Relevant bibliographies by topics / Transgenic soybean. eng

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  1. Journal articles

Academic literature on the topic 'Transgenic soybean. eng'

Author: Grafiati
Published: 4 June 2021
Last updated: 8 February 2022

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Journal articles on the topic "Transgenic soybean. eng"

1

Jackson, Ryan E., and Henry N. Pitre. "Influence of Roundup Ready Soybean and Roundup Ultra Herbicide on Geocoris punctipes (Say) (Heteroptera: Lygaeidae) in the Laboratory." Journal of Entomological Science 39, no. 1 (2004): 56–61. http://dx.doi.org/10.18474/0749-8004-39.1.56.

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Roundup Ready® crops have become the dominant weed control system throughout the United States. Therefore, laboratory studies were conducted to evaluate the effects of Roundup Ready soybean, Glycine max (L.) Merrill, and glyphosate on the fecundity and mortality of Geocoris punctipes (Say). Mortality of third instars and adults (∼30 d old) and fecundity of females exposed to glyphosate by direct spray application or residual on soybean foliage were not affected over a 10-d posttreatment period. Mortality of nymphs and adults exposed to transgenic soybean foliage did not differ from mortality o
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2

Bortolotto, Orcial C., Adeney F. Bueno, Ynaiara K. Stopa, Gabriela V. Silva, and Ana Paula Queiroz. "Development of Dichelops melacanthus and its egg parasitoid Telenomus podisi reared on Bt-soybean MON 87701 x MON 89788 and its near conventional isoline under different temperatures." Anais da Academia Brasileira de Ciências 88, no. 2 (2016): 1023–34. http://dx.doi.org/10.1590/0001-3765201620150257.

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Dichelops melacanthus was studied under controlled conditions (60 ± 10% RH and 14/10 h L/D photoperiod), and three constant temperatures (19, 25, and 31 ± 2 °C). Fresh pods of MON 87701 × MON 89788 soybeans and its near non-Bt isoline (A5547) were supplied to nymphs and adults. The biology of T. podisi was studied in the same controlled RH conditions, but only at the standard temperature of 25 ± 2 °C. Overall, the development of D. melacanthus was better at higher temperatures, which accelerated the development of the stink bug without affecting adult biological parameters. No influence of Bt-
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3

Gao, Hongyu, Narayanan N. Narayanan, Lori Ellison, and Madan K. Bhattacharyya. "Two Classes of Highly Similar Coiled Coil-Nucleotide Binding-Leucine Rich Repeat Genes Isolated from the Rps1-k Locus Encode Phytophthora Resistance in Soybean." Molecular Plant-Microbe Interactions® 18, no. 10 (2005): 1035–45. http://dx.doi.org/10.1094/mpmi-18-1035.

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A series of single genes protect soybean from the root and stem disease caused by the oomycete pathogen Phytophthora sojae. In the last two decades, Rps1-k has been the most stable and widely used Phytophthora resistance gene for the major soybean-producing regions of the United States. Four highly similar genes encoding coiled coil-nucleotide binding-leucine rich repeat (CC-NB-LRR)-type proteins were isolated from the Rps1-k locus. These genes were grouped into two classes based on their sequence identity. Class I contains three genes with identical open reading frames (ORF) and 5′ end region
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4

Toldi, Maicon, Marliza Beatris Reichert, Priscila De Andrade Rode, Liana Johann, and Noeli Juarez Ferla. "Influence of various preys in soybean and the biological performance of the predatory mite Neoseiulus californicus (Phytoseiidae)." Systematic and Applied Acarology 21, no. 10 (2016): 1662. http://dx.doi.org/10.11158/saa.21.12.7.

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Mites and insects cause damage to soybean crops (Glycine max (L.): Fabaceae). Mononychellus planki McGregor, Tetranychus ludeni Zacher (Acari: Tetranychidae) and Caliothrips phaseoli Hood (Insecta: Thripidae) have been mentioned as pests of soybean crops in Brazil, while Neoseiulus californicus McGregor (Acari: Phytoseiidae) is considered a generalist predatory mite. This work aimed to determine the biological parameters of N. californicus feeding on T. ludeni, M. planki and C. phaseoli on transgenic soybean leaves. Thirty N. californicus eggs were individually placed in arenas with T. ludeni,
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5

Tanzer, M. M., and R. B. Meagher. "Faithful degradation of soybean rbcS mRNA in vitro." Molecular and Cellular Biology 14, no. 4 (1994): 2640–50. http://dx.doi.org/10.1128/mcb.14.4.2640.

