Floridoside,L-Isofloridoside,and D-Isofloridoside in the Red Alga Porphyra columbina (Seasonal and Osmotic Effects)

The quantitative heteroside distribution in Porphyra columbina Montagne and Bangia atropurpurea (Roth) C. Agardh (Bangiales, Rhodophyta) has been measured using 13C-nuclear magnetic resonance spectroscopy and gas-liquid chromatography. In P. columbina, floridoside and both D- and L-isofloridoside were recorded, with concentrations of L-isofloridoside exceeding those of floridoside. All three compounds were also measured in B. atropurpurea. Marked changes in the relative amounts of the heterosides were recorded throughout the season. The role of L-isofloridoside in the osmotic acclimation of P. columbina has been demonstrated.     

LOW MOLECULAR WEIGHT CARBOHYDRATES OF THE BANGIOPHYCIDAE (RHODOPHYTA)1

In the order Porphyridiales there are three clades based on molecular evidence. These show parallels with the low molecular weight carbohydrate (LMWCs) in different genera. Clade Porphyridiales 1 includes Dixoniella, Glaucosphaera, Rhodella, and one undescribed genus (3987) that all contain mannitol. Clade Porphyridiales 2 comprises taxa of the Stylonematales Rhodosorus and Stylonema species and contains digeneaside and sorbitol, whereas Chroodactylon has only sorbitol. In clade Porphyridiales 3 Flintiella, Porphyridium, and the undescribed genus (3797) all possess only floridoside. In the Erythropeltidales Rhodochaete contains floridoside and digeneaside, Erythrotrichia species contain only floridoside, Sahlingia subintegra has floridoside and traces of D‐floridoside, and Smithora has L‐isofloridoside plus floridoside. In the Compsopogonales Boldia and Compsopogon have only floridoside. Within these genera as presently circumscribed, the LMWCs appear to be a reliable character to supplement the usual cytological characters.     

STRUCTURAL AND SEQUENCE SIGNATURES OF NUCLEAR SSU RRNA DEFINE TAXONOMIC LEVELS WITHIN THE RHODOPHYTA

Over 400 nuclear SSU rRNA sequences representing all orders of the Rhodophyta were aligned and analyzed using comparative sequence analysis. Numerous nucleotide positions and structural elements were found that delineated various taxonomic groups. The 1245 region (E. coli numbering) contained a loop that differed in size between two conserved helices and clearly separated the Florideophyceae [3 nt (>95% of 268 sequences)], Bangiales [13 to 14 nt (100% of 116 sequences)] and remaining Bangiophyceae including the Cryptophyta nucleomorphs [four to eight nt (100% of 32 sequences)]. In addition, members of the Thoreaceae were found to have additional helices in the 650 and 1139 region of which a corresponding structure was not present in any other red algal SSU rRNA gene sequence. Base‐pair and nucleotide signatures differentiated the Bangiales, Florideophyceae, Bangiophyceae (not including Bangiales) and Hildenbrandiales at three levels of comparison: within the Rhodophyta (>400 sequences), the Eukaryota (not including Rhodophyta;> 1300 sequences) and three kingdom (Archaea, Bacteria, 2 organelles, Eukaryota;> 7000 sequences). For example, all members of the Hildenbrandiales have a change in the base‐pair 512:539 that is a region of functional importance. Sequences from the Eukaryota, Archaea, Bacteria and two organelles have a C:G or a U:A in this position whereas the Hildenbrandiales have a C:A pair. This analysis raises the possibility of utilizing structural features of nuclear SSU rRNA and sequence signatures to support and delineate phylogenetic clades within the Rhodophyta.     

COMBINED EFFECTS OF MACRONUTRIENTS AND METALS ON THE ADRIATIC GREEN ALGA ULVA RIGIDA C.AG.

