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A ribose-functionalized NAD+ with unexpected high activity and selectivity for protein poly-ADP-ribosylation.


ABSTRACT: Nicotinamide adenine dinucleotide (NAD+)-dependent ADP-ribosylation plays important roles in physiology and pathophysiology. It has been challenging to study this key type of enzymatic post-translational modification in particular for protein poly-ADP-ribosylation (PARylation). Here we explore chemical and chemoenzymatic synthesis of NAD+ analogues with ribose functionalized by terminal alkyne and azido groups. Our results demonstrate that azido substitution at 3'-OH of nicotinamide riboside enables enzymatic synthesis of an NAD+ analogue with high efficiency and yields. Notably, the generated 3'-azido NAD+ exhibits unexpected high activity and specificity for protein PARylation catalyzed by human poly-ADP-ribose polymerase 1 (PARP1) and PARP2. And its derived poly-ADP-ribose polymers show increased resistance to human poly(ADP-ribose) glycohydrolase-mediated degradation. These unique properties lead to enhanced labeling of protein PARylation by 3'-azido NAD+ in the cellular contexts and facilitate direct visualization and labeling of mitochondrial protein PARylation. The 3'-azido NAD+ provides an important tool for studying cellular PARylation.

SUBMITTER: Zhang XN 

PROVIDER: S-EPMC6744458 | biostudies-literature | 2019 Sep

REPOSITORIES: biostudies-literature

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A ribose-functionalized NAD<sup>+</sup> with unexpected high activity and selectivity for protein poly-ADP-ribosylation.

Zhang Xiao-Nan XN   Cheng Qinqin Q   Chen Jingwen J   Lam Albert T AT   Lu Yanran Y   Dai Zhefu Z   Pei Hua H   Evdokimov Nikolai M NM   Louie Stan G SG   Zhang Yong Y  

Nature communications 20190913 1


Nicotinamide adenine dinucleotide (NAD<sup>+</sup>)-dependent ADP-ribosylation plays important roles in physiology and pathophysiology. It has been challenging to study this key type of enzymatic post-translational modification in particular for protein poly-ADP-ribosylation (PARylation). Here we explore chemical and chemoenzymatic synthesis of NAD<sup>+</sup> analogues with ribose functionalized by terminal alkyne and azido groups. Our results demonstrate that azido substitution at 3'-OH of nic  ...[more]

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