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laccase/glycine max
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Evolutionary divergence of function and expression of laccase genes in plants.
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Laccases (LACs) are versatile enzymes that catalyze oxidation of a wide range of substrates, thereby functioning in regulation of plant developmental processes and stress responses. However, with a few exceptions, the function of most LACs remains unclear in plants. In this study, we newly
Multigeneic QTL: the laccase encoded within the soybean Rfs2/rhg1 locus inferred to underlie part of the dual resistance to cyst nematode and sudden death syndrome.
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Multigeneic QTL present significant problems to analysis. Resistance to soybean (Glycine max (L) Merr.) sudden death syndrome (SDS) caused by Fusarium virguliforme was partly underlain by QRfs2 that was clustered with, or pleiotropic to, the multigeneic rhg1 locus providing resistance to soybean
Genomic analysis of the rhg1 locus: candidate genes that underlie soybean resistance to the cyst nematode.
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The rhg1 gene or genes lie at a recessive or co-dominant locus, necessary for resistance to all Hg types of the soybean (Glycine max (L.) Merr.) cyst nematode (Heterodera glycines I.). The aim here was to identify nucleotide changes within a candidate gene found at the rhg1 locus that were capable
Small RNA profiles in soybean primary root tips under water deficit.
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BACKGROUND
Soybean (Glycine max) production is significantly hampered by frequent droughts in many regions of the world including the United States. Identifying microRNA (miRNA)-controlled posttranscriptional gene regulation under drought will enhance our understanding of molecular basis of drought
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