| Signature Domain? help Back to Top |
 |
| No. |
Domain |
Score |
E-value |
Start |
End |
HMM Start |
HMM End |
| 1 | GRAS | 311.7 | 1.6e-95 | 34 | 402 | 3 | 369 |
GRAS 3 elLlecAeavssgdlelaqalLarlselaspdgdpmqRlaayfteALaarlarsvselykalppsetseknsseelaalklfsev 87
+lL ecA+a+s+++ +++++lL+ l+elasp+gd +q+la+yf++AL + ++++ ++yk+l + ++++k+ +++ + f+ev
Peaxi162Scf00075g01527.1 34 RLLRECATAISEKNSTKIHHLLWMLNELASPYGDCNQKLAFYFLQALFCKATDTGLRCYKTLISAADKNKSFDSTRKLILKFQEV 118
7899**********************************************************8888886665555555556**** PP
GRAS 88 sPilkfshltaNqaIleavegeervHiiDfdisqGlQWpaLlqaLasRpegppslRiTgvgspesgskeeleetgerLakfAeel 172
sP+ +f+hl+ N aIlea++ge+++HiiD++ + ++QWp+Ll+aLa+R++++p+l++T+v ++ + ++e+++r++kfA+ +
Peaxi162Scf00075g01527.1 119 SPWTTFGHLASNGAILEALDGESKLHIIDISNTLCTQWPTLLEALATRNDETPHLKLTVVITENILVNSVMKEVAQRMEKFARLM 203
**************************************************************8888******************* PP
GRAS 173 gvpfefnvl.vakrledleleeLrvkpgEalaVnlvlqlhrlldesvsleserdevLklvkslsPkvvvvveqeadh..nsesFl 254
gvpfefnv+ ++l++l+ e+L+v+++Ea+aVn++ +l ++ +e+ r ev+++++sl+Pkvv++ve+++d ++++F+
Peaxi162Scf00075g01527.1 204 GVPFEFNVIgGLNHLKELTKENLNVQSDEAVAVNCIGSLRKVA-----VEE-RGEVIRMLQSLNPKVVTIVEHDVDFssTRNDFV 282
********97788****************************98.....444.89********************998545679** PP
GRAS 255 erflealeyysalfdsleaklpreseerikvErellgreivnvvacegae...rrerhetlekWrerleeaGFkpvplsekaakq 336
+ f e+l++y+ f++l++++p++s+er ++Ere +r+iv v+ac + er+e+ +W++rl+e GF+p pl+++a ++
Peaxi162Scf00075g01527.1 283 KCFEECLRFYTLYFEMLDENFPPTSNERLMIERE-CSRSIVRVLACDDQVdegDCERRERGIQWSQRLQE-GFSPFPLNDDALDD 365
**********************************.89*********8765224679999999*****975.************** PP
GRAS 337 aklllrkvksdgyrve.....eesgslvlgWkdrpLvs 369
+k+ll+++k g+++ ++s ++l+W+++p+++
Peaxi162Scf00075g01527.1 366 VKSLLKRYK-AGWSLVlpqedQDSPGIYLTWREEPVFA 402
*********.666665556556688999*******987 PP
|
| Publications
? help Back to Top |
- Ding Y, et al.
Four distinct types of dehydration stress memory genes in Arabidopsis thaliana.
BMC Plant Biol., 2013. 13: p. 229
[PMID:24377444] - Muraro D, et al.
Integration of hormonal signaling networks and mobile microRNAs is required for vascular patterning in Arabidopsis roots.
Proc. Natl. Acad. Sci. U.S.A., 2014. 111(2): p. 857-62
[PMID:24381155] - Tian H,Jia Y,Niu T,Yu Q,Ding Z
The key players of the primary root growth and development also function in lateral roots in Arabidopsis.
Plant Cell Rep., 2014. 33(5): p. 745-53
[PMID:24504658] - Gao X,Wang C,Cui H
Identification of bundle sheath cell fate factors provides new tools for C3-to-C4 engineering.
Plant Signal Behav, 2018.
[PMID:24819776] - Ahrazem O, et al.
Ectopic expression of a stress-inducible glycosyltransferase from saffron enhances salt and oxidative stress tolerance in Arabidopsis while alters anchor root formation.
Plant Sci., 2015. 234: p. 60-73
[PMID:25804810] - Jia Y, et al.
The Arabidopsis thaliana elongator complex subunit 2 epigenetically affects root development.
J. Exp. Bot., 2015. 66(15): p. 4631-42
[PMID:25998905] - Zhang M, et al.
A tetratricopeptide repeat domain-containing protein SSR1 located in mitochondria is involved in root development and auxin polar transport in Arabidopsis.
Plant J., 2015. 83(4): p. 582-99
[PMID:26072661] - Moreno-Risueno MA, et al.
Transcriptional control of tissue formation throughout root development.
