scholarly article | Q13442814 |
P2093 | author name string | Yanhua Xu | |
Jingjing Li | |||
Le Li | |||
Dangqun Cui | |||
Yiping Tong | |||
Zhanyong Guo | |||
Tongbao Lin | |||
Yongzhe Ren | |||
P2860 | cites work | Fertilizing nature: a tragedy of excess in the commons | Q21145766 |
High-throughput functional annotation and data mining with the Blast2GO suite | Q24657550 | ||
Interplay between reactive oxygen species and hormones in the control of plant development and stress tolerance | Q26852145 | ||
Roots Withstanding their Environment: Exploiting Root System Architecture Responses to Abiotic Stress to Improve Crop Tolerance | Q28070109 | ||
The 4 beta-methyl group of substrate does not affect the activity of lanosterol 14 alpha-demethylase (P-450(14)DM) of yeast: difference between the substrate recognition by yeast and plant sterol 14 alpha-demethylases | Q28304511 | ||
Cloning and expression in Escherichia coli of the obtusifoliol 14 alpha-demethylase of Sorghum bicolor (L.) Moench, a cytochrome P450 orthologous to the sterol 14 alpha-demethylases (CYP51) from fungi and mammals | Q28306423 | ||
Arabidopsis det2 is defective in the conversion of (24R)-24-methylcholest-4-En-3-one to (24R)-24-methyl-5alpha-cholestan-3-one in brassinosteroid biosynthesis | Q28343433 | ||
The Arabidopsis DIMINUTO/DWARF1 gene encodes a protein involved in steroid synthesis | Q28369061 | ||
Matching roots to their environment | Q28680741 | ||
Brassinolide, a plant growth-promoting steroid isolated from Brassica napus pollen | Q29030454 | ||
Universal sample preparation method for proteome analysis | Q29615662 | ||
Root system architecture: opportunities and constraints for genetic improvement of crops | Q31126504 | ||
The role of OsBRI1 and its homologous genes, OsBRL1 and OsBRL3, in rice | Q33342003 | ||
PLETHORA proteins as dose-dependent master regulators of Arabidopsis root development | Q33344765 | ||
A genetic framework for the control of cell division and differentiation in the root meristem | Q33346372 | ||
Redox regulation of root apical meristem organization: connecting root development to its environment | Q33348399 | ||
Brassinosteroid perception in the epidermis controls root meristem size | Q33350527 | ||
Brassinosteroids control meristem size by promoting cell cycle progression in Arabidopsis roots | Q33350530 | ||
A genotypic difference in primary root length is associated with the inhibitory role of transforming growth factor-beta receptor-interacting protein-1 on root meristem size in wheat | Q33357644 | ||
Translatome analyses capture of opposing tissue-specific brassinosteroid signals orchestrating root meristem differentiation | Q33359825 | ||
Plant hormone cross-talk: the pivot of root growth | Q33359942 | ||
Brassinosteroids Regulate Root Growth, Development, and Symbiosis | Q33362179 | ||
Hydroxyl-radical production in physiological reactions. A novel function of peroxidase | Q33856859 | ||
The peroxidase gene family in plants: a phylogenetic overview | Q75226780 | ||
A simplified conceptual model of carbon/nitrogen functioning for QTL analysis of winter wheat adaptation to nitrogen deficiency | Q80113028 | ||
On the discordance of metabolomics with proteomics and transcriptomics: coping with increasing complexity in logic, chemistry, and network interactions scientific correspondence | Q83265557 | ||
Plant development: how long is a root? | Q85395893 | ||
Formation of hydrogen peroxide by isolated cell walls from horseradish (Armoracia lapathifolia Gilib.). | Q87097974 | ||
Roots of the Second Green Revolution | Q100712380 | ||
Deciphering thylakoid sub-compartments using a mass spectrometry-based approach. | Q34018065 | ||
ZmMPK5 is required for the NADPH oxidase-mediated self-propagation of apoplastic H2O2 in brassinosteroid-induced antioxidant defence in leaves of maize | Q34203579 | ||
A large family of class III plant peroxidases | Q34267750 | ||
A large and deep root system underlies high nitrogen-use efficiency in maize production | Q35610788 | ||
Quantitative iTRAQ-based proteomic analysis of phosphoproteins and ABA-regulated phosphoproteins in maize leaves under osmotic stress. | Q36293660 | ||
Prioritizing quantitative trait loci for root system architecture in tetraploid wheat | Q36580792 | ||
Brassinosteroids and plant function: some clues, more puzzles | Q36642397 | ||
