The NAD metabolome - A key determinant of cancer cell biology

Emerging roles of NAD+ and its metabolites in cell signaling

2007

• Nadine Pollak; Christian Dølle; Mathias Ziegler (2007). The power to reduce: pyridine nucleotides - small molecules with a multitude of functions. (external link)
• Alexamder M. Lewis; Roser Masgrau; Sridhar R. Vasudevan et al. (2007). Refinement of a radioreceptor binding assay for nicotinic acid adenine dinucleotide phosphate. (external link)
• Line Agledal; Marc Niere; Christian Dølle et al. (2007). Expression of NAD biosynthetic enzymes in response to decreased mitochondrial and cytosolic NAD levels. (external link)
• Nadine Pollak; Marc Niere; Mathias Ziegler (2007). NAD kinase levels control the NADPH concentration in human cells. (external link)
• Felicitas Berger; Corinna Lau; Mathias Ziegler (2007). Regulation of Poly(ADP-ribose)polymerase 1 Activity by the Phosphorylation State of the Nuclear NAD Biosynthetic Enzyme NMN Adenylyl Transferase 1. (external link)

2015

• Mathias Bockwoldt; Anne-Kristin Stavrum; Toni I. Gossmann et al. (2015). Dynamics of NAD-metabolism - everything but constant. (external link)
• Veronika Kulikova; Konstantin Shabalin; Kirill Nerinovski et al. (2015). Generation, release, and uptake of the NAD precursor nicotinic acid riboside by human cells. (external link)
• Henriette Aksnes; Petra Van Damme; Marianne Goris et al. (2015). An organellar Nα-acetyltransferase, Naa60, acetylates cytosolic n termini of transmembrane proteins and maintains golgi integrity. (external link)
• Magali R Van Linden; Mathias Ziegler (2015). Insights into NAD homeostasis in the compartmentalized cell. (external link)
• Andrey Nikiforov; Veronika Kulikova; Mathias Ziegler (2015). The human NAD metabolome: Functions, metabolism and compartmentalization. (external link)
• Nick R. Love; Nadine Pollak; Christian Dölle et al. (2015). NAD kinase controls animal NADP biosynthesis and is modulated via evolutionarily divergent calmodulin-dependent mechanisms. (external link)
• Magali R Van Linden; Renate Hvidsten Skoge; Mathias Ziegler (2015). Discovery, metabolism and functions of NAD and NADP. (external link)
• Magali R Van Linden; Christian Dölle; Ina Katrine Nitschke Pettersen et al. (2015). Subcellular distribution of NAD+ between cytosol and mitochondria determines the metabolic profile of human cells. (external link)

2014

• Nick R. Love; Mathias Ziegler; Yaoyao Chen et al. (2014). Carbohydrate metabolism during vertebrate appendage regeneration: What is its role? How is it regulated? A postulation that regenerating vertebrate appendages facilitate glycolytic and pentose phosphate pathways to fuel macromolecule biosynthesis. (external link)
• Johannes Gregor M Rack; Timo Lutter; Gro Elin Kjæreng Bjerga et al. (2014). The PHD finger of p300 influences its ability to acetylate histone and non-histone targets. (external link)
• Johannes Gregor M Rack; Magali R Van Linden; Timo Lutter et al. (2014). Constitutive nuclear localization of an alternatively spliced sirtuin-2 isoform. (external link)
• Ines Heiland; Susanne Brandes; Anne-Kristin Stavrum et al. (2014). NAD-metabolism and the circadian clock -- Unraveling contradictions. (external link)
• Renate Hvidsten Skoge; Christian Dölle; Mathias Ziegler (2014). Regulation of SIRT2-dependent α-tubulin deacetylation by cellular NAD levels. (external link)
• Anne-Kristin Stavrum; Ines Heiland; Stefan Schuster et al. (2014). Predicting pathological metabolic changes using a kinetic model of tryptophan metabolism. (external link)
• Toni Gossmann; Mathias Ziegler (2014). Sequence divergence and diversity suggests ongoing functional diversification of vertebrate NAD metabolism. (external link)
• Thomas S. Blacker; Zoe F. Mann; Jonathan E. Gale et al. (2014). Separating NADH and NADPH fluorescence in live cells and tissues using FLIM. (external link)

