin Biosynthesis in Rice (<i>Oryza sativa</i> L.).
|
|
Wang D., Wang H., Liu Q., Tu R., Zhou X., Zhang Y., Wu W., Yu P., Chen D., Zhan X., Cao L., Cheng S., Shen X.
Plant Cell Rep. 2021 40(5) 835-850
Reduction of OsMPK6 activity by a R89K mutation induces cell death and bacterial blight resistance in rice.
|
|
He J., Liu Y., Yuan D., Duan M., Liu Y., Shen Z., Yang C., Qiu Z., Liu D., Wen P., Huang J., Fan D., Xiao S., Xin Y., Chen X., Jiang L., Wang H., Yuan L., Wan J.
Proc. Natl. Acad. Sci. U.S.A. 2020 117(1) 271-277
An R2R3 MYB transcription factor confers brown planthopper resistance by regulating the phenylalanine ammonia-lyase pathway in rice.
|
|
Khan A., Jalil S., Cao H., Tsago Y., Sunusi M., Chen Z., Shi C., Jin X.
Plants (Basel) 2020 9(11)
The Purple Leaf (<i>pl6</i>) Mutation Regulates Leaf Color by Altering the Anthocyanin and Chlorophyll Contents in Rice.
|
|
Tang Y., Chun-Chun Gao, Gao Y., Yang Y., Shi B., Jia-Li Yu, Lyu C., Bao-Fa Sun, Hai-Lin Wang, Xu Y., Yun-Gui Yang, Chong K.
Dev. Cell 2020 53(3) 272-286.e7
OsNSUN2-Mediated 5-Methylcytosine mRNA Modification Enhances Rice Adaptation to High Temperature.
|
|
Han Y., Song L., Peng C., Liu X., Liu L., Zhang Y., Wang W., Zhou J., Wang S., Ebbole D., Wang Z., Lu G.D.
Plant Physiol. 2019 179(4) 1416-1430
A <i>Magnaporthe</i> Chitinase Interacts with a Rice Jacalin-Related Lectin to Promote Host Colonization.
|
|
Oshima M., Taniguchi Y., Akasaka M., Abe K., Ichikawa H., Tabei Y., Tanaka J.
Breed. Sci. 2019 69(2) 244-254
Development of a visible marker trait based on leaf sheath-specific anthocyanin pigmentation applicable to various genotypes in rice.
|
|
Wu T., Peng C., Li B., Wu W., Kong L., Li F., Chu Z., Liu F., Ding X.
Rice (N Y) 2019 12(1) 90
OsPGIP1-Mediated Resistance to Bacterial Leaf Streak in Rice is Beyond Responsive to the Polygalacturonase of Xanthomonas oryzae pv. oryzicola.
|
|
Zaidi S.H.R., Zakari S.A., Zhao Q., Khan A.R., Shah J.M., Cheng F.
Antioxidants (Basel) 2019 8(11)
Anthocyanin Accumulation in Black Kernel Mutant Rice and its Contribution to ROS Detoxification in Response to High Temperature at the Filling Stage.
|
|
Hong Y., Liu Q., Cao Y., Zhang Y., Chen D., Lou X., Cheng S., Cao L.
Front Plant Sci 2019 10 752
The <i>OsMPK15</i> Negatively Regulates <i>Magnaporthe oryza</i> and <i>Xoo</i> disease resistance via SA and JA Signaling Pathway in Rice.
|
|
Atul Prakash Sathe, Su X., Chen Z., Chen T., Wei X., Tang S., Xiao-Bo Zhang, Jian-Li Wu
Rice (N Y) 2019 12(1) 68
Identification and characterization of a spotted-leaf mutant spl40 with enhanced bacterial blight resistance in rice.
|
|
Zhou X., Liao H., Chern M., Yin J., Chen Y., Wang J., Zhu X., Chen Z., Yuan C., Zhao W., Wang J., Li W., He M., Ma B., Wang J., Qin P., Chen W., Wang Y., Liu J., Qian Y., Wang W., Wu X., Li P., Zhu L., Li S., Ronald P.C., Chen X.
Proc. Natl. Acad. Sci. U.S.A. 2018 115(12) 3174-3179
Loss of function of a rice TPR-domain RNA-binding protein confers broad-spectrum disease resistance.
|
|
Nanda S., Wan P.J., Yuan S.Y., Lai F.X., Wang W.X., Fu Q.
