(PDF) Figure 4: Dopamine Concentration in Whole-Body

Figure 4: Dopamine Concentration in Whole-Body Homogenates of Ae. Aegypti Larvae After Treatment With M. Robertsii, Avermectins and Their Combination.

doi 10.7717/peerj.7931/fig-4

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Figure 6: Acid Protease Activity in Whole-Body Homogenates of Ae. Aegypti Larvae After Treatment With M. Robertsii, Avermectins and Their Combination.

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Figure 3: Activity of PO in the Whole-Body Homogenates of Ae. Aegypti Larvae After Treatment With M. Robertsii, Avermectins and Their Combination.

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Figure 5: GST (A) and EST (B) Activity in Whole-Body Homogenates of Ae. Aegypti Larvae After Treatment With M. Robertsii, Avermectins and Their Combination.

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Figure 8: Colony Forming Units of M. Robertsii (A) and Cultivable Bacteria (B) in Whole-Body Homogenates of Ae. Aegypti Larvae After Treatment With M. Robertsii, Avermectins and Their Combination.

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Figure 1: Mortality Dynamics of Ae. Aegypti Larvae After Treatment With M. Robertsii (1 × 106 Conidia/Ml), Avermectins (0.00001%) and Their Combination.

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Table S1: Expected and Observed Mortality of Ae. Aegypti Larvae Post-Combined Treatment With M. Robertsii and Avermectins

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Figure 2: The Colonization of Ae. Aegypti by M. Robertsii.

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A Comparison of Combination Dopamine and Epinephrine Treatment With High-Dose Dopamine Alone in Asphyxiated Newborn Piglets After Resuscitation

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Hydrophobic Nanoprecipitates of Cyclodextrin/Avermectins Inclusion Compounds Reveal Insecticide Activity Against Aedes Aegypti Larvae and Low Toxicity Against Fibroblasts

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Amanote Research

Figure 4: Dopamine Concentration in Whole-Body Homogenates of Ae. Aegypti Larvae After Treatment With M. Robertsii, Avermectins and Their Combination.

doi 10.7717/peerj.7931/fig-4

Full Text

Abstract

Date

Authors

Publisher

Related search

Figure 6: Acid Protease Activity in Whole-Body Homogenates of Ae. Aegypti Larvae After Treatment With M. Robertsii, Avermectins and Their Combination.

Figure 3: Activity of PO in the Whole-Body Homogenates of Ae. Aegypti Larvae After Treatment With M. Robertsii, Avermectins and Their Combination.

Figure 5: GST (A) and EST (B) Activity in Whole-Body Homogenates of Ae. Aegypti Larvae After Treatment With M. Robertsii, Avermectins and Their Combination.

Figure 8: Colony Forming Units of M. Robertsii (A) and Cultivable Bacteria (B) in Whole-Body Homogenates of Ae. Aegypti Larvae After Treatment With M. Robertsii, Avermectins and Their Combination.

Figure 1: Mortality Dynamics of Ae. Aegypti Larvae After Treatment With M. Robertsii (1 × 106 Conidia/Ml), Avermectins (0.00001%) and Their Combination.

Table S1: Expected and Observed Mortality of Ae. Aegypti Larvae Post-Combined Treatment With M. Robertsii and Avermectins

Figure 2: The Colonization of Ae. Aegypti by M. Robertsii.

A Comparison of Combination Dopamine and Epinephrine Treatment With High-Dose Dopamine Alone in Asphyxiated Newborn Piglets After Resuscitation

Hydrophobic Nanoprecipitates of Cyclodextrin/Avermectins Inclusion Compounds Reveal Insecticide Activity Against Aedes Aegypti Larvae and Low Toxicity Against Fibroblasts