氮素水平对花生氮素代谢及相关酶活性的影响

 在大田高产条件下研究了氮素水平对花生(Arachis hypogaea)可溶性蛋白质、游离氨基酸含量及氮代谢相关酶活性的影响, 结果表明, 适当提高氮素水平既能增加花生各器官中可溶性蛋白质和游离氨基酸的含量, 又能提高硝酸还原酶、谷氨酰胺合成酶和谷氨酸脱氢酶等氮素同化酶的活性, 使其达到同步增加; 氮素水平过高虽能提高硝酸还原酶和籽仁蛋白质含量, 但谷氨酰胺合成酶(GS)和谷氨酸脱氢酶(GDH)的活性下降; N素施肥水平不改变花生植株各器官中可溶性蛋白质、游离氨基酸含量以及硝酸还原酶(NR)、谷氨酰胺合成酶、谷氨酸脱氢酶活性的变化趋势, 但适量施N (A2和A3处理)使花生各营养器官中GS、GDH活性提高; 氮素水平对花生各叶片和籽仁中GS、GDH活性的高低影响较大, 但对茎和根中GDH活性大小的影响较小。     

不同生育期花生叶片蛋白质含量及氮代谢相关酶活性分析

以5个珍珠豆型花生(Arachis hypogaea Linn.)品种(系)‘汕E’(‘Shan E’)、‘汕G’(‘Shan G’)、‘TH’、‘TJ’和‘泉花7号’(‘Quanhua No.7’)为研究对象,分析了花针期、结荚期和饱果期花生叶片中可溶性蛋白质含量及硝酸还原酶(NR)、谷氨酰胺合成酶(GS)和谷氨酸脱氢酶(GDH)活性的变化趋势,并比较了5个品种(系)荚果和秆产量的差异。结果表明:在3个生育期内,5个花生品种(系)叶片可溶性蛋白质含量和GDH活性的变化趋势基本一致,而NR和GS活性的变化趋势则有差异。其中,可溶性蛋白质含量均呈"低—高—低"的变化趋势,在结荚期最高;GDH活性均逐渐升高,至饱果期达最高;‘泉花7号’叶片NR活性呈"高—低—高"的变化趋势,而其他4个品种(系)叶片NR活性均逐渐降低;‘汕E’、‘TJ’和‘泉花7号’叶片GS活性呈逐渐降低趋势,而‘汕G’和‘TH’叶片GS活性呈"低—高—低"的变化趋势。总体上看,5个品种(系)中,‘汕G’和‘泉花7号’叶片的可溶性蛋白质含量及NR和GDH活性、‘汕E’叶片的NR和GS活性以及‘TH’叶片的GDH活性均较高。5个品种(系)的2个产量指标(单株荚果鲜质量和单株秆鲜质量)均有明显差异,总体上看,‘汕G’、‘泉花7号’和‘TH’的2个产量指标均较高,而‘汕E’和‘TJ’的2个产量指标均较低。综合分析结果显示:‘汕G’和‘泉花7号’叶片可溶性蛋白质含量及NR和GDH活性均相对较高,其荚果和秆产量也均较高,表明花生荚果和秆产量与不同生育期叶片氮代谢水平有一定关系。     

氮素水平对作物膜透性等生理特性的影响

以向日葵和玉米为供试作物,进行沙培试验,设置3个氮素水平,研究了氮素水平对双子叶植物的向日葵和单子叶植物玉米耗水量,吸N量,细胞膜透性,根系活力,NR活性,游离氨基酸含量的影响。结果表明氮素供应不足,吸N量减小,细胞膜透性增大,根系活力增强：NR活性与植物叶片中游离氨基酸含量减小,2种作物的耗水量均降低,但水分利用率提高。2种作物相比较,氮素胁迫对双子叶植物向日葵的影响大于对单子叶植物玉米的影响。     

