Sugar composition of the pectic polysaccharides of charophytes, the closest algal relatives of land-plants: Presence of 3-O-methyl-d-galactose residues

Annals of Botany

Volumn 116, Issue 2, 2015, Pages 225-236

  O'Rourke, Christina ^a   Gregson, Timothy ^a   Murray, Lorna ^a   Sadler, Ian H ^a   Fry, Stephen C ^a  

^a UNIVERSITY OF EDINBURGH   (United Kingdom)

Author keywords

3 O methyl d galactose; Chara; charophytes; Charophytic algae; Chlorokybus; Coleochaete; Embryophyta; Klebsormidium; pectic polysaccharides; pectin; plant cell wall evolution; rhamnogalacturonan I; Streptophyta

Indexed keywords

BRYOPHYTE; CHAROPHYTE; CHROMATOGRAPHY; EVOLUTION; HYDROLYSIS; MONOSACCHARIDE; OXALATE; PHYLOGENETICS; PHYTOCHEMISTRY; POLYSACCHARIDE; SUGAR;

ALGAE; ANTHOCEROS; ANTHOCEROS AGRESTIS; BRYOPHYTES; CHARA; CHARA VULGARIS; CHARACEAE; CHARALES; CHLOROKYBALES; CHLOROKYBUS; CHLOROKYBUS ATMOPHYTICUS; COLEOCHAETALES; COLEOCHAETE; COLEOCHAETE SCUTATA; EMBRYOPHYTA; KLEBSORMIDIALES; KLEBSORMIDIUM; KLEBSORMIDIUM FLUITANS; KLEBSORMIDIUM SUBTILE; LYCOPODIOPHYTA; NITELLA FLEXILIS; STREPTOPHYTA;

DRISELASE; FUNGAL PROTEIN; GLYCOSIDASE; HEMICELLULOSE; METHYL BETA-GALACTOSIDE; METHYLGALACTOSIDE; MONOSACCHARIDE; PECTIN; POLYSACCHARIDE;

CELL FRACTIONATION; CELL WALL; CHAROPHYTA; CHEMISTRY; EMBRYOPHYTA; HIGH PERFORMANCE LIQUID CHROMATOGRAPHY; METABOLISM; PAPER CHROMATOGRAPHY; PROTON NUCLEAR MAGNETIC RESONANCE; STANDARD; STEREOISOMERISM; THIN LAYER CHROMATOGRAPHY;

CELL FRACTIONATION; CELL WALL; CHAROPHYCEAE; CHROMATOGRAPHY, HIGH PRESSURE LIQUID; CHROMATOGRAPHY, PAPER; CHROMATOGRAPHY, THIN LAYER; EMBRYOPHYTA; FUNGAL PROTEINS; GLYCOSIDE HYDROLASES; METHYLGALACTOSIDES; MONOSACCHARIDES; PECTINS; POLYSACCHARIDES; PROTON MAGNETIC RESONANCE SPECTROSCOPY; REFERENCE STANDARDS; STEREOISOMERISM;

EID: 84938840791     PISSN: 03057364     EISSN: 10958290     Source Type: Journal    
DOI: 10.1093/aob/mcv089     Document Type: Article

References (33)

