Cell wall polymer mapping in the coenocytic seaweed Codium vermilara (Bryopsidales, Chlorophyta)

PAULA VIRGINIA FERNÁNDEZ; MARINA CIANCIA; ALICIA B. MIRAVALLES; JOSÉ MANUEL ESTEVEZ

JOURNAL OF PHYCOLOGY

Wiley-Blackwell

Año: 2010 vol. 46 p. 556 - 565

0022-3646

Cell walls in the coencocytic green seaweed Codium vermilara (Olivi) Chiaje (Bryopsidales, Chlorophyta) are composed of 32% (w ⁄ w) b-(1 fi 4)-Dmannans, are composed of 32% (w ⁄ w) b-(1 fi 4)-Dmannans, are composed of 32% (w ⁄ w) b-(1 fi 4)-Dmannans, are composed of 32% (w ⁄ w) b-(1 fi 4)-Dmannans, vermilara (Olivi) Chiaje (Bryopsidales, Chlorophyta) are composed of 32% (w ⁄ w) b-(1 fi 4)-Dmannans, are composed of 32% (w ⁄ w) b-(1 fi 4)-Dmannans, are composed of 32% (w ⁄ w) b-(1 fi 4)-Dmannans, are composed of 32% (w ⁄ w) b-(1 fi 4)-Dmannans, vermilara (Olivi) Chiaje (Bryopsidales, Chlorophyta) are composed of 32% (w ⁄ w) b-(1 fi 4)-Dmannans, are composed of 32% (w ⁄ w) b-(1 fi 4)-Dmannans, are composed of 32% (w ⁄ w) b-(1 fi 4)-Dmannans, are composed of 32% (w ⁄ w) b-(1 fi 4)-Dmannans, vermilara (Olivi) Chiaje (Bryopsidales, Chlorophyta) are composed of 32% (w ⁄ w) b-(1 fi 4)-Dmannans, are composed of 32% (w ⁄ w) b-(1 fi 4)-Dmannans, are composed of 32% (w ⁄ w) b-(1 fi 4)-Dmannans, are composed of 32% (w ⁄ w) b-(1 fi 4)-Dmannans, Codium vermilara (Olivi) Chiaje (Bryopsidales, Chlorophyta) are composed of 32% (w ⁄ w) b-(1 fi 4)-Dmannans, are composed of 32% (w ⁄ w) b-(1 fi 4)-Dmannans, are composed of 32% (w ⁄ w) b-(1 fi 4)-Dmannans, are composed of 32% (w ⁄ w) b-(1 fi 4)-Dmannans, (Olivi) Chiaje (Bryopsidales, Chlorophyta) are composed of 32% (w ⁄ w) b-(1 fi 4)-Dmannans,⁄ w) b-(1 fi 4)-Dmannans, 12% sulfated polysaccharides (SPs), and small amounts of hydroxyproline-rich glycoproteinlike (HRGP-L) compounds of the arabinogalactan proteins (AGPs) and arabinosides (extensins). Similar quantities of mannans and SP were reported previously in the related seaweed C. fragile (Suringar) Hariot. Overall, both seaweed cell walls comprise Hariot. Overall, both seaweed cell walls comprise Hariot. Overall, both seaweed cell walls comprise Hariot. Overall, both seaweed cell walls comprise small amounts of hydroxyproline-rich glycoproteinlike (HRGP-L) compounds of the arabinogalactan proteins (AGPs) and arabinosides (extensins). Similar quantities of mannans and SP were reported previously in the related seaweed C. fragile (Suringar) Hariot. Overall, both seaweed cell walls comprise Hariot. Overall, both seaweed cell walls comprise Hariot. Overall, both seaweed cell walls comprise Hariot. Overall, both seaweed cell walls comprise small amounts of hydroxyproline-rich glycoproteinlike (HRGP-L) compounds of the arabinogalactan proteins (AGPs) and arabinosides (extensins). Similar quantities of mannans and SP were reported previously in the related seaweed C. fragile (Suringar) Hariot. Overall, both seaweed cell walls comprise Hariot. Overall, both seaweed cell walls comprise Hariot. Overall, both seaweed cell walls comprise Hariot. Overall, both seaweed cell walls comprise small amounts of hydroxyproline-rich glycoproteinlike (HRGP-L) compounds of the arabinogalactan proteins (AGPs) and arabinosides (extensins). Similar quantities of mannans and SP were reported previously in the related seaweed C. fragile (Suringar) Hariot. Overall, both seaweed cell walls comprise Hariot. Overall, both seaweed cell walls comprise Hariot. Overall, both seaweed cell walls comprise Hariot. Overall, both seaweed cell walls comprise 12% sulfated polysaccharides (SPs), and small amounts of hydroxyproline-rich glycoproteinlike (HRGP-L) compounds of the arabinogalactan proteins (AGPs) and arabinosides (extensins). Similar quantities of mannans and SP were reported previously in the related seaweed C. fragile (Suringar) Hariot. Overall, both seaweed cell walls comprise Hariot. Overall, both seaweed cell walls comprise Hariot. Overall, both seaweed cell walls comprise Hariot. Overall, both seaweed cell walls comprise C. fragile (Suringar) Hariot. Overall, both seaweed cell walls comprise 40%–44% of their dry weights. Within the SP group, a variety of polysaccharide structures from pyruvylated arabinogalactan sulfate and pyruvylated galactan sulfate to pyranosic arabinan sulfate are present in Codium cell walls. In this article, the in situ distribution of the main cell-wall polymers in the green seaweed C. vermilara was studied, comparing their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara situ distribution of the main cell-wall polymers in the green seaweed C. vermilara was studied, comparing their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara situ distribution of the main cell-wall polymers in the green seaweed C. vermilara was studied, comparing their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara situ distribution of the main cell-wall polymers in the green seaweed C. vermilara was studied, comparing their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara group, a variety of polysaccharide structures from pyruvylated arabinogalactan sulfate and pyruvylated galactan sulfate to pyranosic arabinan sulfate are present in Codium cell walls. In this article, the in situ distribution of the main cell-wall polymers in the green seaweed C. vermilara was studied, comparing their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara situ distribution of the main cell-wall polymers in the green seaweed C. vermilara was studied, comparing their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara situ distribution of the main cell-wall polymers in the green seaweed C. vermilara was studied, comparing their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara situ distribution of the main cell-wall polymers in the green seaweed C. vermilara was studied, comparing their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara group, a variety of polysaccharide structures from pyruvylated arabinogalactan sulfate and pyruvylated galactan sulfate to pyranosic arabinan sulfate are present in Codium cell walls. In this article, the in situ distribution of the main cell-wall polymers in the green seaweed C. vermilara was studied, comparing their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara situ distribution of the main cell-wall polymers in the green seaweed C. vermilara was studied, comparing their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara situ distribution of the main cell-wall polymers in the green seaweed C. vermilara was studied, comparing their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara situ distribution of the main cell-wall polymers in the green seaweed C. vermilara was studied, comparing their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara group, a variety of polysaccharide structures from pyruvylated arabinogalactan sulfate and pyruvylated galactan sulfate to pyranosic arabinan sulfate are present in Codium cell walls. In this article, the in situ distribution of the main cell-wall polymers in the green seaweed C. vermilara was studied, comparing their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara situ distribution of the main cell-wall polymers in the green seaweed C. vermilara was studied, comparing their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara situ distribution of the main cell-wall polymers in the green seaweed C. vermilara was studied, comparing their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara situ distribution of the main cell-wall polymers in the green seaweed C. vermilara was studied, comparing their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara 40%–44% of their dry weights. Within the SP group, a variety of polysaccharide structures from pyruvylated arabinogalactan sulfate and pyruvylated galactan sulfate to pyranosic arabinan sulfate are present in Codium cell walls. In this article, the in situ distribution of the main cell-wall polymers in the green seaweed C. vermilara was studied, comparing their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara situ distribution of the main cell-wall polymers in the green seaweed C. vermilara was studied, comparing their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara situ distribution of the main cell-wall polymers in the green seaweed C. vermilara was studied, comparing their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara situ distribution of the main cell-wall polymers in the green seaweed C. vermilara was studied, comparing their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara Codium cell walls. In this article, the in situ distribution of the main cell-wall polymers in the green seaweed C. vermilara was studied, comparing their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara their arrangements with those observed in cell walls from C. fragile. The utricle cell wall in C. vermilara C. vermilara was studied, comparing their arrangements with those obs