Synthesis and structure elucidation of the human tRNA nucleoside mannosyl-queuosine

AbstractQueuosine (Q) is a structurally complex, non‐canonical RNA nucleoside. It is present in many eukaryotic and bacterial species, where it is part of the anticodon loop of certain tRNAs. In higher vertebrates, including humans, two further modified queuosine-derivatives exist ‐ galactosyl‐ (galQ) and mannosyl-queuosine (manQ). The function of these low abundant hypermodified RNA nucleosides remains unknown. While the structure of galQ was elucidated and confirmed by total synthesis, the reported structure of manQ still awaits confirmation. By combining total synthesis and LC-MS-co-injection experiments, together with a metabolic feeding study of labelled hexoses, we show here that the natural compound manQ isolated from mouse liver deviates from the literature-reported structure. Our data show that manQ features an α‐allyl connectivity of its sugar moiety. The yet unidentified glycosylases that attach galactose and mannose to the Q‐base therefore have a maximally different constitutional connectivity preference. Knowing the correct structure of manQ will now pave the way towards further elucidation of its biological function.

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Synthesis and Structure Elucidation of the Human tRNA Nucleoside Mannosyl-Queuosine

10.1101/2021.06.24.449707 ◽

2021 ◽

Author(s):

Thomas Carell ◽

Markus Hillmeier ◽

Mirko Wagner ◽

Timm Ensfelder ◽

Eva Korytiakova ◽

...

Keyword(s):

Total Synthesis ◽

Mouse Liver ◽

Structure Elucidation ◽

Chemical Structure ◽

Natural Compound ◽

Biological Function ◽

Bacterial Species ◽

Anticodon Loop ◽

Feeding Study ◽

Correct Structure

Queuosine (Q) is a structurally complex, non-canonical RNA nucleoside. It is present in many eukaryotic and bacterial species, where it is part of the anticodon loop of certain tRNAs. In higher vertebrates, including humans, two further modified queuosine-derivatives exist, galactosyl- (galQ) and mannosyl-queuosine (manQ). The function of these low abundant hypermodified RNA nucleosides remains unknown. While the structure of galQ was elucidated and confirmed by total synthesis, the reported structure of manQ still awaits confirmation. By combining total synthesis and LC-MS-co-injection, together with a metabolic feeding study of labelled hexoses, we show here that the natural compound manQ isolated from mouse liver deviates from the literature-reported structure. The chemical structure of the natural product manQ features a novel α-allyl connectivity. The data reported here shows that the yet unidentified glycosylases that attach galactose and mannose to the Q-base have different constitutional connectivity preferences. Knowing the correct structure of manQ will now pave the way towards further elucidation of its biological function.

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ChemInform Abstract: Total Synthesis and Structure Elucidation of (.+-.)-Triumphalone and (.+-.)-Isotriumphalone.

ChemInform ◽

10.1002/chin.201522247 ◽

2015 ◽

Vol 46 (22) ◽

pp. no-no

Author(s):

Eiji Nishimura ◽

Yasufumi Ohfune ◽

Tetsuro Shinada

Keyword(s):

Total Synthesis ◽

Structure Elucidation

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Synthesis of Optically Active Hydroxyalkyl Cycloheptatrienes: A Key Step in the Total Synthesis of 6,11-Methylene-LXB4

Synlett ◽

10.1055/s-0040-1707282 ◽

2020 ◽

Vol 32 (01) ◽

pp. 45-50

Author(s):

Udo Nubbemeyer ◽

Analuisa Nava ◽

Lukas Trippe ◽

Andrea Frank ◽

Lars Andernach ◽

...

Keyword(s):

Carboxylic Acid ◽

Total Synthesis ◽

Structure Elucidation ◽

Butyl Ester ◽

Optically Active ◽

Chiral Hplc ◽

Reaction Conditions ◽

Acid Product ◽

Tert Butyl ◽

Nabh4 Reduction

AbstractStarting from methyl cycloheptatrienyl-1-carboxylate, 6-acylation was successfully achieved employing glutaryl chloride in the presence of AlCl3 under controlled reaction conditions to furnish keto carboxylic acid product. After protection of this keto carboxylic acid as tert-butyl ester, reagent-controlled enantioselective reductions delivered configuration-defined methyl-6-hydroxylalkyl cycloheptatriene-1-carboxylates with up to 80% ee. Whereas simple NaBH4 reduction of the keto carboxylic acid and subsequent lactonization afforded a methyl-6-tetrahydropyranonyl cycloheptatriene-1-carboxylate. Resolution using chiral HPLC delivered the product enantiomers with up to >99% ee Finally, ECD analyses enabled structure elucidation. The products are used as key intermediates in enantioselective 6,11-methylene-lipoxin B4 syntheses.

