13c methanol

Manufactured by Cambridge Isotopes

Sourced in United States

13C methanol is a stable isotope-labeled organic compound with the chemical formula CH3OH. It contains a carbon-13 isotope, which is a naturally occurring heavy isotope of carbon. This compound is used as a research tool in various scientific applications that require the use of a labeled organic compound.

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Lab products found in correlation

Ligases, by New England Biolabs (1 mentions) Onetaq quick load 2x master mix, by New England Biolabs (1 mentions) Gibson assembly master mix kit, by New England Biolabs (1 mentions) Phusion dna polymerase, by New England Biolabs (1 mentions) Methanol, by Cambridge Isotopes (1 mentions) 13c6 glucose, by Cambridge Isotopes (1 mentions) Ni2 nta nitrilotriacetic acid agarose resin, by Qiagen (1 mentions)

5 protocols using 13c methanol

Isotope Labeling and Metabolite Analysis

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¹³C methanol of 99 % purity was purchased from Cambridge Isotope Laboratories (Tewksbury, MA). All other chemicals including metabolite standards were purchased from Sigma-Aldrich (St. Louis, MO). Phusion DNA polymerase, dNTP, buffer, ligases, OneTaq Quick-Load 2X Master Mix and the Gibson Assembly Master Mix kits used in this study were from New England Biolabs (Ipswich, MA). Primers, the sequences of which are shown in Table 1, were obtained from Invitrogen (Grand Island, NY) and IDT (Coralville, IA). Acetonitrile and water used as UPLC solvents were UPLC-MS grade. Hypho minimal medium as previously described [24 (link)] was used for ¹³C flux analysis cell culture and growth rate determination, involving two different concentrations of cobalt (1.35 and 6.31 μM respectively).

Fu Y., Beck D.A, & Lidstrom M.E. (2016). Difference in C3–C4 metabolism underlies tradeoff between growth rate and biomass yield in Methylobacterium extorquens AM1. BMC Microbiology, 16, 156.

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Minimal M9 Medium Preparation

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¹³C methanol (99%) was purchased from Cambridge Isotope Laboratories. All other chemicals were obtained from Sigma-Aldrich unless otherwise stated. Minimal M9 medium for bacterial cultivation consisted of salts (g L⁻¹): Na₂HPO₄ (6.780), KH₂PO₄ (3.000), NaCl (0.500), NH₄Cl (1.000), MgSO₄·7H₂O (0.490), CaCl₂·2H₂O (0.015) and trace elements (mg L⁻¹): FeSO₄·7H₂O (0.516), ZnSO₄·7H₂O (0.090), CuSO₄·5H₂O (0.089), CoCl₂·6H₂O (0.091), MnSO₄·H₂O (0.061). Antibiotics, if required for plasmid propagation or cloning, were added in the following concentrations (mg L⁻¹): ampicillin (100), kanamycin sulfate (50), streptomycin sulfate (20). Oligonucleotides used in this study are listed in Supplementary Data 6.

Keller P., Noor E., Meyer F., Reiter M.A., Anastassov S., Kiefer P, & Vorholt J.A. (2020). Methanol-dependent Escherichia coli strains with a complete ribulose monophosphate cycle. Nature Communications, 11, 5403.

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13C-Methanol Labeling of E. coli Mutant

Cited 1 time

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Freshly transformed
colonies of MG1655(DE3) ΔfrmA^{32 (link)} were precultured overnight in Medium A (LB + 5 g/L xylose,
20 mM MgSO₄, 100 μM ZnCl₂, 50 μg/mL
kanamycin from 1000× aqueous stock solution), then diluted 100-fold
into fresh Medium A and incubated with shaking (200 rpm) at 37 °C
until OD₆₀₀ 0.5–0.6. Pathway enzyme expression was
induced with 100 μM IPTG, and growth continued for another 2
h. The culture was then centrifuged (10 min at 3500 rcf), washed once
with an equal volume of M9 medium, and resuspended in an equal volume
of M9 containing 5 g/L d-xylose, and 250 mM ¹³C methanol (Cambridge Isotope Laboratories, 99%). Cells were incubated
with shaking for a further hour before intracellular metabolites were
extracted as described previously.^{50 (link)} Briefly,
1 mL of liquid culture was filtered through a 0.45 μm nylon
filter, washed with 10 mL room-temperature water, and then the filter
was transferred into a 50 mL falcon tube containing 5 mL of extraction
solution (40:40:20 acetonitrile:methanol:water) at −20 °C.
After 30 min, the filter was removed, the samples were centrifuged,
and the supernatants dried overnight under air. The next morning,
dried metabolites were resuspended in 150 μL water, centrifuged
at 13 000 rpm for 40 min, and injected into an LC–MS/MS
system as previously described.^{50 (link)}

Roth T.B., Woolston B.M., Stephanopoulos G, & Liu D.R. (2019). Phage-Assisted Evolution of Bacillus methanolicus Methanol Dehydrogenase 2. ACS Synthetic Biology, 8(4), 796-806.

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EPR Characterization of Mn(III,IV)salpn-Methanol Complexes

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Mn(III,IV)salpn + methanol samples were prepared by methods described previously using ¹³C-methanol (99%, Cambridge Isotope Laboratories) or natural-abundance methanol (Fisher). The final concentration of Mn(III,IV)salpn in all samples was 2 mM, while the concentration of methanol was ≥1 M. After preparation, samples were placed in 3.8 mm O.D. precision quartz EPR tubes for X-band EPR experiments, and 2.4 mm O.D. tubes for Q-band experiments. Successful complexation by methanol was judged on the basis of the appearance of the 12-line CW EPR spectrum that is diagnostic of the solvent-bound asymmetric form.¹

Oyala P.H., Stich T.A., Stull J.A., Yu F., Pecoraro V.L, & Britt R.D. (2014). Pulse Electron Paramagnetic Resonance Studies of the Interaction of Methanol with the S2 State of the Mn4O5Ca Cluster of Photosystem II. Biochemistry, 53(50), 7914-7928.

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Purification and Expression of hAQP2

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Common chemicals of reagent grade were purchased from either Fisher Scientific (Unionville, Ontario, Canada) or Sigma-Aldrich (Oakville, Ontario, Canada). The isotopically labeled compounds (¹⁵NH₄)₂SO₄, ¹³C-sorbitol, ¹³C-methanol, and ¹³C6-glucose were obtained from Cambridge Isotope Laboratories (Andover, MA, USA). The Ni²⁺-NTA (nitrilotriacetic acid) agarose resin was purchased from Qiagen (Mississauga, Ontario, Canada). Lipids were purchased from Avanti Polar Lipids (Alabaster, AL, USA). Plasmid with hAQP2 sequence inserted was purchased from GenScript (Piscataway, NJ, USA).

Munro R., de Vlugt J., Ladizhansky V, & Brown L.S. (2020). Improved Protocol for the Production of the Low-Expression Eukaryotic Membrane Protein Human Aquaporin 2 in Pichia pastoris for Solid-State NMR. Biomolecules, 10(3), 434.

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