Inter-specific variability in protein use by two vegetable crop species

B. Adamczyk, M. Godlewski
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引用次数: 4

Abstract

It is now well-known that plants can uptake not only inorganic nitrogen but also organic nitrogen compounds, mainly amino acids. However, soil proteins are the main pool of amino acids. According to our earlier papers, plants can get access to this source of nitrogen using root-secreted proteases, but the level of proteolytic activity of such root-secreted proteases is species-specific. Our aim was to compare the use of protein as nitrogen source by two vegetable crops having high (Allium porrum) or low (Lactuca sativa) level of activity of root-secreted proteases. Seedlings were cultivated on Murashige and Skoog medium (MS), MS medium without inorganic nitrogen, MS medium without inorganic nitrogen, but with casein in concentration of 0.01%, 0.1% or 1%. Fresh weight of shoot of A. porrum was the highest for seedlings growing on culture medium with casein, but shoots of L. sativa obtained the highest weight growing on the culture medium with inorganic nitrogen. Allium porrum seedlings obtained 15-fold higher proteolytic activity in the culture medium than L. sativa. Seedlings of A. porrum using such high activity of proteases secreted by roots could provide a substantial pool of amino acids for intensive growth. The current studies conducted on A. porrum and L. sativa suggest that the efficiency of protein use in nitrogen nutrition by plants is species-specific.
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两种蔬菜作物蛋白质利用的种间变异
众所周知,植物不仅可以吸收无机氮,也可以吸收有机氮化合物,主要是氨基酸。然而,土壤蛋白质是氨基酸的主要来源。根据我们之前的论文,植物可以通过根分泌蛋白酶获得这种氮源,但这种根分泌蛋白酶的蛋白水解活性水平是物种特异性的。我们的目的是比较两种根分泌蛋白酶活性高(葱)或低(芥蓝)的蔬菜作物对蛋白质作为氮源的利用。幼苗分别在Murashige和Skoog培养基(MS)、不含无机氮的MS培养基、不含无机氮的MS培养基上培养,酪蛋白浓度分别为0.01%、0.1%和1%。在添加酪蛋白的培养基上,黑麦草幼苗的鲜重最高,而在添加无机氮的培养基上,黑麦草幼苗的鲜重最高。葱苗在培养基中的蛋白水解活性是苜蓿苗的15倍。利用这种由根部分泌的高活性蛋白酶,黑麦幼苗可以为集约化生长提供大量的氨基酸。目前对禾本科草和油菜的研究表明,植物对氮营养中蛋白质的利用效率具有物种特异性。
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