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Total synthesis of urogastrone (human epidermal growth factor, h-EGF). Part 2. Synthesis of urogastrone having the structure proposed for the natural compound

Journal of the Chemical Society Perkin Transactions 1 ◽

10.1039/p19890002199 ◽

1989 ◽

pp. 2199 ◽

Cited By ~ 1

Author(s):

Masahiro Neya ◽

Daijiro Hagiwara ◽

Keiji Hemmi ◽

Masashi Hashimoto

Keyword(s):

Growth Factor ◽

Epidermal Growth Factor ◽

Total Synthesis ◽

Natural Compound ◽

Factor H ◽

Human Epidermal Growth Factor ◽

Epidermal Growth

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Basic Study on Active Changes in Biological Function of Mouse Liver Graft in Cold Storage after Low-Dose X-Irradiation

Journal of Clinical Biochemistry and Nutrition ◽

10.3164/jcbn.09-06 ◽

2009 ◽

Vol 45 (2) ◽

pp. 219-226 ◽

Cited By ~ 10

Author(s):

Takahiro Kataoka ◽

Masaaki Yoshimoto ◽

Shinya Nakagawa ◽

Yuko Mizuguchi ◽

Takehito Taguchi ◽

...

Keyword(s):

Cold Storage ◽

Mouse Liver ◽

Low Dose ◽

Biological Function ◽

Liver Graft ◽

Basic Study ◽

X Irradiation

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Total Synthesis Guided Structure Elucidation of (+)‐Psychotetramine

Angewandte Chemie ◽

10.1002/ange.201008048 ◽

2011 ◽

Vol 123 (12) ◽

pp. 2768-2771 ◽

Cited By ~ 38

Author(s):

Klement Foo ◽

Timothy Newhouse ◽

Ikue Mori ◽

Hiromitsu Takayama ◽

Phil S. Baran

Keyword(s):

Total Synthesis ◽

Structure Elucidation

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Synthesis of plantamajoside, a bioactive dihydroxyphenylethyl glycoside from Plantago major L.

Holzforschung ◽

10.1515/hf.2006.081 ◽

2006 ◽

Vol 60 (5) ◽

pp. 492-497 ◽

Cited By ~ 2

Author(s):

Toshinari Kawada ◽

Yuko Yoneda ◽

Ryuji Asano ◽

Ippei Kan-no ◽

Walther Schmid

Keyword(s):

Nuclear Magnetic Resonance ◽

Magnetic Resonance ◽

Total Synthesis ◽

Caffeic Acid ◽

Spectral Data ◽

Natural Compound ◽

Plantago Major ◽

Target Compound ◽

Sugar Esters ◽

Nuclear Magnetic

Abstract The first total synthesis of plantamajoside (1), 2-(3′,4′-dihydroxylphenyl)ethyl-4-O-caffeoyl-3-O-(β-D-glucopyranosyl)-β-D-glucopyranoside, which is one of the dihydroxyphenylethyl glycosides (caffeic acid sugar esters), is described. Key intermediate 2, 2-[3′,4′-bis(O-benzyl)phenyl]ethyl 2,6-di-O-acetyl-4-O-[3′,4′-bis(O-benzyl)caffeoyl]-β-D-glucopyranoside was glycosylated with trichloroacetoimidoyl 2,3,4,6-tetra-O-acetyl-α-D-glycopyranoside (3) to afford plantamajoside derivative 4a, 2-[3′,4′-bis(O-benzyl)phenyl]ethyl 2,6-di-O-acetyl-4-O-[3′,4′-bis(O-benzyl)caffeoyl]-3-O-(2,3,4,6-tetra-O-acetyl-β-D-glucopyranosyl)-β-D-glucopyranoside, in 39% yield. Plantamajoside derivative 4a was successfully converted into the target compound, plantamajoside (1), through a series of de-protective procedures. 1H- and 13C nuclear magnetic resonance (NMR) spectral data of the synthesized plantamajoside (1) were identical to those of the natural compound.

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