Int J Mol Sci 2018 19(12)
Differential Responses of <i>OsMPK</i>s in IR56 Rice to Two BPH Populations of Different Virulence Levels.
|
|
Fan J., Bai P., Ning Y., Wang J., Shi X., Xiong Y., Zhang K., He F., Zhang C., Wang R., Meng X., Zhou J., Wang M., Shirsekar G., Park C.H., Bellizzi M., Liu W., Jeon J.S., Xia Y., Shan L., Wang G.L.
Cell Host Microbe 2018 23(4) 498-510.e5
The Monocot-Specific Receptor-like Kinase SDS2 Controls Cell Death and Immunity in Rice.
|
|
Wu L., Zhang W., Ding Y., Zhang J., Cambula E.D., Weng F., Liu Z., Ding C., Tang S., Chen L., Wang S., Li G.
Front Plant Sci 2017 8 881
Shading Contributes to the Reduction of Stem Mechanical Strength by Decreasing Cell Wall Synthesis in Japonica Rice (Oryza sativa L.).
|
|
Zhang W., Wu L., Ding Y., Yao X., Wu X., Weng F., Li G., Liu Z., Tang S., Ding C., Wang S.
J. Plant Res. 2017
Nitrogen fertilizer application affects lodging resistance by altering secondary cell wall synthesis in japonica rice (Oryza sativa).
|
|
Kuang J., Liu J., Mei J., Wang C., Hu H., Zhang Y., Sun M., Ning X., Xiao L., Yang L.
Sci Rep 2017 7(1) 11333
A Class II small heat shock protein OsHsp18.0 plays positive roles in both biotic and abiotic defense responses in rice.
|
|
Wang J., Islam F., Li L., Long M., Yang C., Jin X., Ali B., Mao B., Zhou W.
Int J Mol Sci 2017 18(9)
Complementary RNA-Sequencing Based Transcriptomics and iTRAQ Proteomics Reveal the Mechanism of the Alleviation of Quinclorac Stress by Salicylic Acid in Oryza sativa ssp. japonica.
|
|
Song A., Xue G., Cui P., Fan F., Liu H., Yin C., Sun W., Liang Y.
Sci Rep 2016 6 24640
The role of silicon in enhancing resistance to bacterial blight of hydroponic- and soil-cultured rice.
|
|
Huang W.K., Ji H.L., Gheysen G., Kyndt T.
Mol. Plant Pathol. 2016 17(4) 614-24
Thiamine-induced priming against root-knot nematode infection in rice involves lignification and hydrogen peroxide generation.
|
|
You Q., Zhai K., Yang D., Yang W., Wu J., Liu J., Pan W., Wang J., Zhu X., Jian Y., Liu J., Zhang Y., Deng Y., Li Q., Lou Y., Xie Q., He Z.
Cell Host Microbe 2016 20(6) 758-769
An E3 Ubiquitin Ligase-BAG Protein Module Controls Plant Innate Immunity and Broad-Spectrum disease resistance.
|
|
Yang X., Gong P., Li K., Huang F., Cheng F., Pan G.
J. Exp. Bot. 2016 67(9) 2761-76
A single cytosine deletion in the OsPLS1 gene encoding vacuolar-type H+-ATPase subunit A1 leads to premature leaf senescence and seed dormancy in rice.
|
|
Noda S., Koshiba T., Hattori T., Yamaguchi M., Suzuki S., Umezawa T.
Planta 2015 242(3) 589-600
The expression of a rice secondary wall-specific cellulose synthase gene, OsCesA7, is directly regulated by a rice transcription factor, OsMYB58/63.
|
|
Katsuragi Y., Takai R., Furukawa T., Hirai H., Morimoto T., Katayama T., Murakami T., Che F.S.
Mol. Plant Microbe Interact. 2015
CD2-1, the C-terminal region of flagellin, modulates the induction of immune responses in rice.
|
|
Wu Z., Gui S., Wang S., Ding Y.
BMC Evol. Biol. 2014 14 100
Molecular evolution and functional characterisation of an ancient phenylalanine ammonia-lyase gene (NnPAL1) from Nelumbo nucifera: novel insight into the evolution of the PAL family in angiosperms.
|
|
Tonnessen B.W., Manosalva P., Lang J.M., Baraoidan M., Bordeos A., Mauleon R., Oard J., Hulbert S., Leung H., Leach J.E.