麦秸翻压还田对隔茬冬小麦旗叶抗性的生理效应

为了揭示秸秆翻压还田对冬小麦旗叶叶片衰老及抗性指标的变化规律,试验设置4个小麦秸秆翻压还田量(0、4500、6000、7500kg/hm2),测定分析了冬小麦旗叶叶绿素含量、光合速率、丙二醛(MDA)含量、超氧化物歧化酶(SOD)活性、过氧化物酶(POD)活性及可溶性蛋白质含量等抗性指标。结果表明,秸秆还田可明显减缓冬小麦植株衰老过程中叶片叶绿素的降解和光合速率下降,并有效调节叶片超氧化物歧化酶(SOD)、过氧化物酶(POD)活性下降、可溶性蛋白质含量下降和丙二醛(MDA)含量的增加,延缓了冬小麦生育后期叶片的衰老;通过对各抗性指标与光合速率的相关性分析表明,各抗性指标在抑制冬小麦衰老过程中的作用大小依次为:丙二醛>可溶性蛋白质>POD活性>SOD的活性(丙二醛-0.999**;可溶性蛋白质0.997**;POD活性0.976*;SOD活性0.954*)。综合各处理的抗性指标得出,处理Ⅲ(6000kg/hm2)在提高作物后期抗逆性能力方面表现较好,处理Ⅳ(7500kg/hm2)表现较差。     

杂交稻及其三系叶片衰老过程中SOD、CAT活性和MDA含量的变化

对杂交水稻及其三系主茎第11叶叶片自然衰老过程中超氧物歧化酶(SOD)、过氧化氢酶(CAT)和丙二醛(MDA)含量的变化进行了研究,结果表明:叶片衰老过程中,SOD和CAT活性下降,MDA的含量增加,可作为衰老特征的叶绿素和可溶性蛋白质含量明显下降;SOD的活性和MDA的含量变化相对应;CAT活性大幅度下降与SOD之间的不平衡,致使O_2~-代谢中间产物累积而引起膜的损伤。不育系的衰老进程比杂交水稻、恢复系和保持系慢,其SOD和CAT活性明显高于其它三者,可能是不育系不易早衰的原因之一。     

乙烯对旱后复水玉米某些生理特性的影响

研究了在不同水分条件下盆栽的玉米(Zea mays L)品种'郑单958'幼苗,经乙烯利和AgNO3处理后,其复水前后某些生理特征的变化.结果表明:复水前,在不同程度干旱胁迫下施用乙烯利有利于增加玉米的生物量、叶片相对含水量、总叶绿素含量、可溶性蛋白质含量、叶片硝酸还原酶(NR)活性和谷氨酰胺合成酶(GS)活性;而AgNO3处理明显降低生物量、叶片相对含水量、可溶性蛋白质含量、NR活性和GS活性.复水后,乙烯利处理的玉米生物量、总叶绿素含量、可溶性蛋白质含量明显高于对照,叶片相对含水量、NR和GS活性与对照相近;经轻度与重度干旱后复水,AeNO3处理明显降低玉米生物量和可溶性蛋白含量,对叶片相对含水量、NR、GS活性影响不明显.因此,施用乙烯利有利于提高干旱后复水条件下苗期玉米对干旱的抗性.     

缺氮和复氮对菘蓝幼苗生长及氮代谢的影响

对基质育苗后水培的菘蓝进行缺氮与复氮处理,分析其生长情况及氮代谢产物含量的变化,探讨缺氮和复氮对菘蓝幼苗生长及氮代谢的影响,以提高菘蓝产量和品质以及栽培过程中的氮素利用效率。结果显示:(1)正常供氮条件下,菘蓝幼苗的叶绿素含量、谷氨酰胺合成酶(GS)活性、硝态氮含量、靛玉红含量为最高,而其株高、主根直径、根的鲜重与干重、叶的鲜重与干重、根系活力均最小。(2)缺氮处理增加了菘蓝幼苗的主根直径和根干重,提高其根系活力和硝酸还原酶(NR)活性,促进游离氨基酸在叶中的积累;但降低了GS的活性,也降低了叶中硝态氮、可溶性蛋白、靛玉红及根中游离氨基酸的含量;缺氮对叶中靛蓝的含量无明显影响。(3)复氮处理增加了菘蓝幼苗的株高、主根长、根鲜重、叶鲜重、叶干重,提高了其根系活力,降低了NR和GS的活性;与对照相比,复氮降低了叶中硝态氮含量,提高了叶中可溶性蛋白、靛蓝及根中游离氨基酸的含量,但对叶中游离氨基酸和靛玉红含量影响较小。研究表明,缺氮后再复氮有利于菘蓝幼苗叶的生长,同时有利于增加其叶内靛蓝含量,从而提高其产量和品质。     

