OpenAlex:
sRNA_seq_clean_thrips_leafdiscs_timeseries
OpenAlex:
sRNA_seq_clean_thrips_leafdiscs_timeseries
OpenAlex:
Color phenotyping and genome-wide association studies of ...
OpenAlex:
FUNCTIONAL STUDIES ON SIEVE ELEMENT-SPECIFIC PROTEINS
OpenAlex:
Understanding the control of perpetual flowering and cont...
OpenAlex:
Nuclear dynamics in Sclerotinia sclerotiorum
OpenAlex:
Identification and characterization of an NHP-biosyntheti...
OpenAlex:
Phenotypic Evaluation of Sunflower (Helianthus Annuus L.)...
OpenAlex:
sRNA_seq_clean_thrips_leafdiscs_timeseries
OpenAlex:
sRNA_seq_clean_thrips_leafdiscs_timeseries
OpenAlex:
Color phenotyping and genome-wide association studies of ...
OpenAlex:
FUNCTIONAL STUDIES ON SIEVE ELEMENT-SPECIFIC PROTEINS
Dual-Functional Rhizobium dioscoreae Q9a for Glyphosate Biodegradation and Plant Growth Promotion: Insights into the Degradation Kinetics, Catabolic Pathways, Beneficial Properties, and Underlying Enzymatic Mechanisms.
PubMed · 2026-06-01
Scientists discovered a soil bacterium that breaks down glyphosate (the active ingredient in Roundup) while also helping plants grow — offering a potential two-in-one solution for cleaning up herbicide-contaminated farm soils and boosting crop health.
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Strain Q9a degraded 50 mg/L of glyphosate within 9 days in liquid culture
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The bacterium produced 45 μg/mL of the plant growth hormone indole-3-acetic acid and solubilized up to 150 mg/L of insoluble phosphate
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Molecular analysis identified Serine-38 (Ser38) as the critical active site on enzyme GoxD responsible for breaking down glyphosate