Plant Mol. Biol. 2014
Rice phenylalanine ammonia-lyase gene OsPAL4 is associated with broad spectrum disease resistance.
|
|
Duan L., Liu H., Li X., Xiao J., Wang S.
Physiol Plant 2014
Multiple phytohormones and phytoalexins are involved in disease resistance to Magnaporthe oryzae invaded from roots in rice.
|
|
Geng S., Li A., Tang L., Yin L., Wu L., Lei C., Guo X., Zhang X., Jiang G., Zhai W., Wei Y., Zheng Y., Lan X., Mao L.
J. Exp. Bot. 2013 64(11) 3125-36
TaCPK2-A, a calcium-dependent protein kinase gene that is required for wheat powdery mildew resistance enhances bacterial blight resistance in transgenic rice.
|
|
Park H.L., Lee S.W., Jung K.H., Hahn T.R., Cho M.H.
Phytochemistry 2013 96 57-71
Transcriptomic analysis of UV-treated rice leaves reveals UV-induced phytoalexin biosynthetic pathways and their regulatory networks in rice.
|
|
Fang C., Zhuang Y., Xu T., Li Y., Li Y., Lin W.
J. Chem. Ecol. 2013 39(2) 204-12
Changes in rice allelopathy and rhizosphere microflora by inhibiting rice phenylalanine ammonia-lyase gene expression.
|
|
Koshiba T.a, Hirose N.a, Mukai M.a, Yamamura M.a, Hattori T.a d, Suzuki S.a, Sakamoto M.b, Umezawa T.a c
Plant Biotechnology 2013 30 157-167
Characterization of 5-hydroxyconiferaldehyde O-methyltransferase in Oryza sativa
|
|
Rawal H.C., Singh N.K., Sharma T.R.
International Journal of Genomics 2013 2013 678969
Conservation, divergence, and genome-wide distribution of PAL and POX A gene families in plants
|
|
Wakabayashi K., Soga K., Hoson T.
J. Plant Physiol. 2012 169(3) 262-7
Phenylalanine ammonia-lyase and cell wall peroxidase are cooperatively involved in the extensive formation of ferulate network in cell walls of developing rice shoots.
|
|
Liu H., Li X., Xiao J., Wang S.
Plant Methods 2012 8(1) 2
A convenient method for simultaneous quantification of multiple phytohormones and metabolites: application in study of rice-bacterium interaction.
|
|
Giberti S., Bertea C.M., Narayana R., Maffei M.E., Forlani G.
J. Plant Physiol. 2012 169(3) 249-54
Two phenylalanine ammonia lyase isoforms are involved in the elicitor-induced response of rice to the fungal pathogen Magnaporthe oryzae.
|
|
Shen X., Liu H., Yuan B., Li X., Xu C., Wang S.
Plant Cell Environ. 2011 34(2) 179-91
OsEDR1 negatively regulates rice bacterial resistance via activation of ethylene biosynthesis.
|
|
Xie X.Z., Xue Y.J., Zhou J.J., Zhang B., Chang H., Takano M.
Mol Plant 2011 4(4) 688-96
Phytochromes regulate SA and JA signaling pathways in rice and are required for developmentally controlled resistance to Magnaporthe grisea.
|
|
Shen X,Yuan B,Liu H,Li X,Xu C,Wang S
Plant J. 2010 64(1) 86-99
Opposite functions of a rice mitogen-activated protein kinase in the process of resistance against Xanthomonas oryzae.
|
|
Tao Z,Liu H,Qiu D,Zhou Y,Li X,Xu C,Wang S
Plant Physiol. 2009 151(2) 936-48
A pair of allelic WRKY genes play opposite roles in rice-bacteria interactions.
|
|
Xiao,W., Liu,H., Li,Y., Li,X., Xu,C., Long,M. and Wang,S.
PLoS One 2009 4 (2) E4603
A rice gene of de novo origin negatively regulates pathogen-induced defense response
|
|
Sudo E., Itouga M., Kayo Yoshida-Hatanaka, Ono Y., Sakakibara H.
J. Exp. Bot. 2008 59(12) 3465-74
Gene expression and sensitivity in response to copper stress in rice leaves.
|
|
Takakura Y., Fang-Sik Che, Ishida Y., Tsutsumi F., Kurotani K., Usami S., Isogai A., Imaseki H.