不同温度型花生品种的抗衰老特性

以我国北方4个大花生品种为研究材料,于花生结荚期到收获,用红外测温仪对各品种的冠层温度进行连续观测,并测定了花生主茎功能叶片中叶绿素、可溶性糖、可溶性蛋白、丙二醛（MDA）含量及硝酸还原酶（NR）、超氧化物歧化酶（SOD）和过氧化氢酶（CAT）活性。结果表明,不同品种花生冠层温度存在明显差异。冠层温度低的品种比冠层温度高的品种叶绿素、可溶性糖、可溶性蛋白含量及NR、SOD和CAT活性明显偏高,而MDA含量明显偏低,且越往生育后期越明显,说明冠层温度低的品种比冠层温度高的品种生活力更旺盛,抵抗衰老能力更强。因此,冠层温度可作为花生抗衰老能力的一个重要指标,用于指导花生育种和栽培等生产实践。     

黑暗诱导衰老对不同年代冬小麦品种旗叶光系统Ⅱ功能的影响

小麦品种的更新换代是小麦产量不断提高的重要因素,阐明小麦品种演替过程中不同生理特性的变化对新品种选育具有重要参考价值.旗叶衰老速率快慢是影响小麦产量水平的关键因素,目前对于不同小麦品种衰老过程中旗叶光系统Ⅱ功能的变化规律尚不清楚.本试验选用1941-2014年间河南地区不同时期种植的31个品种,通过黑暗诱导离体叶片衰老,测定旗叶叶绿素荧光诱导动力学参数、叶绿素相对含量的变化,分析了光系统Ⅱ功能的变化规律.结果表明:品种演替过程中旗叶的叶绿素含量逐渐提高,衰老过程中近代品种叶绿素的降解速率低于较早年代品种;旗叶衰老过程中,近代品种荧光诱导动力学曲线的J点上升幅度小于I点;品种更替过程中光系统Ⅱ最大光化学效率和单位面积有活性反应中心数目逐渐增加,但是近代品种降低速率低于较早年代品种.叶绿素含量的变化与未衰老叶片中F_v/F_m没有显著相关性,但是随着衰老程度增加,相关性逐渐增大,且趋势线斜率逐渐提高;光系统Ⅱ单位面积有活性反应中心数目与品种育成时间呈显著正相关,且随着衰老程度增加,相关程度和趋势线斜率均显著提高.综上,小麦品种演替过程中,旗叶叶绿素含量逐渐升高,降解速率逐渐减缓,光合电子传递过程中Q_A到Q_B电子传递的抗衰老能力得到改善,从而减缓了衰老过程中光系统Ⅱ最大光化学效率和有活性反应中心的衰减速率,同时,叶绿素含量的提高和旗叶光系统Ⅱ抗衰老能力的增强也是品种更替过程中产量逐渐提高的重要因素.     

镉胁迫对旱柳光合作用和内肽酶变化的影响

通过水培方法,添加不同浓度CdCl2(0、5、25、50 μmol·L^-1)处理14 d,测定叶绿素含量、核酮糖-1,5-二磷酸羧化酶/加氧酶(Rubisco)和磷酸烯醇式丙酮酸羧化酶(PEPC)活性、游离氨基酸含量及内肽酶活性,调查Cd对旱柳光合作用和内肽酶变化活性影响。结果发现：Cd处理降低了总叶绿素、叶绿素a、b含量; Rubisco活性随着介质中Cd浓度增加而降低;Cd抑制根和叶PEPC活性;同对照相比,根中游离氨基酸含量没有显著变化,而叶中游离氨基酸含量增加;不同浓度Cd处理降低根的内肽酶活性,高浓度Cd使叶内肽酶活力增加。这些结果表明,Cd通过降低叶绿素含量,促进叶内肽酶活性和抑制了CO₂羧化酶活性来影响旱柳光合作用。     

