Transcriptome and functional analyses of phenotypic plasticity in sea grape Caulerpa okamurae.

Caulerpa is a marine green macroalga distinguished by a large single cell with multiple nuclei. It also exhibits remarkable morphological intraspecies variations, in response to diverse environmental types. However, the molecular mechanisms underlying this phenotypic plasticity remain poorly understood. In this work, we compare the transcriptomes of Caulerpa okamurae Weber Bosse, 1897 displaying altered phenotypes of cultivation and natural phenotypes and investigate significantly regulated genes and their biological functions using differential expression analyses. We observe light-harvesting complex upregulation and cellular framework stability downregulation in altered phenotypes compared to the natural phenotypes. Intertidal macrophytes reduce light capture to avoid photodamage and regulate their morphology to protect against wave damage. In contrast, the lower light conditions and the cultivation environment augment light capture and increase a morphology prioritizing light trapping. Moreover, the addition of simulated wave-sweeping stimuli induces a return to the natural morphology under high-light conditions, showing how mechanical stress affects morphological organization in C. okamurae. We provide detailed gene expression patterns in C. okamurae under varying light intensities and water conditions, suggesting a distinct influence on its morphological traits.

Molecular characteristics of polysulfated fractions from the green seaweed Caulerpa cupressoides and actions on thrombin generation in vitro

Caulerpa cupressoides produces sulfated polysaccharides (Cc-SPs) with serpin-dependent anticoagulant effect, but their actions on thrombin generation (TG) are unknown. This study aimed to partially characterize Cc-SPs and examine their potential as modulators of TG. Infrared analysis characterized extract containing three ulvan fractions (Cc-SP1, -SP2 and -SP3) separated by DEAEcellulose chromatography, with differences in the relative proportions of sulfate (10.99-18.38%) and total sugars (46.59-51.12%), without presenting proteins. Charge density patterns and nonSPs varying from 8 to > 100 kDa on agarose and polyacrylamide gel electrophoresis by sequential staining with toluidine blue and stains-all were also confirmed by gel permeation chromatography. The molecular weight of Cc-SP2 was not altered after treatment with 0.4 M HCl up to 5 h. Only Cc-SP2 altered the activated partial thromboplastin time (15 ± 0.3 IU) vs. heparin (193 IU) and abolished at high concentrations (> 4.1 μg) TG by intrinsic pathway in 60-fold diluted human plasma, while at 4.1 μg attenuated TG by 33.87% delaying the lag phase (32 min.) vs. control (28 min.). Cc-SP2 induced concentration-dependent TG in system without cephalin. Heparin abolished TG at 4.15-fold lower amount, but did not stimulate TG. Therefore, Cc-SPs express dual effects on thrombosis in vitro.