scholarly article | Q13442814 |
P50 | author | Helena Hniličková | Q58241874 |
František Hnilička | Q59659737 | ||
Petr Jedelský | Q59679041 | ||
Dana Holá | Q69677285 | ||
Olga Rothová | Q44864196 | ||
Marie Kočová | Q44864329 | ||
Lukáš Fischer | Q81152283 | ||
P2093 | author name string | Lenka Tůmová | |
Daniel Haisel | |||
Dagmar Procházková | |||
Monika Benešová | |||
Naďa Wilhelmová | |||
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What is crop heterosis: new insights into an old topic | Q26809949 | ||
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Deciphering genetic variations of proteome responses to water deficit in maize leaves | Q39396580 | ||
Transcriptional differences in gene families of the ascorbate-glutathione cycle in wheat during mild water deficit | Q39443035 | ||
Comparative proteomic responses of two bermudagrass (Cynodon dactylon (L). Pers.) varieties contrasting in drought stress resistance. | Q39456484 | ||
Asymmetric allele-specific expression in relation to developmental variation and drought stress in barley hybrids | Q39564723 | ||
Genomic and epigenetic insights into the molecular bases of heterosis | Q26809972 | ||
Epigenetic variations in plant hybrids and their potential roles in heterosis | Q26809974 | ||
Heterosis in elite hybrid rice: speculation on the genetic and biochemical mechanisms | Q26809975 | ||
A unifying theory for general multigenic heterosis: energy efficiency, protein metabolism, and implications for molecular breeding | Q26809996 | ||
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How do environmental stresses accelerate photoinhibition? | Q28272011 | ||
Assay of glutathione reductase in crude tissue homogenates using 5,5'-dithiobis(2-nitrobenzoic acid) | Q28293760 | ||
Temporal Shift of Circadian-Mediated Gene Expression and Carbon Fixation Contributes to Biomass Heterosis in Maize Hybrids | Q28959149 | ||
Small heat shock proteins and stress tolerance in plants. | Q30331340 | ||
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Physiology and proteomics of the water-deficit stress response in three contrasting peanut genotypes | Q30857062 | ||
Any trait or trait-related allele can confer drought tolerance: just design the right drought scenario. | Q34036814 | ||
Revealing the structure of the photosystem II chlorophyll binding proteins, CP43 and CP47. | Q34044371 | ||
The low molecular mass subunits of the photosynthetic supracomplex, photosystem II. | Q34296966 | ||
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Comparative analysis of barley leaf proteome as affected by drought stress | Q34467955 | ||
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CP12-mediated protection of Calvin-Benson cycle enzymes from oxidative stress | Q35037763 | ||
Identification of Leaf Proteins Differentially Accumulated between Wheat Cultivars Distinct in Their Levels of Drought Tolerance | Q35620438 | ||
Comparative proteomic analysis of drought tolerance in the two contrasting Tibetan wild genotypes and cultivated genotype | Q35684604 | ||
Redesigning photosynthesis to sustainably meet global food and bioenergy demand | Q35865610 | ||
Heterosis of Arabidopsis hybrids between C24 and Col is associated with increased photosynthesis capacity | Q35935575 | ||
Analysis of Drought-Induced Proteomic and Metabolomic Changes in Barley (Hordeum vulgare L.) Leaves and Roots Unravels Some Aspects of Biochemical Mechanisms Involved in Drought Tolerance | Q36100939 | ||
Comparative proteomics illustrates the complexity of drought resistance mechanisms in two wheat (Triticum aestivum L.) cultivars under dehydration and rehydration. | Q36117281 | ||
Drought susceptibility of modern rice varieties: an effect of linkage of drought tolerance with undesirable traits | Q36149892 | ||
Hormone-regulated defense and stress response networks contribute to heterosis in Arabidopsis F1 hybrids | Q36306159 | ||
Cyclic electron transport around photosystem I: genetic approaches | Q36698609 | ||
