A simple, rapid and accurate evaluation of the sugar uptake rate of suspended plant cells from culture media was developed with the predicted sugar contents measured by mid-infrared spectroscopy using a Fourier transform infrared (FT-IR) spectrometer equipped with an attenuated total reflectance (ATR) accessory. We performed plant cell cultivation with Nicotiana tabacum cv. Bright Yellow No.2 (TBY-2) in culture media, which had various combinations of glucose, fructose and sucrose concentrations at the initial stage, and measured simultaneously each sugar content in the medium by the FT-IR/ATR method. By applying a logistic function to the predicted sugar contents and cell density in the medium during cultivation, the specific sugar uptake rates by the suspended TBY-2 cells were easily and continuously obtained. Thus the kinetic sugar uptake phenomena by the TBY-2 cells were well confirmed overall using the developed method. Additionally it was found that the fraction of sucrose of the initial total sugar content might kinetically affect the sugar uptake process and cell growth. Also, the relationship between the nondimensional cell density and sucrose content could be classified into three groups on the basis of the initial fraction of sucrose.
In Japan,
Camellia japonica
and
Camellia rusticana
are naturally distributed. Despite differences in their habitats and morphologies, they have been classified by various researchers as either varieties, subspecies, or species. The taxonomic position of
C. japonica
and
C. rusticana
remain unclear because morphological comparisons have been restricted to limited areas and quantitative data are scarce.
C. rusticana
grows in snowy places, unlike
C. japonica
. While
C. japonica
displays ornithophily,
C. rusticana
displays entomophily. Both species have adapted to different growing environments and pollinators, which have altered the morphology of flowers and leaves. We therefore quantitatively estimated the differentiation between these two taxa by comparing the morphologies of leaf hypodermis, flower form, petal color, and filament color in twenty populations. Our findings allowed us to differentiate these two species by the presence or absence of a leaf hypodermis. We also discovered an intermediate type of leaf hypodermis, which might also be caused by hybridization. Principal component analysis (PCA) indicated that the flower morphologies between these species were significantly different. The petal and filament colors were also significantly different. Our quantitative analysis suggests that speciation caused by differences in both pollinators and environment is one of the factors involved in this group. These findings in
C. japonica
and
C. rusticana
help to explain speciation processes for other species as well.
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