Glyphosate resistance in perennial Sorghum halepense (Johnsongrass), endowed by reduced glyphosate translocation and leaf uptake

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Background: In a large cropping area of northern Argentina, Sorghum halepense (Johnsongrass) has evolved towards glyphosate resistance. This study aimed to determine the molecular and biochemical basis conferring glyphosate resistance in this species. Experiments were conducted to assess target EPSP...

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Autores principales: Distéfano, Ana Julia, Hopp, Horacio Esteban
Publicado: 2012
Materias:
Glyphosate leaf uptake
Glyphosate translocation
Non-target-site resistance mechanism
Perennial Johnsongrass weed
drug derivative
glycine
glyphosate
herbicide
vegetable protein
assessment method
biochemical composition
biological uptake
carbon isotope
molecular analysis
pesticide resistance
sorghum
translocation
article
drug effect
genetics
herbicide resistance
metabolism
plant leaf
transport at the cellular level
Biological Transport
Glycine
Herbicide Resistance
Herbicides
Plant Leaves
Plant Proteins
Sorghum
Argentina
Sorghum halepense
Sorghum x almum
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_1526498X_v68_n3_p430_VilaAiub
http://hdl.handle.net/20.500.12110/paper_1526498X_v68_n3_p430_VilaAiub
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id paper:paper_1526498X_v68_n3_p430_VilaAiub
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spelling paper:paper_1526498X_v68_n3_p430_VilaAiub2023-06-08T16:19:37Z Glyphosate resistance in perennial Sorghum halepense (Johnsongrass), endowed by reduced glyphosate translocation and leaf uptake Distéfano, Ana Julia Hopp, Horacio Esteban Glyphosate leaf uptake Glyphosate translocation Non-target-site resistance mechanism Perennial Johnsongrass weed drug derivative glycine glyphosate herbicide vegetable protein assessment method biochemical composition biological uptake carbon isotope glyphosate molecular analysis pesticide resistance sorghum translocation article drug effect genetics herbicide resistance metabolism plant leaf sorghum transport at the cellular level Biological Transport Glycine Herbicide Resistance Herbicides Plant Leaves Plant Proteins Sorghum Argentina Sorghum halepense Sorghum x almum Background: In a large cropping area of northern Argentina, Sorghum halepense (Johnsongrass) has evolved towards glyphosate resistance. This study aimed to determine the molecular and biochemical basis conferring glyphosate resistance in this species. Experiments were conducted to assess target EPSPS gene sequences and 14C-glyphosate leaf absorption and translocation to meristematic tissues. Results: Individuals of all resistant (R) accessions exhibited significantly less glyphosate translocation to root (11% versus 29%) and stem (9% versus 26%) meristems when compared with susceptible (S) plants. A notably higher proportion of the applied glyphosate remained in the treated leaves of R plants (63%) than in the treated leaves of S plants (27%). In addition, individuals of S. halepense accession R 2 consistently showed lower glyphosate absorption rates in both adaxial (10-20%) and abaxial (20-25%) leaf surfaces compared with S plants. No glyphosate resistance endowing mutations in the EPSPS gene at Pro-101-106 residues were found in any of the evaluated R accessions. Conclusion: The results of the present investigation indicate that reduced glyphosate translocation to meristems is the primary mechanism endowing glyphosate resistance in S. halepense from cropping fields in Argentina. To a lesser extent, reduced glyphosate leaf uptake has also been shown to be involved in glyphosate-resistant S. halepense. © 2011 Society of Chemical Industry. Fil:Distéfano, A.J. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Hopp, E. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. 2012 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_1526498X_v68_n3_p430_VilaAiub http://hdl.handle.net/20.500.12110/paper_1526498X_v68_n3_p430_VilaAiub
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Glyphosate leaf uptake
Glyphosate translocation
Non-target-site resistance mechanism
Perennial Johnsongrass weed
drug derivative
glycine
glyphosate
herbicide
vegetable protein
assessment method
biochemical composition
biological uptake
carbon isotope
glyphosate
molecular analysis
pesticide resistance
sorghum
translocation
article
drug effect
genetics
herbicide resistance
metabolism
plant leaf
sorghum