Proteomic analysis of elite soybean Jidou17 and its parents using iTRAQ-based quantitative approaches | Q36755447 | ||
Epigenetic responses to drought stress in rice (Oryza sativa L.). | Q37025277 | ||
Group 3 LEA Protein, ZmLEA3, Is Involved in Protection from Low Temperature Stress | Q37093739 | ||
Analysis of Allelic Imbalance in Rice Hybrids Under Water Stress and Association of Asymmetrically Expressed Genes with Drought-Response QTLs. | Q37284562 | ||
L-ascorbic Acid: a multifunctional molecule supporting plant growth and development | Q37287789 | ||
Differential proteomic responses to water stress induced by PEG in two creeping bentgrass cultivars differing in stress tolerance | Q39608394 | ||
Differential proteomic analysis of drought stress response in leaves of common bean (Phaseolus vulgaris L.). | Q39620869 | ||
Identification of proteins associated with water‐deficit tolerance in C4 perennial grass species, Cynodon dactylon×Cynodon transvaalensis and Cynodon dactylon | Q39629102 | ||
Physiological and proteome analysis suggest critical roles for the photosynthetic system for high water-use efficiency under drought stress in Malus | Q39630365 | ||
Molecular dissection of heterosis manifestation during early maize root development | Q39971084 | ||
The structure of plant photosystem I super-complex at 2.8 Å resolution. | Q41553407 | ||
Plant responses to stresses: Role of ascorbate peroxidase in the antioxidant protection | Q41812555 | ||
Predicting Arabidopsis freezing tolerance and heterosis in freezing tolerance from metabolite composition | Q42146679 | ||
Maize (Zea mays L.) seedling leaf nuclear proteome and differentially expressed proteins between a hybrid and its parental lines | Q42456512 | ||
Nonadditive protein accumulation patterns in Maize (Zea mays L.) hybrids during embryo development | Q42848702 | ||
Overexpression of gamma-tocopherol methyl transferase gene in transgenic Brassica juncea plants alleviates abiotic stress: physiological and chlorophyll a fluorescence measurements. | Q43167084 | ||
Heterosis-associated proteome analyses of maize (Zea mays L.) seminal roots by quantitative label-free LC-MS. | Q44186548 | ||
Arabidopsis plants lacking PsbQ and PsbR subunits of the oxygen-evolving complex show altered PSII super-complex organization and short-term adaptive mechanisms | Q45088845 | ||
Gravimetric phenotyping of whole plant transpiration responses to atmospheric vapour pressure deficit identifies genotypic variation in water use efficiency. | Q46493628 | ||
Antioxidant protection during ageing and senescence in chloroplasts of tobacco with modulated life span. | Q46567751 | ||
Role of the PSII-H subunit in photoprotection: novel aspects of D1 turnover in Synechocystis 6803. | Q47700644 | ||
Sequence and Regulation of a Late Embryogenesis Abundant Group 3 Protein of Maize | Q48072472 | ||
Identification of differentially expressed proteins between hybrid and parents in wheat (Triticum aestivum L.) seedling leaves | Q82063137 | ||
The xanthophyll cycle and antioxidative defense system are enhanced in the wheat hybrid subjected to high light stress | Q84518410 | ||
Differential analysis of proteomes and metabolomes reveals additively balanced networking for metabolism in maize heterosis | Q87543183 | ||
Comparative proteomics analyses of intraspecific differences in the response of Stipa purpurea to drought | Q91215007 | ||
A cyanobacterium lacking iron superoxide dismutase is sensitized to oxidative stress induced with methyl viologen but Is not sensitized to oxidative stress induced with norflurazon | Q95432384 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P433 | issue | 4 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | drought | Q43059 |
P304 | page(s) | e0176121 | |
P577 | publication date | 2017-04-18 | |
P1433 | published in | PLOS One | Q564954 |
P1476 | title | The disadvantages of being a hybrid during drought: A combined analysis of plant morphology, physiology and leaf proteome in maize | |
P478 | volume | 12 |
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