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补充蔗糖可抑制聚羟基脂肪酸酯生产植物中的生长抑制。

Sucrose supplementation suppressed the growth inhibition in polyhydroxyalkanoate-producing plants.

作者信息

Yoshizumi Takeshi, Yamada Miwa, Higuchi-Takeuchi Mieko, Matsumoto Ken'ichiro, Taguchi Seiichi, Matsui Minami, Numata Keiji

机构信息

Enzyme Research Team, RIKEN Center for Sustainable Resource Science, 2-1 Hirosawa, Wako-shi, Saitama 351-0198, Japan.

Division of Biotechnology and Macromolecular Chemistry, Graduate School of Engineering, Hokkaido University, N13-W8, Kita-ku, Sapporo, Hokkaido 060-8628, Japan.

出版信息

Plant Biotechnol (Tokyo). 2017;34(1):39-43. doi: 10.5511/plantbiotechnology.16.1121a. Epub 2017 Feb 14.

DOI:10.5511/plantbiotechnology.16.1121a
PMID:31275006
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6543704/
Abstract

Polyhydroxyalkanoate (PHA) is a thermoplastic polymer with several advantageous properties, including biomass origin, biocompatibility, and biodegradability. PHA is synthesized in transgenic plants harboring 3 enzymatic genes: , , and (collectively referred to as ). PHA-producing plants exhibit severe growth inhibition that leads to extremely low PHA accumulation when these enzymes are localized in the cytosol. This growth inhibition could be attributed to the deleterious effects of the PHA biosynthetic pathway on endogenous essential metabolites or to PHA cytotoxicity itself. We performed precise morphological observations of -overexpressing (ABC-ox), which displayed typical growth inhibition. On growth medium without sucrose, ABC-ox exhibited a pale green phenotype, dwarfism, including small cotyledons and true leaves, and short roots. ABC-ox partially recovered from this growth inhibition when the growth medium was supplemented with 1% sucrose. This recovery was reversed after ABC-ox grown on 1% sucrose medium was transferred to soil. ABC-ox grown on 1% sucrose medium not only demonstrated recovery from growth inhibition but were also the only examined plants with PHA accumulation, suggesting that growth inhibition was not caused by PHA cytotoxicity but rather by a lack of essential metabolites.

摘要

聚羟基脂肪酸酯(PHA)是一种具有多种优势特性的热塑性聚合物,包括源自生物质、生物相容性和生物可降解性。PHA在含有3种酶基因( 、 和 ,统称为 )的转基因植物中合成。当这些酶定位于细胞质时,产PHA的植物表现出严重的生长抑制,导致PHA积累极低。这种生长抑制可能归因于PHA生物合成途径对内源性必需代谢物的有害影响或PHA自身的细胞毒性。我们对表现出典型生长抑制的过量表达 的植物(ABC-ox)进行了精确的形态学观察。在不含蔗糖的生长培养基上,ABC-ox表现出浅绿色表型、侏儒症,包括小的子叶和真叶以及短根。当生长培养基添加1%蔗糖时,ABC-ox从这种生长抑制中部分恢复。在1%蔗糖培养基上生长的ABC-ox转移到土壤后,这种恢复被逆转。在1%蔗糖培养基上生长的ABC-ox不仅从生长抑制中恢复,而且是唯一检测到有PHA积累的植物,这表明生长抑制不是由PHA细胞毒性引起的,而是由必需代谢物的缺乏引起的。

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