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果聚糖:果聚糖1-果糖基转移酶,一种在硬粒小麦中合成禾本科聚糖低聚物的关键酶。

Fructan:fructan 1-fructosyltransferase, a key enzyme for biosynthesis of graminan oligomers in hardened wheat.

作者信息

Kawakami Akira, Yoshida Midori

机构信息

Laboratory of Fungal Disease, Department of Plant Pathology, National Agricultural Research Center, Kannondai, Tsukuba, Ibaraki 305-8666, Japan.

出版信息

Planta. 2005 Dec;223(1):90-104. doi: 10.1007/s00425-005-0054-6. Epub 2005 Jul 21.

DOI:10.1007/s00425-005-0054-6
PMID:16034592
Abstract

Fructans play important roles not only as a carbon source for survival under persistent snow cover but also as agents that protect against various stresses in overwintering plants. Complex fructans having both beta-(2,1)- and beta-(2,6)-linked fructosyl units accumulate in wheat (Triticum aestivum L.) during cold hardening. We detected fructan: fructan 1-fructosyltransferase (1-FFT; EC 2.4.1.100) activity for catalyzing the formation and extension of beta-(2,1)-linked fructans in hardened wheat tissues, cloned cDNAs (wft3 and wft4) of 1-FFT, and analyzed the enzymatic properties of a wft3 recombinant protein (Wft3m) produced by yeast. Wft3m transferred beta-(2,1)-linked fructosyl units to phlein, an extension of sucrose through beta-(2,6)-linked fructosyl units, as well as to inulin, an extension of sucrose through beta-(2,1)-linked fructosyl units, but could not efficiently synthesize long inulin oligomers. Incubation of a mixture of Wft3m and another recombinant protein of wheat, sucrose:fructan 6-fructosyltransferase (6-SFT), with sucrose and 1-kestotriose produced fructans similar to those that accumulated in hardened wheat tissues. The results demonstrate that 1-FFT produces branches of beta-(2,1)-linked fructosyl units to phlein and graminan oligomers synthesized by 6-SFT and contributes to accumulation of fructans containing beta-(2,1)- and beta-(2,6)-linked fructosyl units. In combination with sucrose:sucrose 1-fructosyltransferase (1-SST; EC 2.4.1.99) and 6-SFT, 1-FFT is necessary for fructan synthesis in hardened wheat.

摘要

果聚糖不仅作为在持续积雪覆盖下生存的碳源发挥重要作用,还作为越冬植物抵御各种胁迫的因子。具有β-(2,1)-和β-(2,6)-连接的果糖基单元的复合果聚糖在小麦(Triticum aestivum L.)冷驯化过程中积累。我们检测了在冷驯化的小麦组织中催化β-(2,1)-连接的果聚糖形成和延伸的果聚糖:果聚糖1-果糖基转移酶(1-FFT;EC 2.4.1.100)活性,克隆了1-FFT的cDNA(wft3和wft4),并分析了酵母产生的wft3重组蛋白(Wft3m)的酶学性质。Wft3m将β-(2,1)-连接的果糖基单元转移到通过β-(2,6)-连接的果糖基单元延伸的蔗糖(phlein)以及通过β-(2,1)-连接的果糖基单元延伸的蔗糖(菊粉)上,但不能有效地合成长链菊粉低聚物。将Wft3m与小麦的另一种重组蛋白蔗糖:果聚糖6-果糖基转移酶(6-SFT)的混合物与蔗糖和1-蔗果三糖一起孵育,产生了与冷驯化小麦组织中积累的果聚糖相似的果聚糖。结果表明,1-FFT为6-SFT合成的phlein和禾本科聚糖低聚物产生β-(2,1)-连接的果糖基单元分支,并有助于含有β-(2,1)-和β-(2,6)-连接的果糖基单元的果聚糖的积累。与蔗糖:蔗糖1-果糖基转移酶(1-SST;EC 2.4.1.99)和6-SFT结合,1-FFT是冷驯化小麦中果聚糖合成所必需的。

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