|
Basic Information
|
|
CGSNL Gene Symbol
|
D14
|
|
Gene Symbol Synonym
|
d14(d10), dwf13, d10, d14, D88, HTD2, OsHTD2, OsD14, qPPB3, D88/D14, HTD4
|
|
CGSNL Gene Name
|
DWARF KAMIKAWABUNWAI TILLERING
|
|
Gene Name Synonym
|
kamikawabunwai tillering dwarf, dwarf-14, DWARF14, dwarf 14, Dwarf 88, HIGH-TILLERING DWARF 2, Primary panicle branch number 3, high-tillering dwarf 4
|
|
Protein Name
|
|
|
Allele
|
d14, d14-1, d88, htd4htd4
|
|
Chromosome No.
|
3
|
|
Explanation
|
Q10QA5. GQ406388. PDB code: 4IH9. a probable candidate SL receptor. similar to "bunketsu-waito". GRO:0007048; 04-stem elongation stage ; GRO:0007148; 05-booting stage ; GRO:0007049; 03-tillering stage ; GRO:0007044; 06-heading stage ; GRO:0007045; 09-mature grain stage. GO:1901601:strigolactone biosynthetic process. alpha/beta-fold hydrolase. GO:1902347: response to strigolactone.GO:1901698: response to nitrogen compound. GO:0036377: arbuscular mycorrhizal association. GO:1902347: response to strigolactone. GO:2000023: regulation of lateral root development. GO:2000280: regulation of root development.
|
|
Trait Class
|
Vegetative organ - Culm
Vegetative organ - Root
Tolerance and resistance - Stress tolerance
Character as QTL - Yield and productivity
|
|
Expression
|
|
|
Sequence/Locus
|
|
cDNA Accession No.
|
AK070827
|
|
MSU ID
|
LOC_Os03g10620.1
LOC_Os03g10620.2
LOC_Os03g10620.3
|
|
RAP ID
|
Os03g0203200
|
|
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)
|
-
|
|
Map
|
|
Locate(cM)
|
|
|
Link map
|
Classical linkage map
|
|
References
|
|
|
|
Zheng Q., Zhou Z., Li X., Lan Y., Huang R., Zhang S., Li H.
Int J Mol Sci 2024 25(19)
<i>Heading date 3a</i> Stimulates Tiller Bud Outgrowth in <i>Oryza sativa</i> L. through Strigolactone Signaling Pathway.
|
|
Gu P., Tao W., Tao J., Sun H., Hu R., Wang D., Zong G., Xie X., Ruan W., Xu G., Yi K., Zhang Y.
New Phytol. 2023 239(2) 673-686
The D14-SDEL1-SPX4 cascade integrates the strigolactone and phosphate signalling networks in rice.
|
|
Zhang Q., Xie J., Zhu X., Ma X., Yang T., Khan N.U., Zhang S., Liu M., Li L., Liang Y., Pan Y., Li D., Li J., Li Z., Zhang H., Zhang Z.
Plant Biotechnol. J. 2023 21(5) 1044-1057
Natural variation in tiller number 1 affects its interaction with TIF1 to regulate tillering in rice.
|
|
Chen T., Xiao W., Huang C., Zhou D., Liu Y., Guo T., Chen Z., Wang H.
Plants (Basel) 2023 12(7)
Fine Mapping of the Affecting Tillering and Plant Height Gene <i>CHA-1</i> in Rice.
|
|
Chiu C.H., Roszak P., Orvošová M., Paszkowski U.
Curr. Biol. 2022 32(20) 4428-4437.e3
Arbuscular mycorrhizal fungi induce lateral root development in angiosperms via a conserved set of MAMP receptors.
|
|
Zarban R.A., Hameed U.F.S., Jamil M., Ota T., Wang J.Y., Arold S.T., Asami T., Al-Babili S.
Plant Physiol. 2022 188(2) 1369-1384
Rational design of Striga hermonthica-specific seed germination inhibitors.
|
|
Hull R., Choi J., Paszkowski U.
