Price G D, Evans J R, von Caemmerer S, Yu J W, Badger M R
Molecular Plant Physiology Group, Research School of Biological Sciences, Australian National University, Canberra.
Planta. 1995;195(3):369-78. doi: 10.1007/BF00202594.
The reduction of 3-phosphoglycerate (PGA) to triose phosphate is a key step in photosynthesis linking the photochemical events of the thylakoid membranes with the carbon metabolism of the photosynthetic carbon-reduction (PCR) cycle in the stroma. Glyceraldehyde-3-phosphate dehydrogenase: NADP oxidoreductase (GAPDH) is one of the two chloroplast enzymes which catalyse this reversible conversion. We report on the engineering of an antisense RNA construct directed against the tobacco (Nicotiana tabacum L.) chloroplast-located GAPDH (A subunit). The construct was integrated into the tobacco genome by Agrobacterium-mediated transformation of leaf discs. Of the resulting transformants, five plants were recovered with reduced GAPDH activities ranging from 11 to 24% of wild-type (WT) activities. Segregation analysis of the kanamycin-resistance character in self-pollinated T1 seed from each of the five transformants revealed that one plant (GAP-R) had two active DNA inserts and the others had one insert. T1 progeny from GAP-R was used to generate plants with GAPDH activities ranging from WT levels to around 7% of WT levels. These were used to study the effect of variable GAPDH activities on metabolite pools for ribulose-1,5-bisphosphate (RuBP) and PGA, and the accompanying effects on the rate of CO2 assimilation and other gas-exchange parameters. The RuBP pool size was linearly related to GAPDH activity once GAPDH activity dropped below the range for WT plants, but the rate of CO2 assimilation was not affected until RuBP levels dropped to 30-40% of WT levels. That is, the CO2 assimilation rate fell when RuBP per ribulose-1,5-biphosphate carboxylase-oxygenase (Rubisco) site fell below 2 mol.(mol site)-1 while the ratio for WT plants was 4-5 mol.m(mol site)-1. Leaf conductance was not reduced in leaves with reduced GAPDH activities, resulting in an increase in the ratio of intercellular to ambient CO2 partial pressure. Conductance in plants with reduced GAPDH activities was still sensitive to CO2 and showed a normal decline with increases in CO2 partial pressure. Although PGA levels did not fluctuate greatly, the effect of reduced GAPDH activity on RuBP-pool size and assimilation rate can be interpreted as being due to a blockage in the regeneration of RuBP. Concomitant gas-exchange and chlorophyll alpha fluorescence measurements indicated that photosynthesis changed from being Rubisco-limited to being RuBP-regeneration-limited at a lower CO2 partial pressure in the antisense plants than in WT plants.(ABSTRACT TRUNCATED AT 400 WORDS)
3-磷酸甘油酸(PGA)还原为磷酸丙糖是光合作用中的关键步骤,它将类囊体膜的光化学事件与基质中光合碳还原(PCR)循环的碳代谢联系起来。3-磷酸甘油醛脱氢酶:NADP氧化还原酶(GAPDH)是催化这种可逆转化的两种叶绿体酶之一。我们报道了针对烟草(Nicotiana tabacum L.)叶绿体定位的GAPDH(A亚基)构建反义RNA结构的研究。通过农杆菌介导的叶盘转化将该结构整合到烟草基因组中。在所得的转化体中,回收了五株GAPDH活性降低的植株,其活性范围为野生型(WT)活性的11%至24%。对这五株转化体自花授粉的T1种子中卡那霉素抗性性状的分离分析表明,一株植株(GAP-R)有两个活性DNA插入片段,其他植株有一个插入片段。利用GAP-R的T1后代培育出GAPDH活性范围从WT水平到WT水平约7%的植株。这些植株用于研究不同GAPDH活性对1,5-二磷酸核酮糖(RuBP)和PGA代谢库的影响,以及对CO2同化速率和其他气体交换参数的伴随影响。一旦GAPDH活性降至WT植株的范围以下,RuBP库大小与GAPDH活性呈线性相关,但直到RuBP水平降至WT水平的30%-40%时,CO2同化速率才受到影响。也就是说,当每个1,5-二磷酸核酮糖羧化酶加氧酶(Rubisco)位点的RuBP低于2 mol·(mol位点)-1时,CO2同化速率下降,而WT植株的该比例为4-5 mol·(mol位点)-1。GAPDH活性降低的叶片的叶导度没有降低,导致细胞间与环境CO2分压的比值增加。GAPDH活性降低的植株的导度对CO2仍然敏感,并且随着CO2分压的增加呈正常下降。尽管PGA水平波动不大,但GAPDH活性降低对RuBP库大小和同化速率的影响可解释为是由于RuBP再生受阻。伴随的气体交换和叶绿素α荧光测量表明,与WT植株相比,反义植株在较低的CO2分压下光合作用从受Rubisco限制转变为受RuBP再生限制。(摘要截于400字)
