光合单位
Photosynthetic units.
作者信息
Schmid G H, Gaffron H
出版信息
J Gen Physiol. 1968 Aug;52(2):212-39. doi: 10.1085/jgp.52.2.212.
Leaf tissues of aurea mutants of tobacco and Lespedeza have been shown to have higher photosynthetic capacity per molecule of chlorophyll, a higher saturation intensity, a simpler lamellar structure, and the same quantum yield as their dark green parents. Here we report on the values of photosynthetic units for both types of plants and some algae. The unit has been assumed to be about as uniform and steady in the plant world as the quantum efficiency. The number on which all theoretical discussions have been based so far is 2400 per O(2) evolved or CO(2) reduced. With dark green plants and algae our determinations of units by means of 40 microsec flashes superimposed on a steady rate of background photosynthesis at 900 ergs cm(-2) sec(-1) of red light yielded mostly numbers between 2000 and 2700. However, the photosynthetic unit turned out to be very variable, even in these objects. In aurea mutants the unit was distinctly smaller, averaging 600 chl/CO(2). By choosing the right combination of colors for flash and background light, units as low as 300 chl/CO(2) or 40 chl/e(-) could be measured consistently. We found five well-defined groups of units composed of multiples of its smallest member. These new findings are discussed in terms of structural entities that double or divide under the influence of far-red light.
烟草和胡枝子金黄色突变体的叶片组织已被证明,其每分子叶绿素具有更高的光合能力、更高的饱和光强、更简单的片层结构,并且与它们的深绿色亲本具有相同的量子产率。在此,我们报告这两种植物以及一些藻类的光合单位值。在植物界,光合单位被认为与量子效率一样,是相当均匀和稳定的。到目前为止,所有理论讨论所基于的数值是每释放1分子O₂或还原1分子CO₂有2400个(光合单位)。对于深绿色植物和藻类,我们通过在900尔格·厘米⁻²·秒⁻¹的红光背景光合稳定速率上叠加40微秒的闪光来测定光合单位,得到的数值大多在2000到2700之间。然而,即使在这些对象中,光合单位也被证明是非常可变的。在金黄色突变体中,光合单位明显较小,平均为600个叶绿素/CO₂。通过选择闪光和背景光的合适颜色组合,可以持续测量到低至300个叶绿素/CO₂或40个叶绿素/电子的光合单位。我们发现了由其最小成员的倍数组成的五个明确的光合单位组。这些新发现将根据在远红光影响下加倍或分裂的结构实体进行讨论。
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