Tandem Rh-catalysis: decarboxylative β-keto acid and alkyne cross-coupling

The activity and function of proteins can be improved by incorporation of non-canonical amino acids (ncAAs). To avoid the tedious synthesis of a large number of chiral phenylalanine derivatives, we synthesized the corresponding phenylpyruvic acid precursors. Escherichia coli strain DH10B and strain C321.ΔA.expΔPBAD were selected as hosts for phenylpyruvic acid bioconversion and genetic code expansion using the MmPylRS/pyltRNACUA system. The concentrations of keto acids, PLP and amino donors were optimized in the process. Eight keto acids that can be biotransformed and their coupled genetic code expansions were identified. Finally, the genetic encoded ncAAs were tested for incorporation into fluorescent proteins with keto acids.

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Direct Acyl Radical Addition to 2H-Indazoles Using Ag-Catalyzed Decarboxylative Cross-Coupling of α-Keto Acids

Organic Letters ◽

10.1021/acs.orglett.8b00920 ◽

2018 ◽

Vol 20 (9) ◽

pp. 2711-2715 ◽

Cited By ~ 47

Author(s):

Ganganna Bogonda ◽

Hun Young Kim ◽

Kyungsoo Oh

Keyword(s):

Cross Coupling ◽

Radical Addition ◽

Acyl Radical ◽

Keto Acids

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Ti(OiPr)4-Enabled Dual Photoredox and Nickel-Catalyzed Arylation and Alkenylation of Cyclopropanols

10.26434/chemrxiv.14573148 ◽

2021 ◽

Author(s):

Nastassia A. Varabyeva ◽

Maryia V. Barysevich ◽

Yauhen Aniskevich ◽

Alaksiej Hurski

Keyword(s):

Cross Coupling ◽

Unsaturated Ketones

<p>In this article, we report an application of cyclopropanols as coupling partners in the dual photoredox/nickel catalyzed reaction with aryl and vinyl bromides. We found that this cross-coupling proceeds smoothly in the presence of Ti(OiPr)<sub>4</sub> as an additive to provide β-aryl or γ,δ-unsaturated ketones. </p>

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Transport of alpha-keto analogues of amino acids across blood-brain barrier in rats

AJP Endocrinology and Metabolism ◽

10.1152/ajpendo.1982.243.4.e272 ◽

1982 ◽

Vol 243 (4) ◽

pp. E272-E277

Author(s):

A. R. Conn ◽

R. D. Steele

Keyword(s):

Blood Brain Barrier ◽

Transport System ◽

Ketone Bodies ◽

Brain Barrier ◽

Sodium Pentobarbital ◽

Keto Acid ◽

Dual Isotope ◽

Common System ◽

Blood Brain ◽

Keto Acids

The transport of 14C-labeled alpha-keto acids across the blood-brain barrier (BBB) was studied in rats anesthetized with sodium pentobarbital using a modification of a single-injection dual-isotope technique. alpha-Keto acids were found to cross the BBB via a saturable carrier-mediated transport system that may be specific based on lack of inhibition by glucose, isoleucine, and ketone bodies on the uptake of tracer levels of 14C-labeled alpha-keto acids. alpha-Ketobutyrate and alpha-keto-gamma-methiolbutyrate, both straight chain keto acids, and alpha-ketoisocaproate, a branched-chain keto acid, appeared to cross the barrier by a common carrier based on cross-inhibition studies. Aromatic keto acids had no effect on the uptake of tracer levels of these 14C-keto acids. The Km of transport of alpha-ketobutyrate, alpha-ketoisocaproate, and alpha-keto-gamma-methiolbutyrate, was 0.11, 0.60, and 0.33 mM, respectively. The corresponding Vmax was 15.7, 73.3, and 30.2 nmol . g-1 . min-1. Phenylpyruvate was found not to cross the BBB. Inhibition of brain uptake of alpha-keto acids by propionate and pyruvate, and not by DL-beta-hydroxybutyrate suggests that alpha-keto acids and monocarboxylic acids are transported either via a common system independent of ketone bodies or share an affinity with a monocarboxylic acid and an alpha-keto acid transport system.

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Transamination of branched-chain keto acids by isolated perfused rat kidney.

AJP Endocrinology and Metabolism ◽

10.1152/ajpendo.1978.235.1.e47 ◽

1978 ◽

Vol 235 (1) ◽

pp. E47

Author(s):

W E Mitch ◽

W Chan

Keyword(s):

Amino Acids ◽

Rat Kidney ◽

Branched Chain Amino Acids ◽

Keto Acid ◽

Branched Chain Amino Acid ◽

Keto Acids ◽

Perfused Rat Kidney ◽

Branched Chain ◽

Branched Chain Keto Acids ◽

Isolated Rat

Isolated rat kidney perfused without substrate released serine, glycine, and taurine, and substantially smaller amounts of other amino acids. When branched-chain keto acids were added, the corresponding amino acids were released at rates amounting to 15-25% of keto acid disappearance. Perfusion with 2 mM alpha-keto-isovalerate or alpha-keto-beta-methylvalerate caused an increased glucose release amounting to 18-23% of keto acid disappearance. The activity of branched-chain amino acid transferase (BATase) was significantly stimulated by perfusion with the analogue of leucine, but not by perfusion with alpha-ketoglutarate, the analogues of valine or isoleucine, or with leucine itself. These findings document that the kidney converts branched-chain keto acids in part to the corresponding amino acids and suggest that the keto analogue of leucine may be involved in the control of renal BATase activity, thereby indirectly regulating the metabolism of branched-chain amino acids.

