Molecular basis of natural tolerance to glyphosate in Convolvulus arvensis

[1]  C. Preston,et al.  Target-site mutations conferring resistance to glyphosate in feathertop Rhodes grass (Chloris virgata) populations in Australia. , 2018, Pest management science.

[2]  S. Chivasa,et al.  Comparative proteomic analysis of horseweed (Conyza canadensis) biotypes identifies candidate proteins for glyphosate resistance , 2017, Scientific Reports.

[3]  F. Barro,et al.  Target and Non-target Site Mechanisms Developed by Glyphosate-Resistant Hairy beggarticks (Bidens pilosa L.) Populations from Mexico , 2016, Front. Plant Sci..

[4]  H. Xie,et al.  Multiple mechanism confers natural tolerance of three lilyturf species to glyphosate , 2015, Planta.

[5]  J. S. McElroy,et al.  A Pro106 to Ala Substitution is Associated with Resistance to Glyphosate in Annual Bluegrass (Poa annua) , 2015, Weed Science.

[6]  Jingchao Chen,et al.  Mutations and amplification of EPSPS gene confer resistance to glyphosate in goosegrass (Eleusine indica) , 2015, Planta.

[7]  Jingchao Chen,et al.  Characterization of glyphosate-resistant goosegrass (Eleusine indica) populations in China , 2015 .

[8]  Jingchao Chen,et al.  Isolation and Functional Analysis of Convolvulus arvensis EPSPS Promoter , 2015, Plant Molecular Biology Reporter.

[9]  S. Powles,et al.  Evolution of a Double Amino Acid Substitution in the 5-Enolpyruvylshikimate-3-Phosphate Synthase in Eleusine indica Conferring High-Level Glyphosate Resistance1 , 2015, Plant Physiology.

[10]  J. Ray,et al.  EPSPS amplification in glyphosate-resistant spiny amaranth (Amaranthus spinosus): a case of gene transfer via interspecific hybridization from glyphosate-resistant Palmer amaranth (Amaranthus palmeri). , 2014, Pest management science.

[11]  R. Beffa,et al.  Characterization of glyphosate resistance in Amaranthus tuberculatus populations. , 2014, Journal of agricultural and food chemistry.

[12]  R. Sammons,et al.  Glyphosate resistance: state of knowledge , 2014, Pest management science.

[13]  Long Yang,et al.  Molecular cloning and characterization of 5-enolpyruvylshikimate-3-phosphate synthase gene from Convolvulus arvensis L. , 2014, Molecular Biology Reports.

[14]  P. Tranel,et al.  Multiple Resistance to Herbicides from Four Site-of-Action Groups in Waterhemp (Amaranthus tuberculatus) , 2013, Weed Science.

[15]  K. N. Reddy,et al.  Glyphosate Resistance in Tall Waterhemp (Amaranthus tuberculatus) from Mississippi is due to both Altered Target-Site and Nontarget-Site Mechanisms , 2013, Weed Science.

[16]  A. Fischer,et al.  Resistance to Glyphosate in Junglerice (Echinochloa colona) from California , 2013, Weed Science.

[17]  D. Shaw,et al.  Involvement of facultative apomixis in inheritance of EPSPS gene amplification in glyphosate-resistant Amaranthus palmeri , 2013, Planta.

[18]  P. Westra,et al.  Inheritance of Evolved Glyphosate Resistance in a North Carolina Palmer Amaranth (Amaranthus palmeri) Biotype , 2012 .

[19]  J. W. Dickson,et al.  EPSPS gene amplification in glyphosate-resistant Italian ryegrass (Lolium perenne ssp. multiflorum) from Arkansas. , 2012, Pest management science.

[20]  M. Gruber,et al.  Cloning and function analysis of an alfalfa (Medicago sativa L.) zinc finger protein promoter MsZPP , 2012, Molecular Biology Reports.

[21]  D. Tsikou,et al.  Shikimate leaf disc assay for early detection of glyphosate resistance in Conyza canadensis and relative transcript levels of EPSPS and ABC transporter genes , 2012 .

[22]  S. Powles,et al.  Glyphosate resistance in perennial Sorghum halepense (Johnsongrass), endowed by reduced glyphosate translocation and leaf uptake. , 2012, Pest management science.

[23]  J. Ackerman,et al.  Vacuolar glyphosate-sequestration correlates with glyphosate resistance in ryegrass (Lolium spp.) from Australia, South America, and Europe: a 31P NMR investigation. , 2012, Journal of agricultural and food chemistry.

[24]  F. Barro,et al.  Pool of resistance mechanisms to glyphosate in Digitaria insularis. , 2012, Journal of agricultural and food chemistry.

[25]  J. Ackerman,et al.  Glyphosate-resistant horseweed made sensitive to glyphosate: low-temperature suppression of glyphosate vacuolar sequestration revealed by 31P NMR. , 2011, Pest management science.

