Abstract
BackgroundThe multicellular alga Volvox carteri possesses only two cell types: mortal, motile somatic cells and potentially immortal, immotile reproductive cells. It is therefore an attractive model system for studying how cell-autonomous cytodifferentiation is programmed within a genome. Moreover, there are ongoing genome projects both in Volvox carteri and in the closely related unicellular alga Chlamydomonas reinhardtii. However, gene sequencing is only the beginning. To identify cell-type specific expression and to determine relative expression rates, we evaluate the potential of real-time RT-PCR for quantifying gene transcript levels.ResultsHere we analyze a diversified pool of 39 target genes by real-time RT-PCR for each cell type. This gene pool contains previously known genes with unknown localization of cellular expression, 28 novel genes which are described in this study for the first time, and a few known, cell-type specific genes as a control. The respective gene products are, for instance, part of photosynthesis, cellular regulation, stress response, or transport processes. We provide expression data for all these genes.ConclusionThe results show that quantitative real-time RT-PCR is a favorable approach to analyze cell-type specific gene expression in Volvox, which can be extended to a much larger number of genes or to developmental or metabolic mutants. Our expression data also provide a basis for a detailed analysis of individual, previously unknown, cell-type specifically expressed genes.
Highlights
The multicellular alga Volvox carteri possesses only two cell types: mortal, motile somatic cells and potentially immortal, immotile reproductive cells
- Subset F: New Volvox genes that were identified in this project via characterized homologs in other species but in which the status of cell-type specific expression is not predictable (15 genes: prfA, fsd1, rpl37, glu1, heat shock protein 70B (hsp70B), hsp40A, ubiquitin conjugating enzyme E2 (ubcA), ponA, mat3, vpeA, sac1, rcd1, adenylate cyclase (adcA), nipA, lciB)
The results show that quantitative real-time RT-polymerase chain reaction (PCR) is a favorable approach to analyze cell-type specific gene expression in Volvox carteri
Summary
The multicellular alga Volvox carteri possesses only two cell types: mortal, motile somatic cells and potentially immortal, immotile reproductive cells. Is the simplicity of Volvox auspicious for developmental biologists, but its phylogenetic relationships are promising: Volvox and its simpler, but closely related, unicellular and colonial relatives, the volvocine algae Chlamydomonas, Gonium, Pandorina, Eudorina and Pleodorina, provide a coherent family of organisms for studying the molecular evolution of multicellularity and cellular differentiation [4]. Another outstanding advantage of volvocine algae is that there are ongoing genome projects (page number not for citation purposes). Regarding the Volvox genome, which is about the same size as the Chlamydomonas genome, only shotgun sequences with 1× coverage are publicly available at the moment on the JGI sites, but the completed 8× coverage genomic data will be released before long; ~80 k ESTs have already been sequenced at JGI and will be released shortly
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