Curr. Opin. Plant Biol. 2021 62 102071
Conditioning plants for arbuscular mycorrhizal symbiosis through DWARF14-LIKE signalling.
|
|
Liang J., He Y., Zhang Q., Wang W., Zhang Z.
Int J Mol Sci 2020 21(3)
Plasma Membrane Ca2+ Permeable Mechanosensitive Channel <i>Osdmt1</i> Is Involved in Regulation of Plant Architecture and Ion Homeostasis in Rice.
|
|
Zheng J., Hong K., Zeng L., Wang L., Kang S., Qu M., Dai J., Zou L., Zhu L., Tang Z., Meng X., Wang B., Hu J., Zeng D., Zhao Y., Cui P., Wang Q., Qian Q., Wang Y., Li J., Xiong G.
Plant Cell 2020 32(9) 2780-2805
Karrikin Signaling Acts Parallel to and Additively with Strigolactone Signaling to Regulate Rice Mesocotyl Elongation in Darkness.
|
|
Wang F., Han T., Song Q., Ye W., Song X., Chu J., Li J., Chen Z.J.
Plant Cell 2020 32(10) 3124-3138
The Rice Circadian Clock Regulates Tiller Growth and Panicle Development Through Strigolactone Signaling and Sugar Sensing.
|
|
Xu L., Yuan K., Yuan M., Meng X., Chen M., Wu J., Li J., Qi Y.
Mol Plant 2020
Regulation of Rice Tillering by RNA-Directed DNA Methylation at Miniature Inverted-Repeat Transposable Elements.
|
|
Lyu J., Huang L., Zhang S., Zhang Y., He W., Zeng P., Zeng Y., Huang G., Zhang J., Ning M., Bao Y., Zhao S., Fu Q., Wade L.J., Chen H., Wang W., Hu F.
Nat Commun 2020 11(1) 725
Neo-functionalization of a Teosinte branched 1 homologue mediates adaptations of upland rice.
|
|
Shindo M., Yamamoto S., Shimomura K., Umehara M.
Front Plant Sci 2020 11 135
Strigolactones Decrease leaf angle in Response to Nutrient Deficiencies in Rice.
|
|
Fang Z., Ji Y., Hu J., Guo R., Sun S., Wang X.
Mol Plant 2020 13(4) 586-597
Strigolactones and Brassinosteroids Antagonistically Regulate the Stability of the D53-OsBZR1 Complex to Determine FC1 Expression in Rice Tillering.
|
|
Yin X., Liu X., Xu B., Lu P., Dong T., Yang D., Ye T., Feng Y.Q., Wu Y.
J. Exp. Bot. 2019 70(15) 3895-3909
OsMADS18, a membrane-bound MADS-box transcription factor, modulates plant architecture and the abscisic acid response in rice.
|
|
Wang J., Lu K., Nie H., Zeng Q., Wu B., Qian J., Fang Z.
Rice (N Y) 2018 11(1) 12
Rice nitrate transporter OsNPF7.2 positively regulates tiller number and grain yield.
|
|
Shabek N., Ticchiarelli F., Mao H., Hinds T.R., Leyser O., Zheng N.
Nature 2018 563(7733) 652-656
Structural plasticity of D3-D14 ubiquitin ligase in strigolactone signalling.
|
|
He Q., Yang L., Hu W., Zhang J., Xing Y.
Sci Rep 2018 8(1) 14051
Overexpression of an auxin receptor OsAFB6 significantly enhanced grain yield by increasing cytokinin and decreasing auxin concentrations in rice panicle.
|
|
Hamiaux C., Drummond R.S.M., Luo Z., Lee H.W., Sharma P., Janssen B.J., Perry N.B., Denny W.A., Snowden K.C.
J. Biol. Chem. 2018 293(17) 6530-6543
Inhibition of strigolactone receptors by <i>N</i>-phenylanthranilic acid derivatives: Structural and functional insights.
|
|
Wang Y.P., Tang S.Q., Chen H.Z., Wu Z.F., Zhang H., Duan E.C., Shi Q.H., Wu Z.M.
