The genus Petroderma never been reported from the coast of Korea. In this study, our collection from Chaeseokang is matched with P. maculiforme morphologically. Petroderma maculiforme is characterized by having small irregular light to dark brown crusts, a basal layer of irregularly shaped cells giving rise to erect parallel filaments which easily separate with pressure, single chromatophore per cell, small spherical to cylindrical unilocular sporangia in a terminal position, and plurilocular sporangia narrower than erect filaments or wider and shorter than erect filaments in a terminal position. In addition, Hineksia sordida was also collected from Korea. It is mostly epiphytic and characterized by uniseriate filamentous thalli forming loose tangled masses, sparse and spiral branching, some long lateral branches, rhizoids occurring throughout the plant, plurilocular and unilocular sporangia scattered on separate plants. Our molecular analyses based on the rbcL gene reveal that our samples of P. maculiforme and H. sordida are nested within the clades of Petroderma and Hincksia, respectively. Therefore P. maculiforme and H. sordida are reported as new records from Korea based on morphological and molecular analyses.
Papenfussiella densa was described as Papenfussiella kuromo f. densa from Japan by Inagaki in 1958. P. densa has been recognized as an endemic and independent species based on the molecular analyses of type material without detailed morphological observations. In this study, Papenfussiella densa is reported as a new record from Dok-do, South Korea, based on morphological and molecular analyses. Papenfussiella densa is mainly characterized as having narrow, branched, slimy, and tomentose thalli with branchlets, partially hollow in the medulla of the middle part. The molecular analyses of the chloroplast rbc L-rbc S DNA sequence of the Papenfussiella densa sample from Korea revealed that it matched that of P. densa from Japan and was nested in the clade of Papenfussiella. There was only a 0.02% gene sequence divergence between the Korean and Japanese samples. We report P. densa as a new record from Korea and add this species to the list of Korean macroalgal flora.
Acinetospora filamentosa and Microspongium stilophorae are reported as new records from South Korea based on morphological and molecular analyses. A. filamentosa is mainly characterized by having the sparsely branched erect filaments, the scattered meristematic zones, forming crampons, plurilocular sporangia on both prostrate filaments and lower part of erect filaments, and spherical to oval unilocular sporangia formed either sessile or with a pedicel. M. stilophorae is an epiphytic thalli mostly on Stilophora sp. It is characterized by prostrate filaments with irregular cells, short erect filaments with short ramuli, phaeophycean hairs, uniseriate plurilocular sporangia on the terminal part of erect filament. Our molecular analyses of rbcL and cox1 genes reveals that A. filamentosa and M. stilophorae are nested within the clades of Acinetospora and Microspongium, respectively.
Acinetospora asiatica and Botrytella reinboldii are reported as two new records from S. Korea based on morphological studies and molecular analyses. A. asiatica is mainly characterized by the presence of sparsely branched uniseriate filaments with diffused meristematic zones, the formation of crampons at right angles, and the formation of plurilocular sporangia on both prostrate and erect filaments. B. reinboldii is characterized by the presence of irregularly alternating branched uniseriate filaments attached by rhizoids, and single or clustered plurilocular sporangia with a single opening. Molecular analyses of rbcL gene revealed that A. asiatica and B. reinboldii are placed within each clade of Acinetospora and Botrytella, respectively.
미역, 다시마, 톳 등 갈조류 3종이 산란계의 계란 품질에 미치는 영향을 조사하기 위해 기존의 양계사료(대조구)에 미역(A처리구), 다시마(B처리구), 톳(C처리구)을 각각 10% 첨가하여 8주간 사육한 후 생산된 계란의 표면색깔, fucoxanthin, 무기질, 지방산 조성을 분석한 결과는 다음과 같다. 갈조류 첨가에 의해 난황의 표면색깔은 적갈색으로 변화하는 경향이었고, 미역을 첨가한 A처리구가 가장 크게 일어났다. Fucoxanthin 함량은 원료 갈조류에서 21.3∼34.8 mg%로 검출되었으나, 난황으로 이행되었다고 확인할 수는 없었다. 무기질 함량으로 Ca은 300.2 mg%에서 328.2∼391.2 mg%로, Fe는 4.5 mg%에서 4.9∼6.3 mg%로, Na은 2.5 mg%에서 88.2∼99.7 mg%로, K는 350.8 mg%에서 402.2∼450.5 mg%로 증가하는 경향이었으나, P는 199.4 mg%에서 110.5∼149.5 mg%로 감소하는 경향으로 나타났다. 총 무기질 함량은 톳이 첨가된 C처리구에서 1,155.1 mg%로 가장 높게 나타났다. 지방산 조성으로 포화지방산은 38.3%에서 30.4∼32.1%로 감소하고 불포화지방산은 61.5%에서 68.1∼69.6%로 증가하였는데, 다가 불포화지방산에서 현저하게 증가하는 경향이었다.
갈조류 유래 alginate 성분은 간이식술에 있어서 cell microencapsulation시키는 matrix로써 임상적인 응용이 시도되고 있다. 이에 본 연구에서는 alginate의 간세포에 대한 안전성을 평가하기 위하여, 간세포를 자극하는 NO, iNOS, TGF-β1, IL-1β의 분비 및 발현량을 측정하였으며, 실험 결과 모두 증가시켰다. Alginate가 간세포를 자극하여 이러한 요소들을 증가시키는 것은 간염 및 간섬유화 등의 간질환을 일으킬 수 있다는 가능성을 제시하고 있으며, 이러한 결과는 간에 적용하는 alginate를 사용시에는 안전성이 요구되는 농도 조절 및 alginate의 자극 효과를 억제할 수 있는 새로운 재료의 첨가 등에 대한 고려를 제시할 수 있을 것으로 사료된다.
The biosorption and desorption of Cd were carried out using brown marine algae, known as the good biosorbent of heavy metals. The content of alginate bound to light metals could be changed by the physical and the chemical pretreatment of Sargassum fluitans biomass. The Cd uptake was independent of the alginate content. In case of protonated biomass, Cd uptake was the lowest because the alginic acid of biomass was dissolved to cadmium solution during the biosorption. The maximum Cd uptake of Sargassum biomass was ranged from 79㎎/g to 139㎎/g. In case of raw biomass, the higher the alginate content of biomass, the higher was the Cd uptake. 100% of Cd and light metals sorbed in the biomass were eluted at 0.1N HCl(pH 1.1). However, the elution efficiency in CaCl2 and Ca(NO3)2 solution was varied by the concentration, the solid to liquid ratio and the pH of calcium solution. The distribution coefficient between Cd and protons in the desorption solution at pH ranged from 1.6 to 2.9 was observed on the constant stoichometric coefficient(1.3).