The objective of the research was to identify the genes related to drought tolerance in quinoa. For this, 41 varieties of Chenopodium quinoa Willd were evaluated with six repetitions; in the flowering stage, three pots/material, of each variety, were randomly selected to be induced to total drought for two weeks, resuming irrigation after that period, the other three were the control. From day 27 after sowing, the chlorophyll level was measured and classified as tolerant or susceptible to drought, based on its chlorophyll content index (CCI). For the identification of genes, leaf samples of three varieties were taken (Red head, Salcedo INIA and Kankolla 1). RNA Extraction was performed using reagent® TRI reagent and for the transcriptome sequencing the Ilumina platform was used. 26 genes were identified in the three varieties of quinoa, but in the drought tolerant varieties; three of th...

The objective of the research was to identify the genes related to drought tolerance in quinoa. For this, 41 varieties of Chenopodium quinoa Willd were evaluated with six repetitions; in the flowering stage, three pots/material, of each variety, were randomly selected to be induced to total drought for two weeks, resuming irrigation after that period, the other three were the control. From day 27 after sowing, the chlorophyll level was measured and classified as tolerant or susceptible to drought, based on its chlorophyll content index (CCI). For the identification of genes, leaf samples of three varieties were taken (Red head, Salcedo INIA and Kankolla 1). RNA Extraction was performed using reagent® TRI reagent and for the transcriptome sequencing the Ilumina platform was used. 26 genes were identified in the three varieties of quinoa, but in the drought tolerant varieties; three of th...

ZnO nanorods (NRs) films, nitrogen-doped (ZnO:N), and ZnO doped with nitrogen and decorated with silver nanostructures (ZnO:N-Ag) NRs films were vertically supported on undoped and N doped ZnO seed layers by a wet chemical method. The obtained films were characterized structurally by X-ray diffraction. Morphological and elemental analysis was performed by scanning electron microscopy, including an energy dispersive X-ray spectroscopy facility and their optical properties by Ultraviolet-Visible Spectroscopy. Analysis performed in the NRs films showed that the nitrogen content in the seed layer strongly affected their structure and morphology. The mean diameter of ZnO NRs ranged from 70 to 190 nm. As the nitrogen content in the seed layer increased, the mean diameter of ZnO:N NRs increased from132 to 250 nm and the diameter dispersion decreased. This diameter increase occurs simultaneously...