[26]  P. Tranel,et al.  Herbicide resistances in Amaranthus tuberculatus: a call for new options. , 2011, Journal of agricultural and food chemistry.

[27]  R. Dale,et al.  A novel P106L mutation in EPSPS and an unknown mechanism(s) act additively to confer resistance to glyphosate in a South African Lolium rigidum population. , 2011, Journal of agricultural and food chemistry.

[28]  D. Shaner,et al.  Mechanism of resistance of evolved glyphosate-resistant Palmer amaranth (Amaranthus palmeri). , 2011, Journal of agricultural and food chemistry.

[29]  Christopher Preston,et al.  Gene amplification confers glyphosate resistance in Amaranthus palmeri , 2009, Proceedings of the National Academy of Sciences.

[30]  S. Powles,et al.  Distinct non-target site mechanisms endow resistance to glyphosate, ACCase and ALS-inhibiting herbicides in multiple herbicide-resistant Lolium rigidum , 2009, Planta.

[31]  W. G. Johnson,et al.  Characterization of Selected Common Lambsquarters (Chenopodium album) Biotypes with Tolerance to Glyphosate , 2008, Weed Science.

[32]  G. Dinelli,et al.  Physiological and molecular bases of glyphosate resistance in Conyza bonariensis biotypes from Spain , 2008 .

[33]  S. Duke,et al.  Glyphosate: a once-in-a-century herbicide. , 2008, Pest management science.

[34]  Christopher Preston,et al.  Resistance to glyphosate from altered herbicide translocation patterns. , 2008, Pest management science.

[35]  C. Mallory-Smith,et al.  Investigating the mechanisms of glyphosate resistance in Lolium multiflorum , 2007, Planta.

[36]  C. Preston,et al.  A target‐site mutation is present in a glyphosate‐resistant Lolium rigidum population , 2006 .

[37]  G. Dinelli,et al.  Physiological and molecular insight on the mechanisms of resistance to glyphosate in Conyza canadensis (L.) Cronq. biotypes , 2006 .

[38]  A. Culpepper Glyphosate-Induced Weed Shifts1 , 2006, Weed Technology.

[39]  C. Preston,et al.  Evolved Glyphosate Resistance in Plants: Biochemical and Genetic Basis of Resistance1 , 2006, Weed Technology.

[40]  K. N. Reddy,et al.  GLYPHOSATE-RESISTANT WEEDS: CURRENT STATUS AND FUTURE OUTLOOK , 2005 .

[41]  M. Owen,et al.  Herbicide-resistant crops and weed resistance to herbicides. , 2005, Pest management science.

[42]  Yih-ming Chen,et al.  Triple mechanisms of glyphosate-resistance in a naturally occurring glyphosate-resistant plant Dicliptera chinensis , 2002 .

[43]  S. Baerson,et al.  Glyphosate-Resistant Goosegrass. Identification of a Mutation in the Target Enzyme 5-Enolpyruvylshikimate-3-Phosphate Synthase , 2002, Plant Physiology.

[44]  S. Clough,et al.  Floral dip: a simplified method for Agrobacterium-mediated transformation of Arabidopsis thaliana. , 1998, The Plant journal : for cell and molecular biology.

[45]  J. Cherry,et al.  Arabidopsis thaliana: a model plant for genome analysis. , 1998, Science.

[46]  Christopher Preston,et al.  Evolved resistance to glyphosate in rigid ryegrass (Lolium rigidum) in Australia , 1998, Weed Science.

[47]  Dale L. Shaner,et al.  Rapid Determination of Glyphosate Injury to Plants and Identification of Glyphosate-Resistant Plants , 1998, Weed Technology.

[48]  J. Westwood,et al.  Absorption and translocation of glyphosate in tolerant and susceptible biotypes of field bindweed (Convolvulus arvensis) , 1997, Weed Science.

[49]  S. Padgette,et al.  Perspectives on Glyphosate Resistance , 1997, Weed Technology.

[50]  J. Westwood,et al.  Cellular mechanisms influence differential glyphosate sensitivity in field bindweed (Convolvulus arvensis) biotypes , 1997, Weed Science.

[51]  I. Heap International survey of herbicide-resistant weeds , 1997 .

[52]  N. Jacobstein The State of Knowledge , 1997 .

[53]  D. Wyse,et al.  Mechanism of Glyphosate Tolerance in Birdsfoot Trefoil (Lotus corniculatus) , 1990, Weed Science.

[54]  S. Weller,et al.  Differential Susceptibility of Field Bindweed (Convolvulus arvensis) Biotypes to Glyphosate , 1984, Weed Science.

[55]  N. Amrhein,et al.  The herbicide glyphosate is a potent inhibitor of 5-enolpyruvyl-shikimic acid-3-phosphate synthase. , 1980, Biochemical and biophysical research communications.