水稻(Oryza sativa)种子萌发和幼苗早期生长过程中与耐淹性相关的机制。
Mechanisms associated with tolerance to flooding during germination and early seedling growth in rice (Oryza sativa).
作者信息
Ismail Abdelbagi M, Ella Evangelina S, Vergara Georgina V, Mackill David J
机构信息
International Rice Research Institute, DAPO Box 7777, Metro Manila, Philippines.
出版信息
Ann Bot. 2009 Jan;103(2):197-209. doi: 10.1093/aob/mcn211. Epub 2008 Nov 10.
BACKGROUND AND AIMS
Flooding slows seed germination, imposes fatalities and delays seedling establishment in direct-seeded rice. This study describes responses of contrasting rice genotypes subjected to flooding or low oxygen stress during germination and discusses the basis of tolerance shown by certain cultivars.
METHODS
In one set of experiments, dry seeds were sown in soil and either watered normally or flooded with 10 cm of water. Seedling survival and shoot and root growth were assessed and seed portions of germinating seedlings were assayed for soluble sugars and starch concentrations. The whole germinating seedlings were assayed for amylase and peroxidase activities and for ethylene production. Activities of enzymes associated with anaerobic respiration were examined and gene expression was analysed separately with seeds germinating under different amounts of dissolved oxygen in dilute agar.
KEY RESULTS
Flooding during germination reduced survival but to a lesser extent in tolerant genotypes. Starch concentration in germinating seeds decreased while sugar concentration increased under flooding, but more so in tolerant genotypes. Amylase activity correlated positively with elongation (r = 0.85 for shoot and 0.83 for root length) and with plant survival (r = 0.92). Tolerant genotypes had higher amylase activity and higher RAmy3D gene expression. Ethylene was not detected in seeds within 2 d after sowing, but increased thereafter, with a greater increase in tolerant genotypes starting 3 d after sowing. Peroxidase activity was higher in germinating seeds of sensitive genotypes and correlated negatively with survival.
CONCLUSIONS
Under low oxygen stress, tolerant genotypes germinate, grow faster and more seedlings survive. They maintain their ability to use stored starch reserves through higher amylase activity and anaerobic respiration, have higher rates of ethylene production and lower peroxidase activity as germinating seeds and as seedlings. Relevance of these traits to tolerance of flooding during germination and early growth is discussed.
背景与目的
淹水会减缓直播水稻种子的萌发,造成种子死亡,并延迟幼苗的建立。本研究描述了不同水稻基因型在萌发过程中对淹水或低氧胁迫的响应,并探讨了某些品种所表现出的耐受性的基础。
方法
在一组实验中,将干燥种子播种在土壤中,正常浇水或用10厘米深的水进行淹灌。评估幼苗存活率以及地上部和根部生长情况,并测定萌发幼苗种子部分的可溶性糖和淀粉浓度。对整个萌发幼苗进行淀粉酶和过氧化物酶活性以及乙烯产量的测定。检测与无氧呼吸相关的酶的活性,并分别分析在稀琼脂中不同溶解氧量下萌发种子的基因表达情况。
主要结果
萌发期间淹水降低了存活率,但耐受性基因型的降低程度较小。淹水条件下,萌发种子中的淀粉浓度降低而糖浓度增加,但耐受性基因型更为明显。淀粉酶活性与伸长率呈正相关(地上部r = 0.85,根长r = 0.83),与植株存活率呈正相关(r = 0.92)。耐受性基因型具有较高的淀粉酶活性和较高的RAmy3D基因表达。播种后2天内种子中未检测到乙烯,但此后乙烯增加,从播种后3天开始,耐受性基因型的乙烯增加幅度更大。敏感基因型萌发种子中的过氧化物酶活性较高,且与存活率呈负相关。
结论
在低氧胁迫下,耐受性基因型萌发更快,幼苗生长更快且更多幼苗存活。它们通过较高的淀粉酶活性和无氧呼吸维持利用储存淀粉储备的能力,作为萌发种子和幼苗时具有较高的乙烯产生速率和较低的过氧化物酶活性。讨论了这些性状与萌发和早期生长期间淹水耐受性的相关性。
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