Plant Biol (Stuttg) 2017
Identification and molecular mapping of indica high-tillering dwarf mutant htd4, a mild phenotype allelic mutant of D14 in rice (Oryza sativa L.).
|
|
Chen Z., Gao X., Zhang J.
Plant Cell Rep. 2015 34(5) 767-81
Alteration of osa-miR156e expression affects rice plant architecture and strigolactones (SLs) pathway.
|
|
Li W., Yoshida A., Takahashi M., Maekawa M., Kojima M., Sakakibara H., Kyozuka J.
Plant J. 2015 81(2) 282-91
SAD1, an RNA polymerase I subunit A34.5 of rice, interacts with Mediator and controls various aspects of plant development.
|
|
Sang D., Chen D., Liu G., Liang Y., Huang L., Meng X., Chu J., Sun X., Dong G., Yuan Y., Qian Q., Li J., Wang Y.
Proc. Natl. Acad. Sci. U.S.A. 2014 111(30) 11199-204
Strigolactones regulate rice tiller angle by attenuating shoot gravitropism through inhibiting auxin biosynthesis.
|
|
Liang W., Shang F., Lin Q., Lou C., Zhang J.
Gene 2014 537(1) 1-5
Tillering and panicle branching genes in rice.
|
|
Seto Y., Sado A., Asami K., Hanada A., Umehara M., Akiyama K., Yamaguchi S.
Proc. Natl. Acad. Sci. U.S.A. 2014 111(4) 1640-5
Carlactone is an endogenous biosynthetic precursor for strigolactones.
|
|
Peng Y., Gao Z., Zhang B., Liu C., Xu J., Ruan B., Hu J., Dong G., Guo L., Liang G., Qian Q.
Plant Cell Rep. 2014 33(11) 1843-50
Fine mapping and candidate gene analysis of a major QTL for panicle structure in rice.
|
|
Zhao J., Wang T., Wang M., Liu Y., Yuan S., Gao Y., Yin L., Sun W., Peng L., Zhang W., Wan J., Li X.
Plant Cell Physiol. 2014 55(6) 1096-109
DWARF3 participates in an SCF complex and associates with DWARF14 to suppress rice shoot branching.
|
|
Ikeda M., Miura K., Aya K., Kitano H., Matsuoka M.
Curr. Opin. Plant Biol. 2013 16(2) 213-20
Genes offering the potential for designing yield-related traits in rice.
|
|
Jiang L., Liu X., Xiong G., Liu H., Chen F., Wang L., Meng X., Liu G., Yu H., Yuan Y., Yi W., Zhao L., Ma H., He Y., Wu Z., Melcher K., Qian Q., H.EricXu, Wang Y., Li J.
Nature 2013 504 401-405
DWARF 53 acts as a repressor of strigolactone signalling in rice
|
|
Guo S., Xu Y., Liu H., Mao Z., Zhang C., Ma Y., Zhang Q., Meng Z., Chong K.
Nat Commun 2013 4 1566
The interaction between OsMADS57 and OsTB1 modulates rice tillering via DWARF14.
|
|
Challis R.J., Hepworth J., Mouchel C., Waites R., Leyser O.
Plant Physiol. 2013 161(4) 1885-902
A Role for MORE AXILLARY GROWTH1 (MAX1) in Evolutionary Diversity in Strigolactone Signaling Upstream of MAX2.
|
|
Nakamura H., You-Lin Xue, Miyakawa T., Hou F., Hui-Min Qin, Fukui K., Shi X., Ito E., Ito S., Seung-Hyun Park, Miyauchi Y., Asano A., Totsuka N., Ueda T., Tanokura M., Asami T.
Nat Commun 2013 4 2613
Molecular mechanism of strigolactone perception by DWARF14.
|
|
Smith S.M.
