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Mostrando 301 - 320 Resultados de 10,967 Para Buscar '"maíz"', tiempo de consulta: 0.22s Limitar resultados
  1. 301
    “…With this method, it is possible to prevent infections in maize by detecting infected seeds or maize and discarding them. …”
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    Simple Detection of Cochliobolus Fungal Pathogens in Maize
  2. 302
    “…Cereal endosperm is also a major source of human calories and an industrial feedstock. Maize opaque endosperm mutants commonly exhibit opaque, floury kernels, along with other abnormal seed and/or non-seed phenotypes. …”
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    Maize opaque mutants are no longer so opaque
  3. 303
    “…We discuss two recent studies that suggest that yield plasticity in maize has been under selection but is controlled by different genes than yield.…”
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    Harnessing Phenotypic Plasticity to Improve Maize Yields
  4. 304
    por Bray, Adam L, Topp, Christopher N
    Publicado 2018
    “…In this review, we discuss whether the maize mutants known to control root development may also influence quantitative aspects of root architecture, including the extent to which they overlap with the most recent maize root trait QTLs. …”
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    The Quantitative Genetic Control of Root Architecture in Maize
  5. 305
    “…The laccase induced gelation of maize bran arabinoxylans at 2.5% (w/v) in the presence of insulin or β-lactoglobulin at 0.1% (w/v) was investigated. …”
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    Maize Arabinoxylan Gels as Protein Delivery Matrices
  6. 306
    por Rivera, Sol, Canela, Ramon
    Publicado 2012
    “…We performed a number of tests with the aim to develop an effective extraction method for the analysis of carotenoid content in maize seed. Mixtures of methanol–ethyl acetate (6:4, v/v) and methanol–tetrahydrofuran (1:1, v/v) were the most effective solvent systems for carotenoid extraction from maize endosperm under the conditions assayed. …”
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    Influence of Sample Processing on the Analysis of Carotenoids in Maize
  7. 307
    por Poloni, Alana, Schirawski, Jan
    Publicado 2014
    “…Cereal crop plants such as maize and sorghum are constantly being attacked by a great variety of pathogens that cause large economic losses. …”
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    Red Card for Pathogens: Phytoalexins in Sorghum and Maize
  8. 308
    “…The morphological development of the leaf greatly influences plant architecture and crop yields. The maize leaf is composed of a leaf blade, ligule and sheath. …”
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    Transcriptomic Analysis of Leaf Sheath Maturation in Maize
  9. 309
    “…The complete genome sequence of maize mosaic virus (MMV) was obtained using next-generation sequencing from infected Peregrinus maidis and rapid amplification of cDNA ends from infected Zea mays. …”
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    Complete Genome Sequence of Maize Mosaic Nucleorhabdovirus
  10. 310
    “…Depending on soil regimes, average maize yield response estimates range from insignificant (0) to 7 maize kg per fertilizer kg. …”
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    Understanding fertilizer adoption and effectiveness on maize in Zambia
  11. 311
    “…The energy-rich solutions of metal nanoparticles were used for treatment Maize seeds prior to sowing. The treatment significantly improved the germination rate and early growth. …”
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    Metal nanoparticles as effective promotors for Maize production
  12. 312
    “…Our results indicate that miRNAs regulate internode elongation in maize by targeting genes related to cell expansion, cell wall synthesis, transcription, and regulatory factors.…”
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    System Analysis of MIRNAs in Maize Internode Elongation
  13. 313
    “…Enzyme kinetic parameters indicated that, depending on the activity of FumD utilised, a significantly (p < 0.05) higher FB(1) conversion rate was noticed in “high” FB contaminated maize. The FumD FB reduction method in maize could find application in commercial maize-based practices as well as in communities utilising home-grown maize as a main dietary staple and known to be exposed above the tolerable daily intake levels.…”
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    Detoxification of the Fumonisin Mycotoxins in Maize: An Enzymatic Approach
  14. 314
    “…However, the detailed functions of the maize TCA cycle genes remain unclear. RESULTS: In this study, 91 TCA genes were identified in maize by a homology search, and they were distributed on 10 chromosomes and 1 contig. …”
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    Identification and characterization of the TCA cycle genes in maize
  15. 315
    “…This is the most commonly used biological control mechanism of aflatoxin contamination in maize in countries where aflatoxins pose a significant threat. …”
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    Biological Control of Aflatoxin in Maize Grown in Serbia
  16. 316
    “…Root architectural phenes were phenotyped in the field using a large maize association panel with and without water deficit stress for three seasons in Arizona and without water deficit stress for four seasons in South Africa. …”
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    Genetic control of root architectural plasticity in maize
  17. 317
    “…RESULT: Here, we investigate the non-coding regulatory space in the maize (Zea mays) genome during early reproductive development of pollen- and grain-bearing inflorescences. …”
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    The regulatory landscape of early maize inflorescence development
  18. 318
    “…Here, we present the metagenomes of maize soil rhizosphere organisms with functional diversity associated with farms at two different municipalities in North West and Gauteng provinces of South Africa. …”
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    Shotgun Metagenomic Survey of Maize Soil Rhizobiome
  19. 319
    “…Limiting crop loss from lodging requires an understanding of the plant traits that contribute to lodging‐resistance. In maize, specialized aerial brace roots are reported to reduce root lodging. …”
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    Maize brace roots provide stalk anchorage
  20. 320
    “…At global scale, ΔY is 34 ± 9% for wheat and 22 ± 13% for maize, with large spatial differences driven more by patterns of precipitation than that of evaporative demand. …”
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    Global irrigation contribution to wheat and maize yield
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