Mol. Plant Pathol. 2008 9(4) 525-9
Expression of a bacterial flagellin gene triggers plant immune responses and confers disease resistance in transgenic rice plants.
|
|
Lin YZ,Chen HY,Kao R,Chang SP,Chang SJ,Lai EM
Phytochemistry 2008 69 715-28
Proteomic analysis of rice defense response induced by probenazole.
|
|
Yuan,B., Shen,X., Li,X., Xu,C. and Wang,S.
Planta. 2007 226(4) 953-960
Mitogen-activated protein kinase OsMPK6 negatively regulates rice disease resistance to bacterial pathogens
|
|
Hai Hong Bi, Ren Sen Zeng, Li Ming Su, An M., Shi Ming Luo
J. Chem. Ecol. 2007 33(5) 1089-103
Rice allelopathy induced by methyl jasmonate and methyl salicylate.
|
|
Mase K., Sato K., Nakano Y., Nishikubo N., Tsuboi Y., Zhou J., Kitano H., Katayama Y.
Plant Cell Rep. 2005 24(8) 487-93
The ectopic expression of phenylalanine ammonia lyase with ectopic accumulation of polysaccharide-linked hydroxycinnamoyl esters in internode parenchyma of rice mutant Fukei 71.
|
|
Tanaka N., Fang-Sik Che, Watanabe N., Fujiwara S., Takayama S., Isogai A.
Mol. Plant Microbe Interact. 2003 16(5) 422-8
Flagellin from an incompatible strain of Acidovorax avenae mediates H2O2 generation accompanying hypersensitive cell death and expression of PAL, Cht-1, and PBZ1, but not of Lox in rice.
|
|
Sakurai N., Katayama Y., Yamaya T.
Physiol Plant 2001 113(3) 400-408
Overlapping expression of cytosolic glutamine synthetase and phenylalanine ammonia-lyase in immature leaf blades of rice.
|
|
Minami,E., Ozeki,Y., Matsuoka,M., Koizuka,N. and Tanaka,Y.
Eur. J. Biochem. 1989 185(1) 19-25
Structure and some characterization of the gene for phenylalanine ammonia-lyase from rice plants.
|
|
TextPresso Search
|
Search textpresso for PAL1
( Recent references may be retrievable, but without any warranty )
|
|
DB Reference
|
|
Gramene ID
|
GR:0060593
|
|
オントロジー
|
|
Gene Ontology
|
defense response to fungus( GO:0050832 )
salicylic acid biosynthetic process( GO:0009697 )
response to UV( GO:0009411 )
response to heat( GO:0009408 )
ammonia ligase activity( GO:0016211 )
cytoplasm( GO:0005737 )
L-phenylalanine catabolic process( GO:0006559 )
anthocyanin biosynthetic process( GO:0009718 )
secondary cell wall biogenesis( GO:0009834 )
response to vitamin B1( GO:0010266 )
response to copper ion( GO:0046688 )
lignin biosynthetic process( GO:0009809 )
defense response to bacterium( GO:0042742 )
response to salicylic acid stimulus( GO:0009751 )
biosynthetic process( GO:0009058 )
phenylpropanoid metabolic process( GO:0009698 )
lignan biosynthetic process( GO:0009807 )
response to jasmonic acid stimulus( GO:0009753 )
ammonia-lyase activity( GO:0016841 )
response to molecule of bacterial origin( GO:0002237 )
response to light intensity( GO:0009642 )
response to herbicide( GO:0009635 )
defense response to insect( GO:0002213 )
defense response, incompatible interaction( GO:0009814 )
seed development( GO:0048316 )
|
|
Trait Ontology
|
copper sensitivity( TO:0000021 )
nitrogen sensitivity( TO:0000011 )
stem strength( TO:0000051 )
light intensity sensitivity( TO:0000460 )
herbicide sensitivity( TO:0000058 )
seed development trait( TO:0000653 )
blast disease( TO:0000074 )
lignin content( TO:0000731 )
lignin biosynthesis trait( TO:0000733 )
allelopathic effect( TO:0000624 )
UV light sensitivity( TO:0000160 )
silicon sensitivity( TO:0000031 )
bacterial blight disease resistance( TO:0000175 )
brown planthopper resistance( TO:0000424 )
heat tolerance( TO:0000259 )
leaf color( TO:0000326 )
sheath blight disease resistance( TO:0000255 )
|
|
Plant Ontology
|
seed development stage( PO:0001170 )
|
|
関連系統
|
|
-
|
|
形質画像
|
|
-
|
|
更新日
|
|
2023-06-29 14:52:25.493
|
更新情報
フィードバックはこちら