1. Albersheim P, Darvill A, Roberts K, Sederoff R, Staehelin A. (2011). Plant cell walls: from chemistry to biology. New York: Garland Science
2. Brennan M, Harris PJ. (2011). Distribution of fucosylated xyloglucans among the walls of different cell types in monocotyledons determined by immunofluorescence microscopy. Molecular Plant 4: 144-156
3. Capek P. (2008). An arabinogalactan containing 3-O-methyl-D-galactose residues isolated fromthe aerial parts of Salvia officinalis L. Carbohydrate Research 343: 1390-1393
4. Cherno NK, Dudkin MS, Areshidze IV. (1976). Pectin substances of Chara aculeolata. Khim Prir Soedin 6: 702-705
5. Domozych DS, Sørensen I, Willats WG. (2009). The distribution of cell wall polymers during antheridium development and spermatogenesis in the Charophycean green alga, Chara corallina. Annals of botany 104: 1045-1056
6. Domozych DS, Sørensen I, Popper ZA, et al. (2014). Pectin metabolism and assembly in the cell wall of the charophyte green alga Penium margaritaceum. Plant Physiology 165: 105-118
7. Eshdat Y, Mirelman D. (1972). An improved method for the recovery of compounds from paper chromatograms. Journal of Chromatography 65: 458-459
8. Fry SC. (2000). The growing plant cell wall: chemical and metabolic analysis, reprint edition. Caldwell, NJ: Blackburn Press
9. Fry SC. (2011). Cell wall polysaccharide composition and covalent crosslinking. In P Ulvskov, ed. Annual Plant Review: plant polysaccharides, biosynthesis and bioengineering, vol. 41. Oxford: Wiley-Blackwell, pp. 1-42
10. Fry SC, Nesselrode BHWA, Miller JG, Mewburn BR. (2008). Mixed-linkage (13, 14)-b-D-glucan is a major hemicellulose of Equisetum (horsetail) cell walls. New Phytologist 179: 104-115
11. Hokputsa S, Harding SE, Inngjerdingen K, Jumel K, Michaelsen TE, Heinze T, Koschella A, Paulsen BS. (2004). Bioactive polysaccharides from the stems of the Thai medicinal plant Acanthus ebracteatus: their chemical and physical features. Carbohydrate Research 339: 753-762
12. Hotchkiss AT, Brown RM. (1987). The association of rosette and globule terminal complexes with cellulose microfibril assembly in Nitella translucens var. axillaris (Charophyceae). Journal of Phycology 23: 229-237
13. Ikegaya H, Hayashi T, Kaku T, Iwata K, Sonobe S, Shimmen T. (2008). Presence of xyloglucan-like polysaccharide in Spirogyra and possible involvement in cell-cell attachment. Phycological Research 56: 216-222
14. Jork H, Funk W, Fischer W, Wimmer H. (1994). Thin-layer chromatography: reagents and detection methods, Vol. 1b. Weinheim, Germany: VCH Verlagsgesellschaft mbH
15. Karol KG, McCourt RM, Cimino MT, Delwiche CF. (2001). The closest living relatives of land plants. Science 294: 2351-2353
16. Leliaert F, Smith DR, Moreau H, et al. (2012). Phylogeny and molecular evolution of the green algae. Critical Reviews in Plant Sciences 31: 1-46
17. Navarro DA, Stortz CA. (2008). The system of xylogalactans from the red seaweed Jania rubens (Corallinales, Rhodophyta). Carbohydrate Research 343: 2613-2622
18. Nothnagel AL, Nothnagel EA. (2007). Primary cell wall structure in the evolution of land plants. Journal of Integrative Plant Biology 49: 1271-1278
19. Ogawa K, Yamaura M, Maruyama I. (1994). Isolation and identification of 3-O-methyl-D-galactose as a constituent of neutral polysaccharide of Chlorella vulgaris. Bio Science, Biotechnology, Biochemistry 58: 942-944
20. Paulsen BS, Vieira AAH, Klaveness D. (1992). Structure of extracellular polysaccharides produced by a soil Cryptomonas sp. (Cryptophyceae). Journal of Phycology 28: 61-63
21. Peaucelle A, Braybrook S, Höfte H. (2012). Cell wall mechanics and growth control in plants: the role of pectins revisited. Frontiers in Plant Science 3: Article Number 121
22. Percival E, Foyle RAJ. (1979). The extracellular polysaccharides of Porphyridium cruentum and Porphyridium aerugineum. Carbohydrate Research 72: 165-176
23. Popper ZA Fry SC. (2003). Primary cell wall composition of bryophytes and charophytes. Annals of Botany 91: 1-12
24. Popper ZA Fry SC. (2004). Primary cell wall composition of pteridophytes and spermatophytes. New Phytologist 164: 165-174
25. Popper ZA, Sadler I, Fry SC. (2001). 3-O-Methyl-D-galactose residues in lycophyte primary cell walls. Phytochemistry 57: 711-719
26. Proseus TE, Boyer JS. (2006). Periplasm turgor pressure controls wall deposition and assembly in growing Chara corallina cells. Annals of Botany 98: 93-105
27. Rosado FR, Carbonero ER, Kemmelmeier C, Tischer CA, Gorin PAJ, Iacomini M. (2002). A partially 3-O-methylated (14)-linked a-D-galactan and a-D-mannan from Pleurotus ostreatoroseus Sing. FEMS Microbiology Letters 212: 261-265
28. Sørensen I, Pettolino FA, Bacic A, et al. (2011). The charophycean green algae provide insights into the early origins of plant cell walls. The Plant Journal 68: 201-211
29. Staudacher E. (2012). Methylation -an uncommon modification of glycans. Biological Chemistry 393: 675-685
30. Vogelsang K, Schneider B, Petersen M. (2006). Production of rosmarinic acid and a new rosmarinic acid 30-O-b-D-glucoside in suspension cultures of the hornwort Anthoceros agrestis Paton. Planta 223: 369-373
31. Wodniok S, Brinkmann H, Glöckner G, et al. (2011). Origin of land plants: do conjugating green algae hold the key?. BMC Evolutionary Biology 11: 104
32. Yang Y, Ye LB, Zhang JS, Liu YF, Tang QJ. (2009). Structural analysis of a bioactive polysaccharide, PISP1, from the medicinal mushroom Phellinus igniarius. Bio Science Biotechnology and Biochemistry 73: 134-139
33. Zhong B, Liu L, Yan Z, Penny D. (2013). Origin of land plants using the multispecies coalescent model. Trends in Plant Science 18: 492-495