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Accumulation of α-Keto Acids as Essential Components in Cyanide Assimilation by Pseudomonas fluorescens NCIMB 11764

Applied and Environmental Microbiology ◽

10.1128/aem.64.11.4452-4459.1998 ◽

1998 ◽

Vol 64 (11) ◽

pp. 4452-4459 ◽

Cited By ~ 23

Author(s):

Daniel A. Kunz ◽

Jui-Lin Chen ◽

Guangliang Pan

Keyword(s):

Pseudomonas Fluorescens ◽

Culture Fluid ◽

Maximal Activity ◽

Resonance Spectroscopy ◽

Keto Acid ◽

Growth Substrate ◽

Reaction Products ◽

Cell Extracts ◽

Keto Acids ◽

Essential Components

ABSTRACT Pyruvate (Pyr) and α-ketoglutarate (αKg) accumulated when cells of Pseudomonas fluorescens NCIMB 11764 were cultivated on growth-limiting amounts of ammonia or cyanide and were shown to be responsible for the nonenzymatic removal of cyanide from culture fluids as previously reported (J.-L. Chen and D. A. Kunz, FEMS Microbiol. Lett. 156:61–67, 1997). The accumulation of keto acids in the medium paralleled the increase in cyanide-removing activity, with maximal activity (760 μmol of cyanide removed min−1 ml of culture fluid−1) being recovered after 72 h of cultivation, at which time the keto acid concentration was 23 mM. The reaction products that formed between the biologically formed keto acids and cyanide were unambiguously identified as the corresponding cyanohydrins by 13C nuclear magnetic resonance spectroscopy. Both the Pyr and α-Kg cyanohydrins were further metabolized by cell extracts and served also as nitrogenous growth substrates. Radiotracer experiments showed that CO2 (and NH3) were formed as enzymatic conversion products, with the keto acid being regenerated as a coproduct. Evidence that the enzyme responsible for cyanohydrin conversion is cyanide oxygenase, which was shown previously to be required for cyanide utilization, is based on results showing that (i) conversion occurred only when extracts were induced for the enzyme, (ii) conversion was oxygen and reduced-pyridine nucleotide dependent, and (iii) a mutant strain defective in the enzyme was unable to grow when it was provided with the cyanohydrins as a growth substrate. Pyr and αKg were further shown to protect cells from cyanide poisoning, and excretion of the two was directly linked to utilization of cyanide as a growth substrate. The results provide the basis for a new mechanism of cyanide detoxification and assimilation in which keto acids play an essential role.

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Silver-catalyzed decarboxylative cross-coupling of α-keto acids with alkenes giving approach to chalcones

Tetrahedron Letters ◽

10.1016/j.tetlet.2017.11.005 ◽

2017 ◽

Vol 58 (51) ◽

pp. 4763-4765 ◽

Cited By ~ 5

Author(s):

Shang Wu ◽

Hongheng Yu ◽

Qinzheng Hu ◽

Quanlu Yang ◽

Shouwang Xu ◽

...

Keyword(s):

Cross Coupling ◽

Keto Acids

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Letters to the Editor

PEDIATRICS ◽

10.1542/peds.41.3.690a ◽

1968 ◽

Vol 41 (3) ◽

pp. 690-691

Author(s):

Grant Morrow ◽

Lewis A. Barness

Keyword(s):

Amino Acids ◽

Quantitative Analysis ◽

Carboxylic Acid ◽

Urea Cycle ◽

Moderate Increase ◽

Keto Acid ◽

Letters To The Editor ◽

Keto Acids

We would like to thank Doctor Kekomäki for his letter letter concerning our patient with citrullinemia. Doctor Kekomäki's investigations are certainly quite interesting and may explain why we were unable to pick up equi-molar amounts of the urea cycle amino acids. Semi-quantitative analysis of the urine for α-keto acids revealed a moderate increase in α-keto glutarate and pyruvate following the arginine load but no unusual α-keto acid was noted. The urine was not tested for Δ-pyrroline-5-carboxylic acid.

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β-Keto Acids in Asymmetric Metal catalysis and Organocatalysis

Organic & Biomolecular Chemistry ◽

10.1039/d1ob01481a ◽

2021 ◽

Author(s):

Wei Qin ◽

Mahboob Subhani ◽

Chunhui Jiang ◽

Hongfei Lu

Keyword(s):

Organic Synthesis ◽

Keto Acid ◽

Metal Catalysis ◽

Keto Acids

The β-keto acid, an ideal surrogate of inactive ketones, plays an important role in organic synthesis. The asymmetric decarboxylative reaction by using β-ketoacids is one which is being studied the...

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REDUCTION OF AROMATIC ?-KETO ACIDS BY LACTIC DEHYDROGENASE ISOZYMES AND AROMATIC ?-KETO ACID REDUCTASE

Annals of the New York Academy of Sciences ◽

10.1111/j.1749-6632.1968.tb11923.x ◽

1968 ◽

Vol 151 (1) ◽

pp. 627-637 ◽

Cited By ~ 3

Author(s):

Wendell W. Weber ◽

Vincent G. Zannoni

Keyword(s):

Lactic Dehydrogenase ◽

Keto Acid ◽

Keto Acids

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