MAP65-1a positively regulates H2O2 amplification and enhances brassinosteroid-induced antioxidant defence in maize. | Q37100630 | ||
Root traits contributing to plant productivity under drought | Q37280880 | ||
Domestication and crop physiology: roots of green-revolution wheat | Q37380728 | ||
Quantitative Proteomic Analyses Identify ABA-Related Proteins and Signal Pathways in Maize Leaves under Drought Conditions | Q37482607 | ||
Overexpression of wheat gene TaMOR improves root system architecture and grain yield in Oryza sativa | Q37635489 | ||
Genes and networks regulating root anatomy and architecture. | Q38491703 | ||
Unraveling the Root Proteome Changes and Its Relationship to Molecular Mechanism Underlying Salt Stress Response in Radish (Raphanus sativus L.). | Q38645570 | ||
Grain production versus resource and environmental costs: towards increasing sustainability of nutrient use in China | Q38917799 | ||
Association mapping for root architectural traits in durum wheat seedlings as related to agronomic performance | Q38931190 | ||
Untapping root system architecture for crop improvement | Q39069655 | ||
Control of root system architecture by DEEPER ROOTING 1 increases rice yield under drought conditions | Q39540705 | ||
Mapping QTL for Root and Shoot Morphological Traits in a Durum Wheat × T. dicoccum Segregating Population at Seedling Stage. | Q41463472 | ||
The PLETHORA genes mediate patterning of the Arabidopsis root stem cell niche | Q42468459 | ||
Analysis and expression of the class III peroxidase large gene family in Arabidopsis thaliana | Q44009187 | ||
A brassinosteroid-insensitive mutant in Arabidopsis thaliana exhibits multiple defects in growth and development | Q44866894 | ||
Teaching an old hormone new tricks: cytosolic Ca2+ elevation involvement in plant brassinosteroid signal transduction cascades. | Q45974565 | ||
Synergistic activation of the Arabidopsis NADPH oxidase AtrbohD by Ca2+ and phosphorylation | Q46792618 | ||
Characterization of QTLs for Root Traits of Wheat Grown under Different Nitrogen and Phosphorus Supply Levels | Q47192117 | ||
Overexpression of a predominantly root-expressed NAC transcription factor in wheat roots enhances root length, biomass and drought tolerance. | Q47698730 | ||
Novel rice mutants overexpressing the brassinosteroid catabolic gene CYP734A4. | Q47851633 | ||
Initiation of runaway cell death in an Arabidopsis mutant by extracellular superoxide | Q48059911 | ||
A role for brassinosteroids in light-dependent development of Arabidopsis | Q48064776 | ||
Calcium-dependent protein kinases regulate the production of reactive oxygen species by potato NADPH oxidase | Q48080421 | ||
Comparative proteomic analysis of the maize responses to early leaf senescence induced by preventing pollination | Q49903691 | ||
The roots of a new green revolution. | Q50541031 | ||
The class III peroxidase multigenic family in rice and its evolution in land plants. | Q50797504 | ||
Proteolysis of chloroplast proteins is responsible for accumulation of free amino acids in dark-treated tea (Camellia sinensis) leaves. | Q51151890 | ||
Transcriptional regulation of ROS controls transition from proliferation to differentiation in the root. | Q51553227 | ||
iTRAQ-based quantitative proteomics analysis of Brassica napus leaves reveals pathways associated with chlorophyll deficiency. | Q53413221 | ||
Involvement of malate, monophenols, and the superoxide radical in hydrogen peroxide formation by isolated cell walls from horseradish (Armoracia lapathifolia Gilib.). | Q54122477 | ||
ROS mediate brassinosteroids-induced plant stress responses | Q57124554 | ||
Water for Agriculture: Maintaining Food Security under Growing Scarcity | Q57152896 | ||
Genetic dissection of seminal root architecture in elite durum wheat germplasm | Q58900017 | ||
Comparative Proteomic Analysis Provides New Insights Into Low Nitrogen-Promoted Primary Root Growth in Hexaploid Wheat | Q64230261 | ||
P433 | issue | 1 | |
P304 | page(s) | 11741 | |
P577 | publication date | 2019-08-13 | |
P1433 | published in | Scientific Reports | Q2261792 |
P1476 | title | Comparative Proteomic Analysis Provides Insights into the Regulatory Mechanisms of Wheat Primary Root Growth | |
P478 | volume | 9 |
Q92326271 | Analysis of the Barley Malt Rootlet Proteome | cites work | P2860 |
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