Publikationsliste Prof. Dr. Claus-Peter Witte
2023
Chen X, Kim SH, Rhee S, Witte CP. A plastid nucleoside kinase is involved in inosine salvage and control of purine nucleotide biosynthesis. The plant cell. 2023 Jan 2;35(1):510-528.
Straube H, Straube J, Rinne J, Fischer L, Niehaus M, Witte CP et al. An inosine triphosphate pyrophosphatase safeguards plant nucleic acids from aberrant purine nucleotides. New Phytologist. 2023 Feb 2;237(5):1759-1775.
2022
Niehaus M, Straube H, Specht A, Baccolini C, Witte CP, Herde M. The nucleotide metabolome of germinating Arabidopsis thaliana seeds reveals a central role for thymidine phosphorylation in chloroplast development. The plant cell. 2022 Jul 21;34(10):3790-3813.
Voß L, Heinemann KJ, Herde M, Medina-Escobar N, Witte CP. Enzymes and cellular interplay required for flux of fixed nitrogen to ureides in bean nodules. Nature Communications. 2022 Sep 10;13(1). 5331.
doi.org/10.1038/s41467-022-33005-5
,2021
Heinemann KJ, Yang S-Y, Straube H, Medina-Escobar N, Varbanova-Herde M, Herde M et al. Initiation of cytosolic plant purine nucleotide catabolism involves a monospecific xanthosine monophosphate phosphatase. Nature Communications. 2021 Dez;12(1). 6846.
Kim S-H, Witte C-P, Rhee S. Structural basis for the substrate specificity and catalytic features of pseudouridine kinase from Arabidopsis thaliana. Nucleic acids research. 2021 Jan 11;49(1):491-503.
Rinne J, Witte C-P, Herde M. Loss of MAR1 Function is a Marker for Co-Selection of CRISPR-Induced Mutations in Plants. Frontiers in Genome Editing. 2021 Aug 9;3. 723384.
Straube H, Witte C-P, Herde M. Analysis of Nucleosides and Nucleotides in Plants: An Update on Sample Preparation and LC–MS Techniques. Cells. 2021 Mär 20;10(3). 689.
Straube H, Niehaus M, Zwittian S, Witte C-P, Herde M. Enhanced nucleotide analysis enables the quantification of deoxynucleotides in plants and algae revealing connections between nucleoside and deoxynucleoside metabolism. The plant cell. 2021 Feb;33(2):270-289.
2020
Chen M, Witte C-P. A Kinase and a Glycosylase Catabolize Pseudouridine in the Peroxisome to Prevent Toxic Pseudouridine Monophosphate Accumulation. The plant cell. 2020 Mär;32(3):722-739.