Over 400 nuclear SSU rRNA sequences representing all orders of the Rhodophyta were aligned and analyzed using comparative sequence analysis. Numerous nucleotide positions and structural elements were found that delineated various taxonomic groups. The 1245 region ( E. coli numbering) contained a loop that differed in size between two conserved helices and clearly separated the Florideophyceae [3 nt (>95% of 268 sequences)], Bangiales [13 to 14 nt (100% of 116 sequences)] and remaining Bangiophyceae including the Cryptophyta nucleomorphs [four to eight nt (100% of 32 sequences)]. In addition, members of the Thoreaceae were found to have additional helices in the 650 and 1139 region of which a corresponding structure was not present in any other red algal SSU rRNA gene sequence. Base-pair and nucleotide signatures differentiated the Bangiales, Florideophyceae, Bangiophyceae (not including Bangiales) and Hildenbrandiales at three levels of comparison: within the Rhodophyta (>400 sequences), the Eukaryota (not including Rhodophyta;> 1300 sequences) and three kingdom (Archaea, Bacteria, 2 organelles, Eukaryota;> 7000 sequences). For example, all members of the Hildenbrandiales have a change in the base-pair 512:539 that is a region of functional importance. Sequences from the Eukaryota, Archaea, Bacteria and two organelles have a C:G or a U:A in this position whereas the Hildenbrandiales have a C:A pair. This analysis raises the possibility of utilizing structural features of nuclear SSU rRNA and sequence signatures to support and delineate phylogenetic clades within the Rhodophyta.     

Impact of the salt stress on the photosynthetic carbon flux and C-label distribution within floridoside and digeneaside in Solieria chordalis

The flux of photosynthetic carbon used in the synthesis of low-molecular weight carbohydrates (digeneaside and floridoside) was investigated by ¹³C and ¹H NMR spectroscopy in samples of the red seaweed, Solieria chordalis, incubated at different salinities (22, 34 and 50 psu). Carbohydrates were labelled, by pulse-chase, with the stable isotope ¹³C from NaH¹³CO₃. In vivo NMR analyses carried out with a cryogenic probe optimised for ¹³C detection were performed directly on the living algal tissues to evidence the labelling of the carbohydrates with neither preliminary extraction nor purification step(s). The isotopic enrichment of each compound was determined by high-resolution ¹H and ¹³C NMR spectroscopy. These analyses evidenced different orientations of the flux of the photosynthetic carbon in the algae according to the salt stress. At normal and low salinities, the photosynthetic carbon flux was responsible of 70% and 67% of the floridoside synthetized during the pulse period, respectively, whereas it was only of 30% in the thalli exposed to the high salinity, meaning a biosynthesis of high floridoside amount from endogen source leading to the osmotic regulation. Under normal and hyper-osmotic conditions, the stock of floridoside was used for cellular needs during the chase period, whereas it was not under hypo-osmotic conditions.The characterization of isotopomers composition of floridoside and digeneaside and the analysis of adjacent ¹³C-labelling gives much more details on the effects of salinity on the metabolic pathways leading to the synthesis or the degradation of these molecules. High turnover of floridoside was evidenced at normal salinity during the chase period and products issued from the degradation of floridoside would not be used for the novo biosynthesis. That suggests that synthesis and degradation of floridoside may be realized in two different cellular compartments. The presence of more numerous ¹³C-¹³C blocks in the carbon skeleton of the molecules from the up salt stressed thalli than in those from no salt stressed algae, concomitant with a slower degree of isotopic enrichment of the molecule, provided evidence that the two metabolic pathways (endogen and photosynthetic) may not share the precursor molecules involved in the floridoside synthesis and that these two routes may be totally separate until the constitution of floridoside molecule.     

Low MW carbohydrates and ions in rhodophyceae: Quantitative measurement of floridoside and digeneaside

The content of the heterosides floridoside and digeneaside and of the main ions Na⁺, K⁺, and Cl^? was estimated in 20 species of the Rhodophyceae. Methods for quantitative determination of the heterosides are described. The floridoside content is in the range of 1.5–8% on a dry weight basis (Catenella: up to 22%); the content of digeneaside, exclusively found in species of the Ceramiales, is lower, in the range of 1–2.2% on a dry weight basis. All species investigated have Cl^? as main anion, while there is a remarkable diversity in cation composition. Na⁺ was the major cation in 12 of the species investigated, the others having K⁺ as main cation.     