Science, 2015. 350(6259): p. 426-30
[PMID:26494755] - Miguel A,Milhinhos A,Novák O,Jones B,Miguel CM
The SHORT-ROOT-like gene PtSHR2B is involved in Populus phellogen activity.
J. Exp. Bot., 2016. 67(5): p. 1545-55
[PMID:26709311] - Gong X, et al.
SEUSS Integrates Gibberellin Signaling with Transcriptional Inputs from the SHR-SCR-SCL3 Module to Regulate Middle Cortex Formation in the Arabidopsis Root.
Plant Physiol., 2016. 170(3): p. 1675-83
[PMID:26818732] - Kim ES, et al.
HAWAIIAN SKIRT regulates the quiescent center-independent meristem activity in Arabidopsis roots.
Physiol Plant, 2016. 157(2): p. 221-33
[PMID:26968317] - Lee SA, et al.
Interplay between ABA and GA Modulates the Timing of Asymmetric Cell Divisions in the Arabidopsis Root Ground Tissue.
Mol Plant, 2016. 9(6): p. 870-84
[PMID:26970019] - Li Q,Zhao Y,Yue M,Xue Y,Bao S
The Protein Arginine Methylase 5 (PRMT5/SKB1) Gene Is Required for the Maintenance of Root Stem Cells in Response to DNA Damage.
J Genet Genomics, 2016. 43(4): p. 187-97
[PMID:27090604] - Clark NM, et al.
Tracking transcription factor mobility and interaction in Arabidopsis roots with fluorescence correlation spectroscopy.
Elife, 2017.
[PMID:27288545] - Yoon EK, et al.
Conservation and Diversification of the SHR-SCR-SCL23 Regulatory Network in the Development of the Functional Endodermis in Arabidopsis Shoots.
Mol Plant, 2016. 9(8): p. 1197-1209
[PMID:27353361] - Waszczak C, et al.
SHORT-ROOT Deficiency Alleviates the Cell Death Phenotype of the Arabidopsis catalase2 Mutant under Photorespiration-Promoting Conditions.
Plant Cell, 2016. 28(8): p. 1844-59
[PMID:27432873] - Yu Q, et al.
A P-Loop NTPase Regulates Quiescent Center Cell Division and Distal Stem Cell Identity through the Regulation of ROS Homeostasis in Arabidopsis Root.
PLoS Genet., 2016. 12(9): p. e1006175
[PMID:27583367] - Sparks EE, et al.
Establishment of Expression in the SHORTROOT-SCARECROW Transcriptional Cascade through Opposing Activities of Both Activators and Repressors.
Dev. Cell, 2016. 39(5): p. 585-596
[PMID:27923776] - Hirano Y, et al.
Structure of the SHR-SCR heterodimer bound to the BIRD/IDD transcriptional factor JKD.
Nat Plants, 2017. 3: p. 17010
[PMID:28211915] - Henry S, et al.
SHR overexpression induces the formation of supernumerary cell layers with cortex cell identity in rice.
Dev. Biol., 2017. 425(1): p. 1-7
[PMID:28263767] - Möller BK, et al.
Auxin response cell-autonomously controls ground tissue initiation in the early Arabidopsis embryo.
Proc. Natl. Acad. Sci. U.S.A., 2017. 114(12): p. E2533-E2539
[PMID:28265057] - Kobayashi A,Miura S,Kozaki A
INDETERMINATE DOMAIN PROTEIN binding sequences in the 5'-untranslated region and promoter of the SCARECROW gene play crucial and distinct roles in regulating SCARECROW expression in roots and leaves.
Plant Mol. Biol., 2017. 94(1-2): p. 1-13
[PMID:28324206] - Díaz-Triviño S,Long Y,Scheres B,Blilou I
Analysis of a Plant Transcriptional Regulatory Network Using Transient Expression Systems.
Methods Mol. Biol., 2017. 1629: p. 83-103
[PMID:28623581] - Long Y, et al.
In vivo FRET-FLIM reveals cell-type-specific protein interactions in Arabidopsis roots.
Nature, 2017. 548(7665): p. 97-102
[PMID:28746306] - Yu Q, et al.
Cell-Fate Specification in Arabidopsis Roots Requires Coordinative Action of Lineage Instruction and Positional Reprogramming.
Plant Physiol., 2017. 175(2): p. 816-827
[PMID:28821591] - Spiegelman Z,Lee CM,Gallagher KL
KinG Is a Plant-Specific Kinesin That Regulates Both Intra- and Intercellular Movement of SHORT-ROOT.
Plant Physiol., 2018. 176(1): p. 392-405
[PMID:29122988] - Bustillo-Avendaño E, et al.
Regulation of Hormonal Control, Cell Reprogramming, and Patterning during De Novo Root Organogenesis.
Plant Physiol., 2018. 176(2): p. 1709-1727
[PMID:29233938]
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