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南瓜中赤霉素生物合成的第一步由至少两种由差异调控基因编码的贝壳杉烯二磷酸合酶催化。

The first step of gibberellin biosynthesis in pumpkin is catalyzed by at least two copalyl diphosphate synthases encoded by differentially regulated genes.

作者信息

Smith M W, Yamaguchi S, Ait-Ali T, Kamiya Y

机构信息

Plant Hormone Function Team, Frontier Research Program, The Institute of Physical and Chemical Research (RIKEN), Hirosawa 2-1, Wako-shi, Saitama 351-0198, Japan.

出版信息

Plant Physiol. 1998 Dec;118(4):1411-9. doi: 10.1104/pp.118.4.1411.

DOI:10.1104/pp.118.4.1411
PMID:9847116
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC34758/
Abstract

The first step in gibberellin biosynthesis is catalyzed by copalyl diphosphate synthase (CPS) and ent-kaurene synthase. We have cloned from pumpkin (Cucurbita maxima L.) two cDNAs, CmCPS1 and CmCPS2, that each encode a CPS. Both recombinant fusion CmCPS proteins were active in vitro. CPS are translocated into plastids and processed by cleavage of transit peptides. For CmCPS1 and CmCPS2, the putative transit peptides cannot exceed the first 99 and 107 amino acids, respectively, because longer N-terminal deletions abolished activity. Levels of both CmCPS transcripts were strictly regulated in an organ-specific and developmental manner. Both transcripts were almost undetectable in leaves and were abundant in petioles. CmCPS1 transcript levels were high in young cotyledons and low in roots. In contrast, CmCPS2 transcripts were undetectable in cotyledons but present at significant levels in roots. In hypocotyls, apices, and petioles, CmCPS1 transcript levels decreased with age much more rapidly than those of CmCPS2. We speculate that CmCPS1 expression is correlated with the early stages of organ development, whereas CmCPS2 expression is correlated with subsequent growth. In contrast, C. maxima ent-kaurene synthase transcripts were detected in every organ at almost constant levels. Thus, ent-kaurene biosynthesis may be regulated through control of CPS expression.

摘要

赤霉素生物合成的第一步由内根-贝壳杉烯二磷酸合酶(CPS)和内根-贝壳杉烯合酶催化。我们从南瓜(南瓜属)中克隆了两个cDNA,即CmCPS1和CmCPS2,它们各自编码一种CPS。两种重组融合CmCPS蛋白在体外均具有活性。CPS被转运到质体中,并通过切割转运肽进行加工。对于CmCPS1和CmCPS2,推测的转运肽分别不能超过前99和107个氨基酸,因为更长的N端缺失会消除活性。两种CmCPS转录本的水平都以器官特异性和发育性的方式受到严格调控。两种转录本在叶片中几乎检测不到,而在叶柄中含量丰富。CmCPS1转录本水平在幼嫩子叶中较高,在根中较低。相比之下,CmCPS2转录本在子叶中检测不到,但在根中含量显著。在下胚轴、顶端和叶柄中,CmCPS1转录本水平随年龄下降的速度比CmCPS2快得多。我们推测,CmCPS1的表达与器官发育的早期阶段相关,而CmCPS2的表达与随后的生长相关。相比之下,在南瓜的每个器官中几乎都以恒定水平检测到内根-贝壳杉烯合酶转录本。因此,内根-贝壳杉烯的生物合成可能通过控制CPS的表达来调节。

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