Abstract
Flow cytometry (FCM) is a commonly used method for estimating genome size in many organisms. The use of FCM in plants is influenced by endogenous fluorescence inhibitors and may cause an inaccurate estimation of genome size; thus, falsifying the relationship between genome size and phenotypic traits/ecological performance. Quantitative optimization of FCM methodology minimizes such errors, yet there are few studies detailing this methodology. We selected the genus Primulina, one of the most representative and diverse genera of the Old World Gesneriaceae, to evaluate the methodology effect on determining genome size. Our results showed that buffer choice significantly affected genome size estimation in six out of the eight species examined and altered the 2C-value (DNA content) by as much as 21.4%. The staining duration and propidium iodide (PI) concentration slightly affected the 2C-value. Our experiments showed better histogram quality when the samples were stained for 40 min at a PI concentration of 100 μg ml−1. The quality of the estimates was not improved by 1-day incubation in the dark at 4°C or by centrifugation. Thus, our study determined an optimum protocol for genome size measurement in Primulina: LB01 buffer supplemented with 100 μg ml−1 PI and stained for 40 min. This protocol also demonstrated a high universality in other Gesneriaceae genera. We report the genome size of nine Gesneriaceae species for the first time. The results showed substantial genome size variation both within and among the species, with the 2C-value ranging between 1.62 and 2.71 pg. Our study highlights the necessity of optimizing the FCM methodology prior to obtaining reliable genome size estimates in a given taxon.
Highlights
Genome size (C-value or the haploid nuclear DNA content) is significantly correlated with cell/nucleus sizes, cellular processes, and a range of ecologicalAbbreviations: CV, coefficient of variation; Flow cytometry (FCM), flow cytometry; PI, propidium iodide
Compounds in Primulina Leaves Inhibit PI-fluorescence The inhibition tests indicated the ratio of the mean fluorescence of nuclei (Standard 1) from simultaneously processed standard (S. lycopersicum or O. sativa ssp. japonica) with Primulina leaves to the mean fluorescence of nuclei (Standard 2) from independently processed standards
The effects of inhibition differ among species, which is more apparent in P. liguliformis, P. huaijiensis, P. linearifolia, and P. heterotricha
Summary
Plant Material Eight Primulina species (P. linearifolia, P. huaijiensis, P. heterotricha, P. liguliformis, P. roseoalba, P. lunglinensis, P. hedyotidea, and P. subrhomboidea) with different phenotypic and ecological traits were selected to test the effects of FCM methodology. “Stupické polni rané” (2C = 1.96 pg, Doležel et al, 1992) was selected as an appropriate primary reference standard. Japonica (2C = 0.86–0.90 pg, Arumuganathan and Earle, 1991), whose 2C-value was further calibrated against S. lycopersicum (10 replicates on different days), was chosen as a secondary reference standard. Japonica and S. lycopersicum were obtained from the South China Botanical Garden, the Chinese Academy of Sciences, and the Laboratory of Molecular Cytogenetics and Cytometry (Olomouc, Czech Republic), respectively. Seedlings of the references were grown and kept in greenhouses at the South China Botanical Garden
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