6 research outputs found
MOESM1 of Loop-mediated isothermal amplification (LAMP) shield for Arduino DNA detection
Additional file 1. Arduino LAMP shield electronics (Schematics and electronics used for the fabrication of the shield). Breakout of the prices (prices of single components). Fabrication of the heating block (Heating block fabrication using PDMS). Temperature test (temperature test of the heating block). Melting curve of the amplified gBlock (melting curve of the amplified product). Arduino LAMP shield source code (source code for the Arduino LAMP shield)
HPLC-UV chromatograms (monitored at 254 nm) of the reaction mixture of 4MC, PA, and NaIO<sub>4</sub> with time.
<p>The ratio of 4MC, PA and NaIO<sub>4</sub> is 1:3:0.5.</p
An overview of the proposed structures of the products.
<p>The number under each structure corresponds to the number in <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0166490#pone.0166490.s007" target="_blank">S1 Table</a>.</p
Reaction Pathways in Catechol/Primary Amine Mixtures: A Window on Crosslinking Chemistry - Fig 8
<p>a) LC-MS chromatograms (monitored at 254 nm) of the reaction mixture of 4MC, PA, and NaIO4 over time. The ratio of 4MC, PA and NaIO4 is 1:3:0.5. b) Extracted ion chromatogram (positive ion mode) corresponding to PMB (m/z = 179.5–180.5) c) ESI-MS spectra [m/z 50–2000] summed over the 10.00–10.53 min retention time window; d) Extracted UV spectra corresponding to the 10.00–10.53 min retention time e) Proposed representative chemical structure of product.</p
Reaction Pathways in Catechol/Primary Amine Mixtures: A Window on Crosslinking Chemistry - Fig 4
<p>a) <sup>1</sup>H NMR spectra monitoring the reaction of 4MC and NaIO<sub>4</sub> in 10 mM Na<sub>2</sub>CO<sub>3</sub>/D<sub>2</sub>O with time. The molar ratio between 4MC and NaIO<sub>4</sub> is 0.5. Dioxane was used as a reference. b) Relative integrated peak area of b<sub>1</sub>, b<sub>2</sub>, and b<sub>3</sub> with respect to the total aromatic protons.</p
Chemical structure of 4-methyl-<i>o</i>-benzoquinone with numbers indicating the position of C atoms on the aromatic ring.
<p>Chemical structure of 4-methyl-<i>o</i>-benzoquinone with numbers indicating the position of C atoms on the aromatic ring.</p