2010

• Kristine Hole; Rune Henrik Evjenth; Odd Andre Karlsen et al. (2010). Human Naa50p (Nat5/San) Displays Both Protein Na-and Ne-Acetyltransferase activity. (external link)
• Corinna Lau; Christian Dølle; Toni I. Gossmann et al. (2010). Isoform-specific targeting and interaction domains in human nicotinamide mononucleotide adenylyltransferases. (external link)
• Rune Henrik Evjenth; Kristine Hole; Odd Andre Karlsen et al. (2010). Human Naa50p (Nat5/San) displays both protein N-alpha- and N-epsilon-Acetyltransferase activity. (external link)
• Christian Dølle; Marc Niere; Emilia Lohndal et al. (2010). Visualization of subcellular NAD pools and intra-organellar protein localization by poly-ADP-ribose formation. (external link)
• Marc Niere; Christian Dølle; Line Agledal et al. (2010). Dissection of candidate enzymes involved in mitochondrial poly-ADP-ribose degradation. (external link)
• Kristine Hole; Odd Andre Karlsen; Mathias Ziegler et al. (2010). The chaperone-like protein HYPK acts together with NatA in cotranslational N-terminal acetylation and prevention of Huntingtin aggregation. (external link)
• Rune Henrik Evjenth; Kristine Hole; Mathias Ziegler et al. (2010). Application of reverse-phase HPLC to quantify oligopeptide acetylation eliminates interference from unspecific acetyl CoA hydrolysis. (external link)
• Line Agledal; Marc Niere; Mathias Ziegler (2010). The phosphate makes a difference: cellular functions of NADP. (external link)

2019

• Marc Niere; Cimadamore-Werthein Camila; Mathias Ziegler (2019). Analysis of an alternative splicing-derived NRK1 isoform for mitochondrial localization.. (external link)
• Veronika Kulikova; Konstantin Shabalin; Kirill Nerinovski et al. (2019). Degradation of Extracellular NAD+ Intermediates in Cultures of Human HEK293 Cells. (external link)
• Yong Gyu Lee; Brenda F Reader; Derrick Herman et al. (2019). Sirtuin 2 enhances allergic asthmatic inflammation. (external link)
• Mathias Bockwoldt; Dorothee Houry; Marc Niere et al. (2019). Identification of evolutionary and kinetic drivers of NAD-dependent signaling. (external link)
• Øyvind Strømland; Marc Niere; Andrey Nikiforov et al. (2019). Keeping the balance in NAD metabolism. (external link)

2016

• Renate Hvidsten Skoge; Mathias Ziegler (2016). SIRT2 inactivation reveals a subset of hyperacetylated perinuclear microtubules inaccessible to HDAC6. (external link)
• Sylvia Varland; Henriette Aksnes; Veronique Jonckheere et al. (2016). Dynamic aspects of protein N-terminal acetylation in response to changes in nutrient availability. (external link)
• Mathias Bockwoldt; Ines Heiland; Gossmann Toni et al. (2016). Phylogenetic and simulation-based analysis of NAD metabolism. (external link)
• Renate Hvidsten Skoge; Mathias Ziegler (2016). NAD-dependent and NAD-independent α-tubulin deacetylation. (external link)
• Ines Heiland; Mathias Bockwoldt; Anne-Kristin Stavrum et al. (2016). Tissue specific models of Tryptohan-metabolism — insights into metabolic crosstalk. (external link)

