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Mostrando 821 - 840 Resultados de 10,967 Para Buscar '"maíz"', tiempo de consulta: 0.46s Limitar resultados
  1. 821
    “…Increasing populations and temperatures are expected to escalate food demands beyond production capacities, and the development of maize lines with better performance under heat stress is desirable. …”
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    Redox‐engineering enhances maize thermotolerance and grain yield in the field
  2. 822
    “…Fumonisins are a group of mycotoxins that routinely contaminate maize. Their presence is monitored at multiple stages from harvest to final product. …”
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    Measurement of Fumonisins in Maize Using a Portable Mass Spectrometer
  3. 823
    “…However, it is poorly understood that how FQ influences the waxy maize starch (WMS) structure and the digestion behavior. …”
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    The effects of fermentation of Qu on the digestibility and structure of waxy maize starch
  4. 824
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    Maize harvester gearbox design modification for improved fatigue life
  5. 825
    “…BACKGROUND: Understanding the genetic basis of yield related traits contributes to the improvement of grain yield in maize. RESULTS: Using 291 excellent maize inbred lines as materials, six yield related traits of maize, including grain yield per plant (GYP), grain length (GL), grain width (GW), kernel number per row (KNR), 100 kernel weight (HKW) and tassel branch number (TBN) were investigated in Jinan, in 2017, 2018 and 2019. …”
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    Genome wide association analysis for yield related traits in maize
  6. 826
    “…Corda, is a destructive fungal disease of maize worldwide; it forms large tumors, reducing corn yield and quality. …”
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    Early infection response of fungal biotroph Ustilago maydis in maize
  7. 827
    “…The Western corn rootworm (WCR; Diabrotica virgifera virgifera) is an economically important belowground pest of maize. Belowground feeding by WCR is damaging because it weakens the roots system, diminishes nutrient uptake, and creates entry points for fungal and bacterial pathogens and increases lodging, all of which can significantly suppress maize yields. …”
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    Co-Transcriptomic Analysis of the Maize–Western Corn Rootworm Interaction
  8. 828
    por Buchhart, Claudia, Schmidhalter, Urs
    Publicado 2022
    “…The spectral reflectance of maize grown in four compass directions was recorded across the entire life cycle through highly frequent drone-based multispectral sensing to determine biomass changes over time and make early yield predictions. …”
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    Daytime and seasonal reflectance of maize grown in varying compass directions
  9. 829
    “…Thus, NF-YA subunit genes played important roles in promoting maize growth and development and resistance to stress. …”
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    Identification and expression analysis of maize NF-YA subunit genes
  10. 830
    “…BACKGROUND: Maize-infecting viruses are known to inflict significant agronomic yield loss throughout the world annually. …”
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    Metagenomic identification of novel viruses of maize and teosinte in North America
  11. 831
    “…High levels of DON, ZEA and FBs were found in all rejected fractions with values, respectively, up to 3030%, 1510% and 2680%, compared to their content in uncleaned maize. Results showed that grain cleaning equipment based on mechanical and or optical sorting technologies can provide a significant reduction in Fusarium toxin contamination in maize.…”
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    Industrial-Scale Cleaning Solutions for the Reduction of Fusarium Toxins in Maize
  12. 832
    “…Label-free quantitative proteomic (LFQ) and widely targeted metabolomic analyses were applied in the safety evaluation of three genetically modified (GM) maize varieties, BBL, BFL-1, and BFL-2, in addition to their corresponding non-GM parent maize. …”
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    Proteomic and Metabolomic Evaluation of Insect- and Herbicide-Resistant Maize Seeds
  13. 833
    “…The findings of this study will be helpful for elucidating the imprinting mechanism of genes involved in maize kernel development.…”
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    Conservation Study of Imprinted Genes in Maize Triparental Heterozygotic Kernels
  14. 834
    “…A genome-wide association study (GWAS) was performed using 400 inbred maize lines with 156,164 SNPs to study the genetic architecture of senescence-related traits and their relationship with agronomic traits. …”
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    Genome-Wide Association Analysis of Senescence-Related Traits in Maize
  15. 835
    “…Fusarium graminearum is the most important causal agent of head blight in wheat, and stalk and ear rot in maize. A field experiment was conducted to investigate the effect of incorporation of Brassicaceae cover crops on Fusarium graminearum in a wheat-maize rotation. …”
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    Biofumigation for the Management of Fusarium graminearum in a Wheat-Maize Rotation
  16. 836
    “…Much research has been done on the evaluation of maize lodging resistance. But there are few comprehensive reports on the determination of maize lodging resistance in situ without injury under field conditions. …”
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    A simple method for lodging resistance evaluation of maize in the field
  17. 837
    “…Terpenoids are important compounds associated with the pest and herbivore resistance mechanisms of plants; consequently, it is essential to identify and explore terpene synthase (TPS) genes in maize. In the present study, we identified 31 TPS genes based on a pan-genome of 26 high-quality maize genomes containing 20 core genes (present in all 26 lines), seven dispensable genes (present in 2 to 23 lines), three near-core genes (present in 24 to 25 lines), and one private gene (present in only 1 line). …”
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    Multiple variation patterns of terpene synthases in 26 maize genomes
  18. 838
    “…Maize lethal necrosis is a destructive virus disease of maize caused by maize chlorotic mottle virus (MCMV) in combination with a virus in the family Potyviridae. …”
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    Transmission, localization, and infectivity of seedborne maize chlorotic mottle virus
  19. 839
    “…The occurrence of AFs in maize is a burning problem worldwide, mainly attributed to droughts. …”
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    Aflatoxins in Maize from Serbia and Croatia: Implications of Climate Change
  20. 840
    “…Open-source data on the transcription and translation of GH51 isoforms in maize were analyzed to discuss possible functions of individual isoenzymes. …”
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    The In Silico Characterization of Monocotyledonous α-l-Arabinofuranosidases on the Example of Maize
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