scholarly article | Q13442814 |
P2093 | author name string | Lai-Sheng Meng | |
Shun-Qiao Yao | |||
P2860 | cites work | Functional domains of the SYT and SYT-SSX synovial sarcoma translocation proteins and co-localization with the SNF protein BRM in the nucleus | Q22009004 |
SYT associates with human SNF/SWI complexes and the C-terminal region of its fusion partner SSX1 targets histones | Q24291965 | ||
The synovial sarcoma associated protein SYT interacts with the acute leukemia associated protein AF10 | Q28203521 | ||
Identification of novel genes, SYT and SSX, involved in the t(X;18)(p11.2;q11.2) translocation found in human synovial sarcoma | Q28240093 | ||
Integration of spatial and temporal information during floral induction in Arabidopsis | Q28267229 | ||
The subtilisin-like serine protease SDD1 mediates cell-to-cell signaling during Arabidopsis stomatal development | Q33337409 | ||
Stomatal patterning and differentiation by synergistic interactions of receptor kinases | Q33341331 | ||
The Arabidopsis GRF-INTERACTING FACTOR gene family performs an overlapping function in determining organ size as well as multiple developmental properties | Q33347495 | ||
Generation of signaling specificity in Arabidopsis by spatially restricted buffering of ligand-receptor interactions | Q33352022 | ||
Stable establishment of cotyledon identity during embryogenesis in Arabidopsis by ANGUSTIFOLIA3 and HANABA TARANU. | Q33353687 | ||
Auxin Response Factor2 (ARF2) and its regulated homeodomain gene HB33 mediate abscisic acid response in Arabidopsis | Q33967972 | ||
Agrobacterium-mediated transformation of Arabidopsis thaliana using the floral dip method | Q34003305 | ||
Stomatal development and pattern controlled by a MAPKK kinase | Q34324732 | ||
Analysis of transforming activity of human synovial sarcoma-associated chimeric protein SYT-SSX1 bound to chromatin remodeling factor hBRM/hSNF2 alpha | Q34514419 | ||
FKF1 and GIGANTEA complex formation is required for day-length measurement in Arabidopsis | Q34687887 | ||
Influence of environmental factors on stomatal development | Q34749022 | ||
A transcriptional coactivator, AtGIF1, is involved in regulating leaf growth and morphology in Arabidopsis | Q37513574 | ||
Mix-and-match: ligand-receptor pairs in stomatal development and beyond | Q38028161 | ||
The Arabidopsis NFYA5 transcription factor is regulated transcriptionally and posttranscriptionally to promote drought resistance. | Q38288532 | ||
The 5'-region of Arabidopsis thaliana cor15a has cis-acting elements that confer cold-, drought- and ABA-regulated gene expression | Q38889250 | ||
The Arabidopsis GTL1 transcription factor regulates water use efficiency and drought tolerance by modulating stomatal density via transrepression of SDD1. | Q39617061 | ||
Activated expression of an Arabidopsis HD-START protein confers drought tolerance with improved root system and reduced stomatal density. | Q39619254 | ||
Direct interaction of ligand-receptor pairs specifying stomatal patterning. | Q40898935 | ||
RSAT peak-motifs: motif analysis in full-size ChIP-seq datasets | Q41576923 | ||
The ERECTA gene regulates plant transpiration efficiency in Arabidopsis | Q42024174 | ||
A MAPKK kinase gene regulates extra-embryonic cell fate in Arabidopsis | Q42455412 | ||
The secretory peptide gene EPF1 enforces the stomatal one-cell-spacing rule | Q42539730 | ||
CO(2)-forced evolution of plant gas exchange capacity and water-use efficiency over the Phanerozoic | Q44351965 | ||
The signaling peptide EPF2 controls asymmetric cell divisions during stomatal development. | Q44478512 | ||
Arabidopsis stomatal initiation is controlled by MAPK-mediated regulation of the bHLH SPEECHLESS. | Q46903492 | ||
ANGUSTIFOLIA3 binds to SWI/SNF chromatin remodeling complexes to regulate transcription during Arabidopsis leaf development | Q49093593 | ||
Cryptochromes, phytochromes, and COP1 regulate light-controlled stomatal development in Arabidopsis | Q50450165 | ||
SHORT HYPOCOTYL UNDER BLUE1 associates with MINISEED3 and HAIKU2 promoters in vivo to regulate Arabidopsis seed development. | Q51942637 | ||
Oriented asymmetric divisions that generate the stomatal spacing pattern in arabidopsis are disrupted by the too many mouths mutation. | Q52541599 | ||
Stomatal development and patterning are regulated by environmentally responsive mitogen-activated protein kinases in Arabidopsis. | Q53574526 | ||
Stomagen positively regulates stomatal density in Arabidopsis | Q56113884 | ||
P433 | issue | 7 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | drought | Q43059 |
drought tolerance | Q12142810 | ||
stomatal density | Q112671225 | ||
P304 | page(s) | 893-902 | |
P577 | publication date | 2015-01-20 | |
P1433 | published in | Plant Biotechnology Journal | Q15762398 |
P1476 | title | Transcription co-activator Arabidopsis ANGUSTIFOLIA3 (AN3) regulates water-use efficiency and drought tolerance by modulating stomatal density and improving root architecture by the transrepression of YODA (YDA). | |
P478 | volume | 13 |
Q64994832 | IDD16 negatively regulates stomatal initiation via trans-repression of SPCH in Arabidopsis. |
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Q35891673 | Natural history collections as windows on evolutionary processes. |
Q42373373 | OsGIF1 Positively Regulates the Sizes of Stems, Leaves, and Grains in Rice |
Q90328827 | Overexpression of a SDD1-Like Gene From Wild Tomato Decreases Stomatal Density and Enhances Dehydration Avoidance in Arabidopsis and Cultivated Tomato |
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Q30827263 | Seed Embryo Development Is Regulated via an AN3-MINI3 Gene Cascade |
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