2006

• Emilia Lohndal; Mathias Ziegler (2006). An approach to modulate cellular poly(ADP-ribose) levels by means of RNA interference. (external link)
• Mathias Ziegler (2006). Biochemistry and pharmacology of enzymes involved in NAD metabolism. (external link)
• Mathias Ziegler (2006). Nuclear NAD+ Synthesis: Linking bioenergetics to DNA repair. (external link)
• Mathias Ziegler (2006). Life and death with NAD(P): Signalling functions of the pyridine nucleotides. (external link)
• Mathias Ziegler; Jane Kristin Nøstbakken (2006). Overexpression of human NAD kinase and its effect on oxidative stress in HEK293 cells. (external link)
• Line Agledal; Mathias Ziegler (2006). Suborganellar localisation of proteins involved in mitochondrial energy metabolism. (external link)
• Mathias Ziegler (2006). NAD: metabolism and regulatory functions. (external link)
• Marc Niere; Maria Helena Ramirez-Hernandez; Mathias Ziegler (2006). The utility of PARP-1 activity to modulate subcellular NAD levels. (external link)
• D Churamani; GD Dickinson; Mathias Ziegler et al. (2006). Time sensing by NAADP receptors. (external link)
• Mathias Ziegler (2006). NAD signalling and biosynthesis: many functions, many places, many questions. (external link)
• Mathias Ziegler (2006). Amplification of poly(ADP-ribosyl)ation in sites of PARP-1 activation by the NAD biosynthetic enzyme NMN adenylyltransferase-1. (external link)
• Mathias Ziegler (2006). Biochemistry and pharmacology of enzymes involved in NAD metabolism. (external link)
• Mathias Ziegler (2006). From bioenergetics to signal transduction: Life and death with NAD. (external link)
• Mathias Ziegler (2006). The making of NAD: How, When and Why. (external link)

2004

• Lee Hunt; Felicitas Lerner; Mathias Ziegler (2004). NAD � new roles in signalling and gene regulation in plants. (external link)
• Mathias Ziegler; Marc Niere (2004). NAD+ surfaces again. (external link)
• Felicitas Berger; Maria-Helena Ramirez-Hernandez; Mathias Ziegler (2004). The new life of a centenarian: signalling functions of NAD(P). (external link)
• A Nikiforov; MP Svetlova; LV Solov'eva et al. (2004). Dynamics of some postreplication DNA repair proteins in carcinogen-damaged mammalian cells. (external link)

2005

• Mathias Ziegler (2005). Regulation of PARP-1 by the NAD biosynthetic enzyme NMN adenylyltransferase-1. (external link)
• F. Berger; Corinna Lau; M. Dahlmann et al. (2005). Subcellular Compartmentation and Differential Catalytic Properties of the Three Human Nicotinamide Mononucleotide Adenylyltransferase Isoforms. (external link)
• Shiao li Oei; Claudia Keil; Mathias Ziegler (2005). Poly(ADP-ribosylation) and genomic stability. (external link)
• Mathias Ziegler (2005). An endogenous activator of poly-ADP-ribose polymerase-1: The NAD+ biosynthetic enzyme NMN Adenylyltransferase-1. (external link)
• Mathias Ziegler (2005). Functional interaction between PARP-1 and NMN adenylyltransferase-1. (external link)
• Mathias Ziegler (2005). Importance of NAD metabolism for cancer development and treatment. (external link)
• Mathias Ziegler (2005). A vital link between energy and signal transduction - Regulatory functions of NAD(P). (external link)
• Mathias Ziegler (2005). The adenine nucleotide translocase - a carrier protein potentially required for mitochondrial generation of NAD. (external link)
• Corinna Lau; Felicitas Berger; Mathias Ziegler (2005). Triplicate NAD synthesis: Catalytic properties and subcellular compartmentation of the human NMN adenylyltransferase isoforms. (external link)
• Mathias Ziegler (2005). The new life of a centenarian - Signaling functions of NAD. (external link)

