Ling V, Snedden W A, Shelp B J, Assmann S M
Department of Organismic and Evolutionary Biology, Harvard University, Cambridge, Massachusetts 02138.
Plant Cell. 1994 Aug;6(8):1135-43. doi: 10.1105/tpc.6.8.1135.
The identity of a soluble 62-kD Ca(2+)-dependent calmodulin binding protein (CaM-BP) from fava bean seedlings was determined. Using 125I-CaM overlay assays, a class of soluble CaM-BPs was detected in extracts of tissues comprising the axis of 1.5-week-old seedlings, excluding the root tip and emergent leaves. The size of these CaM-BPs was not uniform within all parts of the plant; the apparent molecular masses were 62 kD in roots, 60 kD in stems, and 64 kD in nodules. The root 62-kD CaM-BP was purified, and internal microsequence analysis was performed on the protein. A tryptic peptide derived from the CaM-BP consisted of a 13-residue sequence corresponding to a highly conserved region of glutamate decarboxylase (GAD), an enzyme that catalyzes the alpha-decarboxylation of glutamate to form the stress-related metabolite gamma-aminobutyrate. Activity assays of partially purified, desalted, root GAD revealed a 50% stimulation by the addition of 100 microM Ca2+, a 100% stimulation by the addition of 100 microM Ca2+ plus 100 nM CaM, and no appreciable stimulation by CaM in the absence of added Ca2+. The demonstration that plant GAD is a Ca(2+)-CaM-stimulated enzyme provides a model in which stress-linked metabolism is modulated by a Ca(2+)-mediated signal transduction pathway.
确定了来自蚕豆幼苗的一种可溶性62-kD钙(2+)依赖性钙调蛋白结合蛋白(CaM-BP)的身份。使用125I-CaM覆盖分析,在1.5周龄幼苗轴部组织的提取物中检测到一类可溶性CaM-BP,不包括根尖和新出的叶子。这些CaM-BP在植物的所有部位大小并不一致;在根中表观分子量为62 kD,在茎中为60 kD,在根瘤中为64 kD。对根中的62-kD CaM-BP进行了纯化,并对该蛋白质进行了内部微序列分析。源自CaM-BP的胰蛋白酶肽由一个13个残基的序列组成,该序列对应于谷氨酸脱羧酶(GAD)的一个高度保守区域,GAD是一种催化谷氨酸α-脱羧形成应激相关代谢物γ-氨基丁酸的酶。对部分纯化、脱盐的根GAD进行的活性分析显示,添加100 microM Ca2+可刺激50%,添加100 microM Ca2+加100 nM CaM可刺激100%,在不添加Ca2+的情况下,CaM没有明显的刺激作用。植物GAD是一种Ca(2+)-CaM刺激酶的证明提供了一个模型,其中应激相关代谢通过Ca(2+)介导的信号转导途径进行调节。