Some Cyanobacteria Synthesize Semi-amylopectin Type [alpha]-Polyglucans Instead of Glycogen

It is widely accepted that green plants evolved the capacity to synthesize the highly organized branched α-polyglucan amylopectin with tandem-cluster structure, whereas animals and bacteria continued to produce random branched glycogen. Although most previous studies documented that cyanobacteria ac...

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Veröffentlicht in:	Plant and cell physiology 2005-03, Vol.46 (3), p.539
Hauptverfasser:	Nakamura, Yasunori, Takahashi, Jun-ichiro, Sakurai, Aya, Inaba, Yumiko, Suzuki, Eiji, Nihei, Satoko, Fujiwara, Shoko, Tsuzuki, Mikio, Miyashita, Hideaki, Ikemoto, Hisato, Kawachi, Masanobu, Sekiguchi, Hiroshi, Kurano, Norihide
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creator	Nakamura, Yasunori Takahashi, Jun-ichiro Sakurai, Aya Inaba, Yumiko Suzuki, Eiji Nihei, Satoko Fujiwara, Shoko Tsuzuki, Mikio Miyashita, Hideaki Ikemoto, Hisato Kawachi, Masanobu Sekiguchi, Hiroshi Kurano, Norihide
description	It is widely accepted that green plants evolved the capacity to synthesize the highly organized branched α-polyglucan amylopectin with tandem-cluster structure, whereas animals and bacteria continued to produce random branched glycogen. Although most previous studies documented that cyanobacteria accumulate glycogen, the present study shows explicitly that some cyanobacteria such as Cyanobacterium sp. MBIC10216, Myxosarcina burmensis and Synechococcus sp. BG043511 had distinct α-polyglucans, which were designated as semi-amylopectin. The semi-amylopectin was intermediate between rice amylopectin and typical cyanobacterial glycogen in terms of chain length distribution, molecular size and length of the most abundant α-1,4-chain. It was also found that Cyanobacterium sp. MBIC10216 had no amylose-type component in its α-polyglucans. The evolutionary aspect of the structure of α-polyglucan is discussed in relation to the phylogenetic evolutionary tree of 16S rRNA sequences of cyanobacteria.
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title	Some Cyanobacteria Synthesize Semi-amylopectin Type [alpha]-Polyglucans Instead of Glycogen
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