Carotenogenesis diversification in phylogenetic lineages of Rhodophyta

Carotenoid composition is very diverse in Rhodophyta. In this study, we investigated whether this variation is related to the phylogeny of this group. Rhodophyta consists of seven classes, and they can be divided into two groups on the basis of their morphology. The unicellular group (Cyanidiophyceae, Porphyridiophyceae, Rhodellophyceae, and Stylonematophyceae) contained only β‐carotene and zeaxanthin, “ZEA‐type carotenoids.” In contrast, within the macrophytic group (Bangiophyceae, Compsopogonophyceae, and Florideophyceae), Compsopogonophyceae contained antheraxanthin in addition to ZEA‐type carotenoids, “ANT‐type carotenoids,” whereas Bangiophyceae contained α‐carotene and lutein along with ZEA‐type carotenoids, “LUT‐type carotenoids.” Florideophyceae is divided into five subclasses. Ahnfeltiophycidae, Hildenbrandiophycidae, and Nemaliophycidae contained LUT‐type carotenoids. In Corallinophycidae, Hapalidiales and Lithophylloideae in Corallinales contained LUT‐type carotenoids, whereas Corallinoideae in Corallinales contained ANT‐type carotenoids. In Rhodymeniophycidae, most orders contained LUT‐type carotenoids; however, only Gracilariales contained ANT‐type carotenoids. There is a clear relationship between carotenoid composition and phylogenetics in Rhodophyta. Furthermore, we searched open genome databases of several red algae for references to the synthetic enzymes of the carotenoid types detected in this study. β‐Carotene and zeaxanthin might be synthesized from lycopene, as in land plants. Antheraxanthin might require zeaxanthin epoxydase, whereas α‐carotene and lutein might require two additional enzymes, as in land plants. Furthermore, Glaucophyta contained ZEA‐type carotenoids, and Cryptophyta contained β‐carotene, α‐carotene, and alloxanthin, whose acetylenic group might be synthesized from zeaxanthin by an unknown enzyme. Therefore, we conclude that the presence or absence of the four enzymes is related to diversification of carotenoid composition in these three phyla.     

Separation of floridoside and isofloridosides by HPLC and complete (1)H and (13)C NMR spectral assignments for D-isofloridoside

Isofloridosides (1-O-alpha-D-galactopyranosylglycerol) and floridoside (2-O-alpha-D-galactopyranosylglycerol) were extracted from the red alga Porphyra umbilicalis (Linné) Kützing (Bangiales, Rhodophyta). Their separation was achieved by HPLC (NH(2) P50 column) after successive purification of the crude extract by ion-exchange chromatography and HPLC (Sugar-Pak TM1 column). 1D and 2D NMR spectroscopy experiments allowed to completely assign the (1)H and (13)C spectra of D-isofloridoside.     

In-situ identification of major metabolites in the red alga Gracilariopsis lemaneiformis using high-resolution magic angle spinning nuclear magnetic resonance spectroscopy

The content of low-molecular-weight compounds in the red alga Gracilariopsis lemaneiformis [(Bory) Dawson, Acleto, et Foldvik] has been analysed in-situ using high-resolution magic angle spinning (HR-MAS) nuclear magnetic resonance (NMR) spectroscopy. The major heteroside was shown to be floridoside, but digeneaside and isofloridoside were also detected in the alga. Other major components were isethionic acid and the amino acids taurine and citrulline. The results from the HR-MAS NMR analysis were confirmed with high-resolution NMR spectroscopy, high-resolution fast atom bombardment mass spectrometry (FABMS) and GC-MS, on material isolated from the studied alga, but also on authentic samples. Received: 2 February 1998 / Accepted: 9 April 1998     

Living in the intertidal zone - seasonal effects on heterosides and sun-screen compounds in the red alga Bangia atropurpurea (Bangiales)

