Exact(4)
The films were grown at room temperatures from the following precursor gases: silane (SiH4), nitrogen (N2), and acetylene (C2H2).
Under a low deposition temperature, the precursor will stick to the substrate surface when the following precursor reacts to it.
The following precursor and inhibitor miRNAs were used: pre-miR-17, pre-miR negative control, anti-miR-17 and anti-miR negative control (Ambion, Austin, TX, USA).
The following precursor molecules were used: D-Glc, D-Man, L-Gal, L-GaL, L-GuL, D-GlcUL and MI, as well as AsA and DHA, all at a concentration of 15 mM (Sigma-Aldrich).
Similar(56)
20110104 (523,151 sequences; 184,678,199 residues) database as follows: precursor tolerance 8 ppm; MS/MS tolerance 0.6 Da (Iontrap), 0.020 Da (FT); No enzyme; FT-ICR ESI instrument type; variable modifications: deamidation (N,Q); oxidation (M).
At the transition level, the criteria were as follows: precursor charge: 2 and 3; fragment charge: 1; ion types: y and b; product ions ranging from (m/z > precursor -1 to last ion; fragments within a 5Th window around the precursor -1z excluded.
Search parameters were in brief as follows: precursor tolerance: 10 ppm; fragment tolerance: 80 mmu; and dynamic modifications: oxidation (M), deamidation (NQ), methylthio (C), and missed cleavages: 1. Identification results were limited to peptide assignments of ≥99%% confidence as assigned by Mascot.
Selective reaction monitoring was utilized to follow precursor to product ion m/z transitions of 724➜144 for vancomycin, 450➜322 for gentamicin C1a, 464➜322 for gentamicin C2 + C2a, 478➜322 for gentamicin C1, 468➜163 for tobramycin (internal standard for gentamicin), and 646➜290 for cefoperazone (internal standard for vancomycin).
Following validation, precursor and product ion lists were refined to include only the optimal precursor and transitions necessary to accurately identify each G protein isoform.
The specific steps are as follows: The precursor solutions were 0.02 M Pb (NO3 2 methanol solution and 0.02 M Na2S solution of methanol and deionized water (V:V = 1 1).
The synthesis of tungsten trioxide (WO3) nanorods from tetrabutylammonium decatungstate ((C4H9 4N 4W10O32) is carried out as follows: The precursor compound (1 g) was taken in an alumina or quartz boat and loaded inside a tubular furnace and heated at 450 °C at a heating rate of 25 °C per min under Ar atmosphere for 3 h.
Write better and faster with AI suggestions while staying true to your unique style.
Since I tried Ludwig back in 2017, I have been constantly using it in both editing and translation. Ever since, I suggest it to my translators at ProSciEditing.

Justyna Jupowicz-Kozak
CEO of Professional Science Editing for Scientists @ prosciediting.com