A Next-generation Sequencing Approach to Study the Transcriptomic Changes During the Differentiation of Physarum at the Single-cell Level

Overview

Journal Gene Regul Syst Bio

Publisher Sage Publications

Date 2012 Oct 17

PMID 23071390

Citations 2

Authors

Israel Barrantes

Jeremy Leipzig

Wolfgang Marwan

Affiliations

Soon will be listed here.

Abstract

Physarum polycephalum is a unicellular eukaryote belonging to the amoebozoa group of organisms. The complex life cycle involves various cell types that differ in morphology, function, and biochemical composition. Sporulation, one step in the life cycle, is a stimulus-controlled differentiation response of macroscopic plasmodial cells that develop into fruiting bodies. Well-established Mendelian genetics and the occurrence of macroscopic cells with a naturally synchronous population of nuclei as source of homogeneous cell material for biochemical analyses make Physarum an attractive model organism for studying the regulatory control of cell differentiation. Here, we develop an approach using RNA-sequencing (RNA-seq), without needing to rely on a genome sequence as a reference, for studying the transcriptomic changes during stimulus-triggered commitment to sporulation in individual plasmodial cells. The approach is validated through the obtained expression patterns and annotations, and particularly the results from up- and downregulated genes, which correlate well with previous studies.

Citing Articles

Quantifying 35 transcripts in a single tube: model-based calibration of the GeXP multiplex RT-PCR assay.

Marquardt P, Werthmann B, Ratzel V, Haas M, Marwan W BMC Biotechnol. 2021; 21(1):29.

PMID: 33853570 PMC: 8048187. DOI: 10.1186/s12896-021-00689-4.

Transcriptome reprogramming during developmental switching in Physarum polycephalum involves extensive remodeling of intracellular signaling networks.

Glockner G, Marwan W Sci Rep. 2017; 7(1):12304.

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