The seasonal patterns of daylength and ultraviolet radiation (UVB and UVA) at Williamstown, Victoria, Australia were measured (October 1995-May 1996) and are considered in relation to levels of heterosides (soluble sugar compounds: D-isofloridoside, floridoside and L-isofloridoside) and sun-screen compounds (mycosporine-like amino acids: MAAs) in the intertidal red alga Bangia atropurpurea. UVB peaked in December-January at 2.2-2.4 W m(-2) and UVA also peaked at 70 W m(-2) in the same period. Total heteroside concentrations were highest (1230-1900 mmol kg(-1) dry weight) during November-December with floridoside and D-isofloridoside being 90% of the total. In late February through mid-April total heteroside contents were lower (315-905 mmol kg(-1) dry weight) with L-floridoside being as much as 34% of the total indicating a seasonal effect. Total MAAs varied from 3.4 to 7.1 mg g(-1) dry weight (mean 4.9 mg g(-1) dry weight) with both highest and lowest levels occurring in February. Porphyra-334 constituted 83 to 97% of this total with asterina-330, palythine and palythinol being 3-17%. Although maximum MAA concentrations did not show any significant parallel with the peak UV values, the quantitative data point to Bangia cells over the course of the seasons always loaded up with these photoprotective compounds.     

Low Molecular Weight Carbohydrate Patterns in Geographically Different Isolates of the Eulittoral Red Alga Bostrychia tenuissima from Australia

Sixteen isolates of the red alga, Bostrychia tenuissima King et Puttock, from New South Wales, Victoria and South Australia were cultured in the laboratory and analysed for low molecular weight carbohydrates using ¹³C-NMR and HPLC techniques. All populations south of 34 °S contain D-sorbitol in combination with the heteroside digeneaside. The isolates north of 34° S lack digeneaside, but contain D-sorbitol and, in addition, an isomeric form D-dulcitol. Moreover, the ¹³C-NMR spectra showed an unknown metabolite which was only measured in combination with digeneaside. While in the strains south of 34 °S digeneaside and the unknown compound occur in small quantities and remained unchanged with increasing salinities (5–60 ppt), the relatively high D-sorbitol contents strongly increased under hypersaline conditions. In the populations north of 34 °S both the concentrations of D-sorbitol and D-dulcitol increased with increasing salinity. These data demonstrate the important role of polyols in the osmotic acclimation of B. tenuissima. The ecological and/or biological factors controlling this geographical pattern of metabolite content are not known. However, the different carbohydrate patterns within B. tenuissima are considered as indicators of the development of physiological ecotypes.     

A comparative study on hypolipidemic activities of high and low molecular weight chitosan in rats

The hypolipidemic activities of high (712.6kDa) and low (39.8kDa) molecular weight chitosan (HMWC and LMWC) were evaluated in rats fed high-fat diets. Thirty-two male Sprague-Dawley rats in four groups were fed on three high-fat diets with each of them containing HMWC, LMWC or cellulose (high-fat control), and a control normal-fat diet for eight weeks. Compared with HMWC group, LMWC group showed decreased body weight gain, serum total cholesterol (TC) and low-density lipoprotein cholesterol (LDL-C), as well as decreased liver triglyceride (TG). Fecal fat and cholesterol of LMWC group was lower than those of HMWC group. However, the activities of liver and serum lipoprotein lipase (LPL) of LMWC group were increased compared with HMWC group. The obtained results suggested that hypolipidemic activity of LMWC was better than HMWC, which might be partially attributed to the increase of serum and liver LPL activities.     

Free radical-induced chitosan depolymerized products protect calf thymus DNA from oxidative damage

Low molecular weight chitosan (LMWC) and chitooligosaccharides (COs), obtained by persulfate-induced depolymerization of chitosan showed scavenging of OH. and O2.- radicals and offered protection against calf thymus DNA damage. Over 85% inhibition of free radicals and DNA protection were observed. LMWC (0.05 micromol) showed a strong inhibitory activity compared to COs (3.6 micromol). Further, LMWC showed calf thymus DNA condensation reversibly giving stability, as evident from CD, TEM and melting curves (Tm). A fluorescence study suggests the binding of LMWC in the minor groove, forming H-bonds to the backbone phosphates without distorting the double helix structure.     