2022

• Ana Rita Guillot Caldas; Mathias Ziegler; Marc Niere (2022). Functional consequences of modulated expression of SLC25A51 on cellular NAD metabolism. (external link)
• Anbin Chen; Cecilie Katrin Kristiansen; Lena Elise Høyland et al. (2022). POLG mutations lead to abnormal mitochondrial remodeling during neural differentiation of human pluripotent stem cells via SIRT3/AMPK pathway inhibition. (external link)
• Cecilie Katrin Kristiansen; Anbin Chen; Lena Elise Høyland et al. (2022). Comparing the mitochondrial signatures in ESCs and iPSCs and their neural derivations. (external link)
• Brage Brakedal; Christian Dölle; Frank Riemer et al. (2022). The NADPARK study: A randomized phase I trial of nicotinamide riboside supplementation in Parkinson's disease. (external link)
• Mathias Ziegler (2022). NAD - much more than a coenzyme and a target for pathogenic microorganisms. (external link)
• Mathias Ziegler (2022). Cellular NAD sensing and homeostasis. (external link)
• Mathias Ziegler (2022). Enzymology and dynamics of cellular NAD metabolism. (external link)
• Synne Emilia Tveide Johnsen; Mathias Ziegler; Lena Elise Høyland (2022). Characterization of the NAD metabolome in breast cancer cell models treated with fulvestrant. (external link)
• Suraj Sharma; Yin-Chen Hsieh; Jørn Dietze et al. (2022). Early Evolutionary Selection of NAD Biosynthesis Pathway in Bacteria. (external link)
• Andrey Kropotov; Veronika Kulikova; Ljudmila Solovjeva et al. (2022). Purine nucleoside phosphorylase controls nicotinamide riboside metabolism in mammalian cells. (external link)

2011

• Friedrich Koch-Nolte; Stefan Martin Fischer; Friedrich Haag et al. (2011). Compartmentation of NAD(+)-dependent signalling. (external link)
• Mathias Ziegler (2011). NAD(+) - a key molecule in cellular signalling. (external link)
• Marc Niere; Line Agledal; Christian Dölle et al. (2011). ARH3, not PARG isoforms, is responsible for degrading mitochondrial poly-ADP-ribose (PAR), consistent with roles for PARG isoforms different from PAR degradation. (external link)
• M Szaszak; K Winkler; P Stevens et al. (2011). Molecular mechanisms behind Chlamydia-induced reactive oxygen species production and inflammasome activation. (external link)
• Luis F. de Figueiredo; Toni Gossmann; Mathias Ziegler et al. (2011). Pathway analysis of NAD(+) metabolism. (external link)
• Andrey Nikiforov; Christian Dølle; Marc Niere et al. (2011). Pathways and Subcellular Compartmentation of NAD Biosynthesis in Human Cells FROM ENTRY OF EXTRACELLULAR PRECURSORS TO MITOCHONDRIAL NAD GENERATION. (external link)

1999

• Marc Niere; Claudia Meisslitzer; Matthias Dettloff et al. (1999). Insect immune activation by recombinant Galleria mellonella apolipophorin III. (external link)

2009

• Marc Niere; Line Agledal; Mathias Ziegler (2009). Is there a poly-ADP-ribose glycohydrolase isoform in mitochondria?. (external link)
• Ralf Kellmann; Carlos António Markus Schaffner; Toril Anne Grønset et al. (2009). Proteomic response of human neuroblastoma cells to azaspiracid-1. (external link)
• Corinna Lau; Marc Niere; Mathias Ziegler (2009). The NMN/NaMN adenylyltransferase (NMNAT) protein family. (external link)
• Fabrizio Martino; Stephanie Kueng; Philip Robinson et al. (2009). Reconstitution of yeast silent chromatin: Multiple contact sites and O-AADPR binding load SIR complexes onto nucleosomes in vitro. (external link)
• Line Agledal; Christian Dølle; Mathias Ziegler (2009). Alteration of compartment-specific NAD biosynthesis by reduction of individual subcellular NAD pools. (external link)
• Friedrich Koch-Nolte; F Haag; AH Guse et al. (2009). Emerging Roles of NAD(+) and Its Metabolites in Cell Signaling. (external link)
• Rune Henrik Evjenth; Kristine Hole; Odd Andre Karlsen et al. (2009). Human Naa50p (Nat5/San) Displays Both Protein N-alpha- and N-epsilon-Acetyltransferase Activity. (external link)
• Christian Dølle; Mathias Ziegler (2009). Application of a coupled enzyme assay to characterize nicotinamide riboside kinases. (external link)

