Monthly changes in the content of fucans, their constituent sugars and sulphate in cultured Laminaria japonica

Honya, Masura; Mori, Hiroe; Anzai, Michiko; Araki, Yasufumi; Nisizawa, Kazutosi

doi:10.1007/978-94-011-4449-0_49

Cited by 25 publications

(31 citation statements)

References 15 publications

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“…Seaweeds in shallow region are exposed to sunlight during low tide and so would be expected to have more amount of fucoidan as they develop defence mechanisms against dryness [24] . Since, Hare Island is characterized with shallow coastal shore with the depth of less than 1 feet, where seaweeds are often exposed to sunlight during low tide, the weeds collected from this region gave higher yields when compared to those collected from Valinokkam, which has rocky shores with depth more than 1 m. Another fact that supports this theory is that seaweeds when exposed to sunlight, their sugar content would increase and the UV rays of sunlight might destroy cellular constituents [25] .…”

Section: Resultsmentioning

confidence: 85%

“…A similar pattern was observed for other species, S. oligocystum and S. longifolium. Few studies have earlier reported that variations in the yield of fucoidan and its derivatives are affected by the season in which seaweeds are collected [25] and plant maturity [27] . The authors also reported a correlation between fucoidan yield and seasonality; and more fucoidan was obtained during the reproductive stages of the seaweed.…”

Section: Resultsmentioning

confidence: 99%

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Influence of Species, Geographic Location, Seasonal Variation and Extraction Method on the Fucoidan Yield of the Brown Seaweeds of Gulf of Mannar, India

Rani¹

2017

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Rani, et al.: Extraction Method on the Yield of Brown SeaweedsBrown seaweeds such as Sargassum wightii, S. oligocystum, Padina tetrastromatica and Turbinaria ornata were collected from two locations, Valinokkam and Hare Island in Gulf of Mannar, South East coast of India, to extract fucoidan and to analyse its variation in the yield for a period from July 2012 to January 2013. Water and acid extraction methods were followed to extract fucoidan. Water extraction yielded much higher fucoidan (9.46±0.18) than acid method (1.63±0.05). The yield of fucoidan also varied between the species, season and also geographic location. The highest yield was obtained from P. tetrastromatica (9.46±0.18%) followed by T. ornata (5.83±0.07%) and S. wightii (3.90±0.05%). The yield was higher during maturation stage of the algae, which was September for T. ornata and S. wightii and January for P. tetrastromatica. Seaweeds found in shallow region gave higher yield (Hare Island) than those collected from more than 1 m depth in Valinokkam region. Compositional analysis of fucoidan revealed that sulphate content was higher in T. ornata (24.27±0.85%) than P. tetrastromatica (22.70±0.53%) and S. wightii (18.73±0.82%). The fucose content was higher in P. tetrastromatica (54.51±1.08) and lower in S. oligocystum (43.16±3.21). Fourier transform infrared spectroscopy carried out for the two dominant species viz. P. tetrastromatica and S. oligocystum, showed a major broad band centered around 3448 cm -1 assigned to be due to hydrogen bonded O-H stretching vibration. Another two bands appeared at 723 cm -1 and 601 cm -1 seem to be the characteristic of C-O-S stretching of sulphate group and C=C-H stretching vibration, respectively in both the species. However, the major differences among the species were the presence of a minor band at 2103.73 cm -1 in P. tetrastromatica and slight shifts noticed in sulphate group band.

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Section: Resultsmentioning

confidence: 85%

Section: Resultsmentioning

confidence: 99%

Influence of Species, Geographic Location, Seasonal Variation and Extraction Method on the Fucoidan Yield of the Brown Seaweeds of Gulf of Mannar, India

Rani¹

2017

ijps

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“…Fucoidan is a sulfated fucan that contains other sugars, such as galactose, xylose, and uronic acid; it mainly consists of sulfated L-fucose, which can be easily extracted from the cell wall of brown algae by hot water [15] or acid solution [16]. The molecular structure of fucoidan differs depending on the algal species [15,17], extraction process [18], season of harvest, and local climatic conditions [16,19]. Although brown algal fucoidans are complex and heterogeneous, recent structural analyses have revealed the presence of ordered repetitive fucoidan units in several species [20].…”

Section: Brown Algaementioning

confidence: 99%

Industrial-scale bioethanol production from brown algae: Effects of pretreatment processes on plant economics

2015

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“…As has been established, the content of polysaccharide in tissues of algae and its structure significantly vary during the year [2,54,72,96,102], which is supposedly determined by seasonal variations in such abiotic factors as tem perature, the concentration of mineral nutrients, and illumination [27,96]. However, there is no experimen tal evidence that these environmental factors regulate fucoidan accumulation and its compositional struc ture.…”

Section: Biosynthesis Of Fucoidans In Brown Algaementioning

confidence: 99%

“…The contents and compositional structure of sul fated polysaccharides depend on the age of algae to a significant extent. Several researchers have found a higher fucoidan content in the tissues of old algae as compared to young ones [54,111]. Moreover, old algae were shown to synthesize fucoidans with a higher fucose content than young algae do [111].…”

Section: Biosynthesis Of Fucoidans In Brown Algaementioning

confidence: 99%

Fucoidans of brown algae: Biosynthesis, localization, and physiological role in thallus

Скрипцова

2015

Russ J Mar Biol

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The issues of the structure and biosynthesis of fucose containing sulfated polysaccharides are considered in this review; the data on the localization of fucoidans in tissues and their significance for algae are provided. Fucoidans participate in the building of cell walls and the support of their structure, as well as in extrusion of spores and gametes from reproductive organs. Due to the sulfated groups, these polysaccha rides can bind cations (mainly K + , Na + , Ca 2+ , Mg 2+ ) and participate in ion exchange with the environment, which facilitates adaptation of algae to water salinity fluctuations and to the toxic effects of heavy metals. Fucoidans play a substantial role in morphogenesis of zygotes of fucoid algae, as they participate in establish ing the cell polarity and fixing the cell division axis, thus determining the direction for the development of the rhizoidal and apical poles of young thalli.

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Monthly changes in the content of fucans, their constituent sugars and sulphate in cultured Laminaria japonica

Cited by 25 publications

References 15 publications

Influence of Species, Geographic Location, Seasonal Variation and Extraction Method on the Fucoidan Yield of the Brown Seaweeds of Gulf of Mannar, India

Influence of Species, Geographic Location, Seasonal Variation and Extraction Method on the Fucoidan Yield of the Brown Seaweeds of Gulf of Mannar, India

Industrial-scale bioethanol production from brown algae: Effects of pretreatment processes on plant economics

Fucoidans of brown algae: Biosynthesis, localization, and physiological role in thallus

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