红藻糖苷对超低温冻存微藻的保护作用

为研究红藻糖苷对超低温冻存微藻细胞的保护作用,研究将3种不同的微藻置于含10% DMSO和不同浓度红藻糖苷的冻存液中,冻存并解冻后,以流式细胞仪检测细胞存活率,测定复养后藻株的生长曲线及相关生理参数。结果显示,由于冷冻损伤,冻存后各种藻细胞的生长速率、细胞密度及生理指标都显著性下降,而红藻糖苷协同DMSO能够显著增加细胞的存活率,尤其15%红藻糖苷能将紫球藻存活率提升20%（P0.05）;生长曲线得到明显改善;且对PSII最大光能转化效率也有显著性提高（P0.05）。总体结果来看,红藻糖苷对超低温冻存微藻,特别是紫球藻具有明显的保护作用,且效果强于蔗糖。     

The effect of sugars and free amino acids from the freshwater prawn Macrobrachium rosenbergii hemolymph on lectin activity and on oxidative burst

We determined the effect of low molecular weight components (LMWC) from healthy juvenile and adult Macrobrachium rosenbergii hemolymph on lectin activity and oxidative burst (OB) in hemocytes. In an attempt to identify the LMWC that affect the lectin's hemagglutinating activity or oxidative burst, we determined the hemolymph carbohydrates and free amino acids (FAA) concentration. The LMWC (<2000 Da) were obtained after dialysis of the hemolymph. Our results showed that LMWC from juveniles exerted a greater inhibition on lectin than LMWC from adult hemolymph. Production of superoxide radicals by hemocytes was lower in the presence of juvenile (p<0.05) as compared to adult LMWC. FAA composition of the hemolymph and of LMWC from adults showed higher proportion of alanine (which corresponded to 25% of total FAA) and proline (>20%); whereas, in juveniles, the main FAA identified were glycine (>40%) and alanine (26%). N-Acetyl-D-glucosamine (GlcNAc) was the main sugar residue in the hemolymph and LMWC from juveniles; its concentration was 2.4 times higher than glucose (Glc), whereas, in adults, Glc was the main free sugar residue. Our results suggest that the proportion of FAA and carbohydrates in the hemolymph of M. rosenbergii seems to be correlated with the maturation process; furthermore, the high proportion of free GlcNAc and glycine regulate, in the juvenile stage, lectin activity and cellular oxidative mechanisms, respectively.     

X-ray structure of a sodium salt of digeneaside isolated from red alga Ceramium botryocarpum

X-ray diffraction analysis has been recently used to determine the crystal structure of the floridoside (2-O-α-d-galactopyranosylglycerol) isolated from red alga Palmaria palmata and Dilsea carnosa, respectively [Simon-Colin, C.; Michaud, F.; Léger, J.-M.; Deslandes, E. Carbohydr. Res.2003, 338, 2413-2416; Vonthron-Senechau, C.; Sopkova-de Oliveira Santos. J.; Mussio, I.; Rusig, A. M. Carbohydr. Res. 2008, 343, 2697-2698]. In this present study, a similar analysis was performed on another compound belonging to the glycopyranosyl-glycerols family present in red algae, digeneaside. The crystal structure of a hydrated sodium salt of digeneaside (sodium 2-O-α-d-mannopyranosyl-d-glycerate monohydrate) was determined by single-crystal X-ray diffraction analysis at 110 ± 3 K. The space group is C2 with Z = 4, a = 17.9315(12), b = 6.2693(4), c = 10.7805(7) Å, beta = 90.746(7)°.     

Regenerating Activity and Antibacterial Effect of Low-Molecular-Weight Chitosan

The antibacterial activity of two low-molecular-weight chitosans (LMWCs) was studied using two wound cultures: E. coli 1157 and St. albus. Both LMWCs exhibited antibacterial affect. The would-healing effect of methylcellulose gels comprising LMWCs (72 or 11 kDa) was studied. It was shown that wound-healing properties of gels depend on the molecular weight and concentration of LMWCs. The healing activity of LMWCs was assessed judging by the wound half-closure time. The gels exhibiting the greatest healing rate contained 2% 72-kDa LMWC or 0.1% 11-kDa LMWC. The composition of the oligomeric fraction of the 11-kDa LMWC was studied by HPLC. It was shown that the oligomeric moiety of the 11-kDa LMWC represents a mixture of oligomers with a large admixture of monomers (30.82%).     

