多倍体对矮牵牛叶片光合特性及解剖结构的影响。

Effects of polyploidy on photosynthetic properties and anatomy in leaves of Phlox drummondii.

作者信息

Vyas Poonam, Bisht Madho Singh, Miyazawa Shin-Ichi, Yano Satoshi, Noguchi Ko, Terashima Ichiro, Funayama-Noguchi Sachiko

机构信息

Department of Biological Sciences, Graduate School of Science, Osaka University, 1-1 Machikaneyama-cho, Toyonaka, Osaka 560-0043, Japan.

Centre for Inter-disciplinary Studies of Mountain and Hill Environment, Academic Research Centre Building, University of Delhi, Patel Marg, Delhi 110007, India.

出版信息

Funct Plant Biol. 2007 Aug;34(8):673-682. doi: 10.1071/FP07020.

DOI:10.1071/FP07020

PMID:32689395

Abstract

Polyploidy affects photosynthesis by causing changes in morphology, anatomy and biochemistry. However, in newly developed polyploids, the genome may be unstable. In this study, diploid (2×) and synthetic autotetraploids in initial (4×-C) and 11th generations (4×-C) of Phlox drummondii Hook were used to study the effects of chromosome doubling and genome stabilisation on leaf photosynthesis and anatomical properties. The light-saturated photosynthetic rate on a leaf area basis at 360 µmol CO mol air (A) was highest in 4×-C leaves, intermediate in 4×-C leaves, and lowest in 2× leaves. Rubisco amounts, CO-saturated photosynthetic rate at 1200 µmol CO mol air at PPFD of 1000 µmol m s (A, representing the capacity for RuBP regeneration), cumulative surface areas of chloroplasts facing intercellular spaces (S), all expressed on a leaf area basis, were all higher in 4× leaves than in 2× leaves, and stomatal conductance (g) at 360 µmol CO mol air was only higher in the 4×-C leaves. A for the 4×-C leaves was greater than that in the 4×-C leaves despite having similar amounts of Rubisco. This was presumably associated with a greater RuBP regeneration capacity, as well as an increase in S and g, which would increase the CO concentration of Rubisco. These results indicate that the higher rate of photosynthesis in 4×-C leaves was not an immediate outcome of chromosome doubling; rather, it was due to adjustment and adaptation during the process of genome stabilisation.

摘要

多倍体通过引起形态、解剖结构和生物化学变化来影响光合作用。然而，在新形成的多倍体中，基因组可能不稳定。在本研究中，使用了矮牵牛（Phlox drummondii Hook）初始世代（4×-C）和第11代（4×-C）的二倍体（2×）和人工合成同源四倍体，来研究染色体加倍和基因组稳定对叶片光合作用及解剖特性的影响。在360 μmol CO₂·mol⁻¹空气（A）条件下，基于叶面积的光饱和光合速率在4×-C叶片中最高，在4×-C叶片中居中，在2×叶片中最低。核酮糖-1,5-二磷酸羧化酶（Rubisco）含量、在1200 μmol CO₂·mol⁻¹空气、光量子通量密度为1000 μmol·m⁻²·s⁻¹条件下的CO₂饱和光合速率（A，代表核酮糖-1,5-二磷酸（RuBP）再生能力）、面向细胞间隙的叶绿体累积表面积（S），均基于叶面积表示，在4×叶片中均高于2×叶片，且在360 μmol CO₂·mol⁻¹空气条件下的气孔导度（g）仅在4×-C叶片中更高。尽管4×-C叶片的Rubisco含量与4×-C叶片相似，但其A值却更大。这可能与更高的RuBP再生能力以及S和g的增加有关，这会提高Rubisco的CO₂浓度。这些结果表明，4×-C叶片中较高的光合速率并非染色体加倍的直接结果；相反，这是基因组稳定过程中的调节和适应所致。

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多倍体对矮牵牛叶片光合特性及解剖结构的影响。

Effects of polyploidy on photosynthetic properties and anatomy in leaves of Phlox drummondii.

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