Nature 2013 504(7480) 384-5
Plant biology: Witchcraft and destruction.
|
|
Li-Hua Zhao, X Edward Zhou, Zhong-Shan Wu, Yi W., Xu Y., Li S., Ting-Hai Xu, Liu Y., Run-Ze Chen, Kovach A., Kang Y., Hou L., He Y., Xie C., Song W., Zhong D., Xu Y., Wang Y., Li J., Zhang C., Melcher K., H Eric Xu
Cell Res. 2013 23(3) 436-9
Crystal structures of two phytohormone signal-transducing alpha/beta hydrolases: karrikin-signaling KAI2 and strigolactone-signaling DWARF14.
|
|
Zhou F.a b, Lin Q.b, Zhu L.a, Ren Y.b, Zhou K.a, Shabek N.c d, Wu F.b, Mao H.c d, Dong W.b, Gan L.b, Ma W.b, Gao H.a, Chen J.b, Yang C.a, Wang D.b, Tan J.b, Zhang X.b, Guo X.b, Wang J.b, Jiang L.a, Liu X.a, Chen W.e, Chu J.e, Yan C.f, Ueno K.f, Ito S.f, Asami T.b, Cheng Z.b, Wang J.b, Lei C.b, Zhai H.b, Wu C.b, Wang H.b, Zheng N.c d, Wan J.a b
Nature 2013 504 406-410
D14-SCF D3 -dependent degradation of D53 regulates strigolactone signalling
|
|
Arite T,Umehara M,Ishikawa S,Hanada A,Maekawa M,Yamaguchi S,Kyozuka J
Plant Cell Physiol. 2009 50(8) 1416-24
d14, a strigolactone-insensitive mutant of rice, shows an accelerated outgrowth of tillers.
|
|
Gao Z,Qian Q,Liu X,Yan M,Feng Q,Dong G,Liu J,Han B
Plant Mol. Biol. 2009 71(3) 265-76
Dwarf 88, a novel putative esterase gene affecting architecture of rice plant.
|
|
Arite T, Iwata H, Ohshima K, Maekawa M, Nakajima M, Kojima M, Sakakibara H, Kyozuka J.
Plant J. 2007 51(6) 1019-1029
DWARF10, an RMS1/MAX4/DAD1 ortholog, controls lateral bud outgrowth in rice.
|
|
Ishikawa S, Maekawa M, Arite T, Onishi K, Takamure I, Kyozuka J.
Plant Cell Physiol. 2005 46(1) 79-86
Suppression of Tiller Bud Activity in Tillering Dwarf Mutants of Rice
|
|
Kinoshita, T.
In Biology of Rice. S. Tsunoda and N. Takahashi eds. JSSP/Elsevier, Tokyo. 1984 187-274.
Gene analysis and linkage map.
|
|
Takahashi, M. and T. Kinoshita
Res. Bull. Univ. Farm Hokkaido Univ. 1974 19 41-50.
Genic identification on the forms of the tillering dwarf rice. -Genetical studies on rice plant, LIX-.
|
|
DB Reference
|
|
Gramene ID
|
GR:0060196
|
|
Ontologies
|
|
Gene Ontology
|
root development( GO:0048364 )
cellular response to phosphate starvation( GO:0016036 )
lateral root development( GO:0048527 )
hormone-mediated signaling( GO:0009755 )
multicellular organismal development( GO:0007275 )
hydrolase activity( GO:0016787 )
secondary shoot formation( GO:0010223 )
response to starvation( GO:0042594 )
response to symbiotic fungus( GO:0009610 )
|
|
Trait Ontology
|
shoot branching( TO:0002639 )
tiller number( TO:0000346 )
panicle number( TO:0000152 )
shoot anatomy and morphology trait( TO:0000077 )
plant growth hormone sensitivity( TO:0000401 )
stem length( TO:0000576 )
stem thickness( TO:0000339 )
plant height( TO:0000207 )
nitrogen sensitivity( TO:0000011 )
leaf lamina joint bending( TO:0002688 )
mesocotyl length( TO:0000544 )
tillering ability( TO:0000329 )
phosphorus sensitivity( TO:0000102 )
root development trait( TO:0000656 )
|
|
Plant Ontology
|
axillary shoot system( PO:0006343 )
stem( PO:0009047 )
|
|
Related Strains
|
|
-
|
|
Phenotype images
|
|
-
|
|
Last updated
|
|
Feb 20, 2025
|
Update info.