Low molecular weight chitosans: preparation with the aid of papain and characterization

Low molecular weight chitosans (LMWC) of different molecular weight (4.1-5.6 kDa) were obtained by the depolymerization of chitosan using papain (from Carica papaya latex, EC. 3.4.22.2) at optimum conditions of pH 3.5 and 37 degrees C for 1-5 h. Scanning electron microscopy (SEM) showed approximately 15-fold decrease in the particle size after depolymerization. Decrease in the molecular weight was associated with decrease in the degree of acetylation (DA) as evidenced by circular dichroism (CD), FT-IR and solid-state CP-MAS 13C-NMR data. X-ray diffraction pattern revealed slight decrease in the crystallinity index (CrI) whereas the 13C-NMR data showed molecular inhomogeneity. LMWC showed lytic effect towards Bacillus cereus and Escherichia coli more efficiently than native chitosan. The growth inhibitory effect was maximal towards B. cereus, with minimum inhibitory concentration (MIC) of 0.01% (w/v).     

Low molecular weight chitosan--preparation with the aid of pepsin, characterization, and its bactericidal activity

Pepsin (EC 3.4.4.1) from porcine stomach mucosa caused depolymerization of a chitosan sample (a copolymer of glucosamine and N-acetylglucosamine linked by beta-1-4-glycosidic bonds). N-terminal sequence and zymogram analyses confirmed dual (proteolytic and chitosanolytic) activities of pepsin. Optimum depolymerization occurred at pH 5.0 and 45 degrees C with an activity of 4.98 U. Low molecular weight chitosan (LMWC), the major depolymerization product, was obtained in a yield of 75-82%, the degree of polymerization of which depended on reaction time. The LMWC showed a nearly 10-14-fold decrease in the molecular mass as compared to native chitosan, which was also confirmed by GPC and HPLC analyses. IR and 13C NMR spectra indicated a decrease in the degree of acetylation (DA, approximately 13.4-18.8%) as compared to native chitosan (approximately 25.7%), which was in accordance with the CD analysis. Native chitosan had a crystallinity index (CrI) of approximately 70%, whereas there was a decrease in the CrI of LMWC (approximately 61%). The latter showed a better bactericidal activity toward both Bacillus cereus and Escherichia coli, which was more toward the former. The bactericidal activity was essentially due to the lytic and not static effect of LMWC, as evidenced by the pore formation on the bacterial cell surface when observed under SEM. This study suggests the possible use of pepsin in place of chitosanase, which is expensive and unavailable in bulk quantities for the production of LMWC of desired molecular mass that has diversified applications in various fields.     

13C-NMR spectroscopy as a tool to study organic osmolytes in the mangrove red algal genera Bostrychia and Stictosiphonia (Ceramiales)

Field and culture samples of the red algal genera Bostrychia and Stictosiphonia from all around the world were analyzed for the polyols D-sorbitol and dulcitol, that function as osmolytes, as well as for the heteroside digeneaside by using ¹³C-NMR spectroscopy and HPLC. While all plants exhibited D-sorbitol, the occurrence of dulcitol and digeneaside was highly variable. Therefore, different types of low molecular weight carbohydrate distribution patterns were found in Bostrychia and Stictosiphonia. The presence of D-sorbitol seems to be a reliable chemosystematic character for both genera, because no other red alga is known to contain this compound. The lack of dulcitol may be correlated with the geographical origin of the Bostrychia and Stictosiphonia samples: while all tropical isolates exhibited both sugar alcohols, in cold-temperate plants only D-sorbitol was determined. In warm-temperate species, however, both polyol distribution types may occur. These data are discussed in terms of possible temperature sensitivity of the dulcitol pathway. However, the biological function of digeneaside (the main photo-assimilated compound in members of the order Ceramiales) is still obscure.