红甜菜中钠选择性转运的发展和特征。
Development and Characteristics of Sodium-selective Transport in Red Beet.
机构信息
Department of Biology, McGill University, Montreal, Quebec, Canada.
出版信息
Plant Physiol. 1971 Jun;47(6):735-9. doi: 10.1104/pp.47.6.735.
Slices of storage tissue of red beet (Beta vulgaris L.) washed for only 1 day in distilled water readily absorb K(+) but lack a mechanism for rapid Na(+) uptake. A Na(+) transport mechanism develops if the tissue is washed for several days, and the tissue then excludes K(+) during Na(+) uptake.Both the high affinity and low affinity absorption mechanisms show a development of Na(+) transport with washing, and, in contrast to barley roots, cation selectivity in beet is not affected by the presence of calcium ions.K(+) and Na(+) do not appear to compete for binding sites at the surface of the cells, but, as in barley roots, the cations compete in some way for electrically balancing transported ions. Nevertheless, the development of Na(+) transport and the interaction of Na(+) with K(+) occur in the same way whether cation transport is balanced by Cl(-) uptake or by H(+) or HCO(3) (-) transport.
将红甜菜(Beta vulgaris L.)的贮藏组织切片仅用蒸馏水洗涤 1 天,就很容易吸收 K(+),但缺乏快速吸收 Na(+)的机制。如果组织洗涤数天,就会形成 Na(+)转运机制,并且在 Na(+)吸收过程中组织排除 K(+)。高亲和力和低亲和力吸收机制都显示出随着洗涤的进行,Na(+)转运的发展,与大麦根不同,甜菜中的阳离子选择性不受钙离子的影响。K(+)和 Na(+)似乎不会在细胞表面的结合位点上竞争,但是,与大麦根一样,阳离子以某种方式在电平衡转运离子方面相互竞争。尽管如此,Na(+)转运的发展以及 Na(+)与 K(+)的相互作用以相同的方式发生,无论阳离子转运是否通过 Cl(-)摄取或通过 H(+)或 HCO(3) (-)转运来平衡。
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