2008

• Line Agledal; Christian Dølle; Mathias Ziegler (2008). Alteration of isoform-specific NMNAT expression by reduction of subcellular NAD pools. (external link)
• Christian Dölle; Mathias Ziegler (2008). Biosynthesis and Degradation of NAD in Mitochondria. (external link)
• Marc Niere; Stefan Kernstock; Friedrich Koch-Nolte et al. (2008). Functional localization of two poly(ADP-ribose)-degrading enzymes to the mitochondrial matrix. (external link)
• Nadine Pollak; Marc Niere; Mathias Ziegler (2008). NAD kinase levels control the NADPH concentration in human cells. (external link)

2021

• Jørn Dietze; Alienke van Pijkeren; Anna-Sophia Egger et al. (2021). Natural isotope correction improves analysis of protein modification dynamics. (external link)
• Øyvind Strømland; Juha Pekka Kallio; Annica Pschibul et al. (2021). Author Correction: Discovery of fungal surface NADases predominantly present in pathogenic species (Nature Communications, (2021), 12, 1, (1631), 10.1038/s41467-021-21307-z). (external link)
• Øyvind Strømland; Juha Pekka Kallio; Annica Pschibul et al. (2021). Discovery of fungal surface NADases predominantly present in pathogenic species. (external link)
• Xiao Liang; Atefeh Kianian; Anbin Chen et al. (2021). Stem cell derived astrocytes with POLG mutations and mitochondrial dysfunction including abnormal NAD+ metabolism is toxic for neurons. (external link)
• Mathias Ziegler; Magnus Monnè; Andrey Nikiforov et al. (2021). Welcome to the Family: Identification of the NAD+ Transporter of Animal Mitochondria as Member of the Solute Carrier Family SLC25. (external link)
• Knut H. Lauritzen; Maria Belland Olsen; Mohammed Shakil Ahmed et al. (2021). Instability in nad+ metabolism leads to impaired cardiac mitochondrial function and communication. (external link)
• Øyvind Strømland; Joseph Diab; Eugenio Ferrario et al. (2021). The balance between NAD + biosynthesis and consumption in ageing. (external link)
• Lars Jansen Sverkeli; Faisal Hayat; Marie E. Migaud et al. (2021). Enzymatic and Chemical Syntheses of Vacor Analogs of Nicotinamide Riboside, NMN and NAD. (external link)
• Andrey Kropotov; Veronika Kulikova; Kirill Nerinovski et al. (2021). Equilibrative nucleoside transporters mediate the import of nicotinamide riboside and nicotinic acid riboside into human cells. (external link)
• Bernhard Lüscher; I Ahel; Matthias Altmeyer et al. (2021). ADP-ribosyltransferases, an update on function and nomenclature. (external link)
• Alienke Van Pijkeren; Jørn Dietze; Alejandro Sánchez Brotons et al. (2021). Combined metabolic and chemical (CoMetChem) labeling using stable isotopes - A strategy to reveal site-specific histone acetylation and deacetylation rates by LC-MS. (external link)

