中国稻米
中國稻米
중국도미
CHINA RICE
2015年
4期
25-32
,共8页
周振翔%李志康%戴琪星%孔祥胜%王志琴%顾骏飞
週振翔%李誌康%戴琪星%孔祥勝%王誌琴%顧駿飛
주진상%리지강%대기성%공상성%왕지금%고준비
水稻%光反应%暗反应%生理%限制因素%C4水稻
水稻%光反應%暗反應%生理%限製因素%C4水稻
수도%광반응%암반응%생리%한제인소%C4수도
rice%light reaction%dark reaction%physiology%limitation%C4 rice
光合作用是复杂的生物合成过程,是决定水稻产量潜力的重要因素。提高水稻产量的方向已经由以往的挑选最佳株型和提高收获指数转向提高光合速率或者光利用率。本文综述了水稻光合作用的光反应与暗反应过程中的生理限制因素,归纳了提高光合效率的多种潜在途径,包括:优化冠层中叶绿素分布梯度,增加Rubisco酶的羧化活性,减少光呼吸消耗,平衡RuBP的再生和羧化能力等。也从实践角度探讨了遗传改良中可能的靶标生理途径,包括:降低Rubisco酶的加氧活性,提高叶肉导度以及构建C4水稻。相对于C3光合途径,C4光合途径具有CO2浓缩机制,从而有更高效的光合速率以及光能利用率,通过基因工程技术将C4关键光合酶/基因引入水稻,对提高水稻光合效率有很大的帮助。
光閤作用是複雜的生物閤成過程,是決定水稻產量潛力的重要因素。提高水稻產量的方嚮已經由以往的挑選最佳株型和提高收穫指數轉嚮提高光閤速率或者光利用率。本文綜述瞭水稻光閤作用的光反應與暗反應過程中的生理限製因素,歸納瞭提高光閤效率的多種潛在途徑,包括:優化冠層中葉綠素分佈梯度,增加Rubisco酶的羧化活性,減少光呼吸消耗,平衡RuBP的再生和羧化能力等。也從實踐角度探討瞭遺傳改良中可能的靶標生理途徑,包括:降低Rubisco酶的加氧活性,提高葉肉導度以及構建C4水稻。相對于C3光閤途徑,C4光閤途徑具有CO2濃縮機製,從而有更高效的光閤速率以及光能利用率,通過基因工程技術將C4關鍵光閤酶/基因引入水稻,對提高水稻光閤效率有很大的幫助。
광합작용시복잡적생물합성과정,시결정수도산량잠력적중요인소。제고수도산량적방향이경유이왕적도선최가주형화제고수획지수전향제고광합속솔혹자광이용솔。본문종술료수도광합작용적광반응여암반응과정중적생리한제인소,귀납료제고광합효솔적다충잠재도경,포괄:우화관층중협록소분포제도,증가Rubisco매적최화활성,감소광호흡소모,평형RuBP적재생화최화능력등。야종실천각도탐토료유전개량중가능적파표생리도경,포괄:강저Rubisco매적가양활성,제고협육도도이급구건C4수도。상대우C3광합도경,C4광합도경구유CO2농축궤제,종이유경고효적광합속솔이급광능이용솔,통과기인공정기술장C4관건광합매/기인인입수도,대제고수도광합효솔유흔대적방조。
Photosynthesis is a complicate biosynthetic process, which plays an important role in determining the potential yield of rice. The direction of improving rice yield has been shifted from selecting optimal plant architecture and increase harvest index to improve photosynthetic rate or photosynthetic efficiency. This review summarized the physiological limitations in both light reaction and dark reaction of rice photosynthesis and concluded the potential improve approaches, including: optimize canopy chlorophyll concentration, increase the carboxylase activity of Rubisco, bypass photorespiration, balance RuBP regeneration and carboxylation, etc. We also dis-cussed the essential challenges of improving rice photosynthetic performances, such as decrease the oxygenase activity of Rubisco, improve mesophyll conductance and construct C4 rice. The basic difference between C3 and C4 photosynthetic pathway is C4 pathway has the so-called CO2-concentration mechanism. It ensures C4 plant having higher photosynthetic rate and photo-efficiency. Introduc-ing key enzymes and genes of photosynthesis through genetic engineering technology will be helpful for improving rice photosynthesis and further increasing rice yield in the future.