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The mRNA encoding the soybean rbcS gene, SRS4, is degraded into a set of discrete lower-molecular-weight products in light-grown soybean seedlings and in transgenic petunia leaves. The 5'-proximal products have intact 5' ends, lack poly(A) tails, lack various amounts of 3'-end sequences, and are found at higher concentrations in the polysomal fraction. To study the mechanisms of SRS4 mRNA decay more closely, we developed a cell-free RNA degradation system based on a polysomal fraction isolated from soybean seedlings or mature petunia leaves. In the soybean in vitro degradation system, endogeno
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6

Tanzer, M. M., and R. B. Meagher. "Faithful degradation of soybean rbcS mRNA in vitro." Molecular and Cellular Biology 14, no. 4 (1994): 2640–50. http://dx.doi.org/10.1128/mcb.14.4.2640-2650.1994.

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The mRNA encoding the soybean rbcS gene, SRS4, is degraded into a set of discrete lower-molecular-weight products in light-grown soybean seedlings and in transgenic petunia leaves. The 5'-proximal products have intact 5' ends, lack poly(A) tails, lack various amounts of 3'-end sequences, and are found at higher concentrations in the polysomal fraction. To study the mechanisms of SRS4 mRNA decay more closely, we developed a cell-free RNA degradation system based on a polysomal fraction isolated from soybean seedlings or mature petunia leaves. In the soybean in vitro degradation system, endogeno
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7

Schmidt, Lance A., Ronald E. Talbert, and Marilyn McClelland. "Management of Acetolactate Synthase (ALS)–Resistant Common Cocklebur (Xanthium strumarium) in Soybean." Weed Technology 18, no. 3 (2004): 665–74. http://dx.doi.org/10.1614/wt-03-129r1.

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A fixed-plot management study for control of acetolactate synthase (ALS)–resistant common cocklebur in soybean was initiated in 1994 at Fayetteville, AR. Three susceptible and three imazaquin-resistant common cocklebur plants were transplanted into the field, and seed (burs) were distributed throughout the plots in the fall of 1994. Herbicide treatments included imazaquin, chlorimuron, and chlorimuron plus metribuzin applied each year from 1995 through 1999 and herbicide rotations containing ALS inhibitors and herbicides with alternative modes of action. Effectiveness of management systems and
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8

Reid, Dugald E., Brett J. Ferguson, and Peter M. Gresshoff. "Inoculation- and Nitrate-Induced CLE Peptides of Soybean Control NARK-Dependent Nodule Formation." Molecular Plant-Microbe Interactions® 24, no. 5 (2011): 606–18. http://dx.doi.org/10.1094/mpmi-09-10-0207.

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Systemic autoregulation of nodulation in legumes involves a root-derived signal (Q) that is perceived by a CLAVATA1-like leucine-rich repeat receptor kinase (e.g. GmNARK). Perception of Q triggers the production of a shoot-derived inhibitor that prevents further nodule development. We have identified three candidate CLE peptide-encoding genes (GmRIC1, GmRIC2, and GmNIC1) in soybean (Glycine max) that respond to Bradyrhizobium japonicum inoculation or nitrate treatment. Ectopic overexpression of all three CLE peptide genes in transgenic roots inhibited nodulation in a GmNARK-dependent manner. T
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9

McNaughton, J., M. Roberts, D. Rice, et al. "Nutritional equivalency evaluation of transgenic maize grain from event DP-Ø9814Ø-6 and transgenic soybeans containing event DP-356Ø43-5: Laying hen performance and egg quality measures." Poultry Science 90, no. 2 (2011): 377–89. http://dx.doi.org/10.3382/ps.2010-00973.

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10

Bonawitz, Nicholas D., W. Michael Ainley, Asuka Itaya, et al. "Zinc finger nuclease‐mediated targeting of multiple transgenes to an endogenous soybean genomic locus via non‐homologous end joining." Plant Biotechnology Journal 17, no. 4 (2018): 750–61. http://dx.doi.org/10.1111/pbi.13012.

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