2024

• Eugenio Ferrario; Juha Pekka Kallio; Mahdi Emdadi et al. (2024). Evolution of fungal tuberculosis necrotizing toxin (TNT) domain-containing enzymes reveals divergent adaptations to enhance NAD cleavage. (external link)
• Marie E. Migaud; Mathias Ziegler; Joseph A. Baur (2024). Regulation of and challenges in targeting NAD⁺ metabolism. (external link)
• Lena Elise Høyland; Magali R Van Linden; Marc Niere et al. (2024). Subcellular NAD+ pools are interconnected and buffered by mitochondrial NAD+. (external link)
• Marc Niere; Ana Rita Guillot Caldas; Alex Kojo Datsomor et al. (2024). Functional analysis of candidate proteins for mediating subcellular NAD distribution. (external link)
• Knut Husø Lauritzen; Kuan Yang; Michael Frisk et al. (2024). Apigenin inhibits NLRP3 inflammasome activation in monocytes and macrophages independently of CD38. (external link)
• Xiao Liang; Anbin Chen; Atefeh Kianian et al. (2024). Activation of Neurotoxic Astrocytes Due to Mitochondrial Dysfunction Triggered by POLG Mutation. (external link)

2020

• Luis Ernesto Contreras Rodríguez; Mathias Ziegler; María Helena Ramírez Hernández (2020). Kinetic and oligomeric study of Leishmania braziliensis nicotinate/nicotinamide mononucleotide adenylyltransferase. (external link)
• Xiao Liang; Cecilie Katrin Kristiansen; Sepideh Mostafavi et al. (2020). Disease-specific phenotypes in iPSC-derived neural stem cells with POLG mutations. (external link)
• Brian Christopher Gilmour; Ruben Gudmundsrud; Johannes Frank et al. (2020). Targeting NAD+ in translational research to relieve diseases and conditions of metabolic stress and ageing. (external link)
• Timothy S. Luongo; Jared M. Eller; Mu-Jie Lu et al. (2020). SLC25A51 is a mammalian mitochondrial NAD+ transporter. (external link)

2018

• Ingvill Tolås; Mathias Ziegler (2018). Cooperation between subcellular NAD pools in the maintenance of NAD-dependent processes. (external link)
• Konstantin Shabalin; Kirill Nerinovski; Alexander Yakimov et al. (2018). NAD Metabolome Analysis in Human Cells Using 1H NMR Spectroscopy. (external link)
• Camila Cimadamore-Wer; Mathias Ziegler (2018). The generation and maintenance of the mitochondrial NAD pool is independent of mitochondrial NAD biosynthetic enzymes. (external link)
• Sylvia Varland; Henriette Aksnes; Fedor Kryuchkov et al. (2018). N-terminal acetylation levels are maintained during acetyl-CoA deficiency in Saccharomyces cerevisiae. (external link)
• Daniela Buonvicino; Francesca Mazzola; Federica Zamporlini et al. (2018). Identification of the Nicotinamide Salvage Pathway as a New Toxification Route for Antimetabolites. (external link)

2023

• Yu Hong; Cecilie Katrin Kristiansen; Anbin Chen et al. (2023). POLG genotype influences degree of mitochondrial dysfunction in iPSC derived neural progenitors, but not the parent iPSC or derived glia. (external link)
• Dorothee Houry; Arne Raasakka; Eugenio Ferrario et al. (2023). Identification of structural determinants of nicotinamide phosphoribosyl transferase (NAMPT) activity and substrate selectivity. (external link)
• Shivansh Goyal; Akhilesh Paspureddi; Mu-Jie Lu et al. (2023). Dynamics of SLC25A51 reveal preference for oxidized NAD⁺ and substrate led transport. (external link)
• Eugenio Ferrario; Juha Pekka Kallio; Øyvind Strømland et al. (2023). Novel Calcium-Binding Motif Stabilizes and Increases the Activity of Aspergillus fumigatus Ecto-NADase. (external link)
• Mathias Ziegler (2023). NAD as target for microbial attack. (external link)
• Mahdi Emdadi; Eugenio Ferrario; Juha Pekka Kallio et al. (2023). Screening for inhibitors in a path for developing novel antifungal agents. (external link)