transport at the cellular level
Biological Transport
Glycine
Herbicide Resistance
Herbicides
Plant Leaves
Plant Proteins
Sorghum
Argentina
Sorghum halepense
Sorghum x almum
spellingShingle Glyphosate leaf uptake
Glyphosate translocation
Non-target-site resistance mechanism
Perennial Johnsongrass weed
drug derivative
glycine
glyphosate
herbicide
vegetable protein
assessment method
biochemical composition
biological uptake
carbon isotope
glyphosate
molecular analysis
pesticide resistance
sorghum
translocation
article
drug effect
genetics
herbicide resistance
metabolism
plant leaf
sorghum
transport at the cellular level
Biological Transport
Glycine
Herbicide Resistance
Herbicides
Plant Leaves
Plant Proteins
Sorghum
Argentina
Sorghum halepense
Sorghum x almum
Distéfano, Ana Julia
Hopp, Horacio Esteban
Glyphosate resistance in perennial Sorghum halepense (Johnsongrass), endowed by reduced glyphosate translocation and leaf uptake
topic_facet Glyphosate leaf uptake
Glyphosate translocation
Non-target-site resistance mechanism
Perennial Johnsongrass weed
drug derivative
glycine
glyphosate
herbicide
vegetable protein
assessment method
biochemical composition
biological uptake
carbon isotope
glyphosate
molecular analysis
pesticide resistance
sorghum
translocation
article
drug effect
genetics
herbicide resistance
metabolism
plant leaf
sorghum
transport at the cellular level
Biological Transport
Glycine
Herbicide Resistance
Herbicides
Plant Leaves
Plant Proteins
Sorghum
Argentina
Sorghum halepense
Sorghum x almum
description Background: In a large cropping area of northern Argentina, Sorghum halepense (Johnsongrass) has evolved towards glyphosate resistance. This study aimed to determine the molecular and biochemical basis conferring glyphosate resistance in this species. Experiments were conducted to assess target EPSPS gene sequences and 14C-glyphosate leaf absorption and translocation to meristematic tissues. Results: Individuals of all resistant (R) accessions exhibited significantly less glyphosate translocation to root (11% versus 29%) and stem (9% versus 26%) meristems when compared with susceptible (S) plants. A notably higher proportion of the applied glyphosate remained in the treated leaves of R plants (63%) than in the treated leaves of S plants (27%). In addition, individuals of S. halepense accession R 2 consistently showed lower glyphosate absorption rates in both adaxial (10-20%) and abaxial (20-25%) leaf surfaces compared with S plants. No glyphosate resistance endowing mutations in the EPSPS gene at Pro-101-106 residues were found in any of the evaluated R accessions. Conclusion: The results of the present investigation indicate that reduced glyphosate translocation to meristems is the primary mechanism endowing glyphosate resistance in S. halepense from cropping fields in Argentina. To a lesser extent, reduced glyphosate leaf uptake has also been shown to be involved in glyphosate-resistant S. halepense. © 2011 Society of Chemical Industry.
author Distéfano, Ana Julia
Hopp, Horacio Esteban
author_facet Distéfano, Ana Julia
Hopp, Horacio Esteban
author_sort Distéfano, Ana Julia
title Glyphosate resistance in perennial Sorghum halepense (Johnsongrass), endowed by reduced glyphosate translocation and leaf uptake
title_short Glyphosate resistance in perennial Sorghum halepense (Johnsongrass), endowed by reduced glyphosate translocation and leaf uptake
title_full Glyphosate resistance in perennial Sorghum halepense (Johnsongrass), endowed by reduced glyphosate translocation and leaf uptake
title_fullStr Glyphosate resistance in perennial Sorghum halepense (Johnsongrass), endowed by reduced glyphosate translocation and leaf uptake
title_full_unstemmed Glyphosate resistance in perennial Sorghum halepense (Johnsongrass), endowed by reduced glyphosate translocation and leaf uptake
title_sort glyphosate resistance in perennial sorghum halepense (johnsongrass), endowed by reduced glyphosate translocation and leaf uptake
publishDate 2012
url https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_1526498X_v68_n3_p430_VilaAiub
http://hdl.handle.net/20.500.12110/paper_1526498X_v68_n3_p430_VilaAiub
work_keys_str_mv AT distefanoanajulia glyphosateresistanceinperennialsorghumhalepensejohnsongrassendowedbyreducedglyphosatetranslocationandleafuptake
AT hopphoracioesteban glyphosateresistanceinperennialsorghumhalepensejohnsongrassendowedbyreducedglyphosatetranslocationandleafuptake
_version_ 1768543388833939456

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