2012

• Alberto Chiarugi; Christian Dølle; Roberta Felici et al. (2012). The NAD metabolome - a key determinant of cancer cell biology. (external link)
• Marc Niere; Masato Mashimo; Line Agledal et al. (2012). ADP-ribosylhydrolase 3 (ARH3), not poly(ADP-ribose)glycohydrolase (PARG) isoforms, is responsible for degradation of mitochondrial matrix-associated poly(ADP-ribose). (external link)
• Christian Dølle; Gennaro Agrimi; Ferdinando Palmieri et al. (2012). Identification of the pathways generating organellar NAD pools using targeted poly-ADP ribose formation. (external link)
• Tom S. Blacker; Zoe F. Mann; Jonathan E. Gale et al. (2012). Separation of NADPH and NADH Fluorescence Emission in Live Cells using Flim. (external link)
• Masato Mashimo; Marc Niere; Line Agledal et al. (2012). ARH3 catalyzes degradation of mitochondrial matrix-accumulated Poly (ADP-ribose). (external link)
• Toni Gossmann; Mathias Ziegler; Pål Puntervoll et al. (2012). NAD(+) biosynthesis and salvage - a phylogenetic perspective. (external link)

2017

• Magali R Van Linden; Marc Niere; Andrey Nikiforov et al. (2017). Compartment-Specific Poly-ADP-Ribose Formation as a Biosensor for Subcellular NAD Pools. (external link)
• Ingvill Tolås; Lena Elise Høyland; Magali R Van Linden et al. (2017). Insights into the peroxisomal NAD pool. (external link)
• Christian Dölle; Mathias Ziegler (2017). ADP-ribosylation of DNA moving into focus. (external link)

2013

• Herwig Schüler; Mathias Ziegler (2013). Pharmacology of ADP-ribosylation. (external link)
• Ines Heiland; Susanne Brandes; Anne-Kristin Stavrum et al. (2013). NAD-metabolism and the circadian clock. (external link)
• Friedrich Koch-Nolte; Mathias Ziegler (2013). Physiology of ADP-ribosylation. (external link)
• Marc Niere; Andrea Lapucci; Alberto Chiarugi et al. (2013). PAR-degrading, but not PAR-generating activities support the idea of PAR metabolism in mitochondria. (external link)
• Christian Dölle; Renate Hvidsten Skoge; Magali R Van Linden et al. (2013). NAD biosynthesis in humans - enzymes, metabolites and therapeutic aspects. (external link)
• V Livinskaya; A Afanasyeva; Christian Dölle et al. (2013). Potential role of cytosolic 5'- nucleotidases in human NAD metabolism. (external link)
• Anne-Kristin Stavrum; Ines Heiland; Stefan Schuster et al. (2013). Model of tryptophan metabolism, readily scalable using tissue-specific gene expression data. (external link)
• Christian Dölle; Johannes Gregor M Rack; Mathias Ziegler (2013). NAD and ADP-ribose metabolism in mitochondria. (external link)

2025

• Andrew John Summers; Mathias Ziegler; Marc Niere (2025). Functional Characterisation of Mitochondrial Coenzyme Transporters. (external link)
• Sofie Hindkjær Lautrup; Shi-qi Zhang; Shinichiro Funayama et al. (2025). Decreased mitochondrial NAD+ in WRN deficient cells links to dysfunctional proliferation. (external link)
• Suraj Sharma; Roland Sauter; Madlen Hotze et al. (2025). GEMCAT - a new algorithm for gene expression-based prediction of metabolic alterations. (external link)
• Jianying Zhang; Heling Wang; Sofie Hindkjær Lautrup et al. (2025). Emerging strategies, applications and challenges of targeting NAD+ in the clinic. (external link)

2001

• Marc Niere; Matthias Dettloff; Timm Maier et al. (2001). Insect immune activation by apolipophorin III is correlated with the lipid-binding properties of this protein. (external link)

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