Effect of Light Quality on Nitrogen Metabolism of Radish Plants

The long-term action of blue or red light on nitrogen metabolism was studied in radish (Raphanus sativus L.) plants. The potential activity of nitrate reductase (NR) in vivo and its maximum activity in vitro, the content of soluble protein and free amino acids were determined in the course of the growth of a third leaf of radish plants. The effect of light quality on NR activity was found to depend significantly on the stage of leaf development. Blue light (BL) stimulated NR activity in leaves, when their areas were about 11–13% of the fully developed leaves. The efficiency of red light (RL) was significantly lower, because the maximum NR activity was observed in the leaves developed to the stage, when their areas were 38–40% of the final one. The comparative analysis of the pool of free amino acids in expanding leaves of BL- or RL-grown plants revealed significant changes in the contents of individual amino acids. Despite a higher accumulation of two amino acids in the leaves of BL-grown plants, namely, Asp (27% as compared to 13–16% in the RL-grown leaves) and Gly (5% against 2.5% in RL-grown leaves), the BL-grown leaves also demonstrated a significant decrease in Ala (10% as compared to 23% in the RL-grown leaves) and some decrease in the amounts of Ser and Gly. The content of soluble protein in a juvenile BL-grown leaf was observed to decrease gradually during leaf development. However, the protein content in the BL-grown leaf was always higher than in the RL-grown leaf of the same age. We concluded that the photoregulatory action of BL on NR activity determined the different rates of nitrogen assimilation in BL- and RL-grown plants.__________Translated from Fiziologiya Rastenii, Vol. 52, No. 3, 2005, pp. 349–356.Original Russian Text Copyright © 2005 by Maevskaya, Bukhov.     

Changes occurring during aging and senescence in a submerged aquatic angiosperm (Potamogeton pectinatus)

Changes occurring during aging and senescence of leaves of a submerged aquatic angiosperm ( Potamogeton pectinatus L.) were studied. Total chlorophyll and chlorophylls a and b were maximal in mature, and minimal in old leaves. The chlorophyll a to b ratio was highest in mature leaves. During senescence, the chlorophyll content and the ratio of chlorophyll a to b decreased. The content of DNA, RNA, protein and dry weight, and the activity of alkaline pyrophosphatase decreased while free amino acids, the activity of protease, RNase and acid pyrophosphatase, and the ratio of acid to alkaline pyrophosphatase activity increased during aging and senescence. Kinetin (0.23 m M ) deferred leaf senescence by delaying the loss of chlorophyll, protein, nucleic acids and dry weight, and reducing the rise in free amino acids, the activity of protease, RNase and acid pyrophosphatase and the ratio of acid to alkaline pyrophosphatase activity; while both 0.69 m M ethrel and 0.075 m M ABA hastened senescence. Kinetin pretreatment for an optimum period (12 h) followed by ethrel or ABA treatment partially erased the senescence-promoting effect of the latter. But treatments in a reverse order markedly reduced the delaying effect of kinetin on senescence.     

水稻永绿色基因超表达和突变对其叶片氮碳代谢若干指标的影响

通过水培实验,研究了水稻永绿色(Stay-green rice,SGR)基因超表达和突变对叶片氮碳代谢的影响。结果表明,在正常生长条件下,SGR基因超表达降低了水稻叶片可溶性蛋白、叶绿素及淀粉的含量,但可溶性糖和游离氨基酸含量增加,并提高了谷氨酰胺合成酶(GS)活性和谷氨酸合成酶(GOGAT)活性;SGR基因突变增加了水稻叶片淀粉和可溶性蛋白质含量,并提高了硝酸还原酶(NR)活性。在缺氮条件下,SGR基因超表达与野生型叶片各生理指标的变化趋势一致,但是SGR基因突变体叶片中淀粉含量的变化趋势与野生型及SGR基因超表达的不一致。这说明SGR蛋白水平的变化在一定程度上影响了水稻叶片的氮碳代谢。     

Induction of leaf senescence by low nitrogen nutrition in sunflower (Helianthus annuus) plants

Different parameters which vary during the leaf development in sunflower plants grown with nitrate (2 or 20 mM) for a 42‐day period have been determined. The plants grown with 20 mM nitrate (N+) showed greater leaf area and specific leaf mass than the plants grown with 2 mM nitrate (N?). The total chlorophyll content decreased with leaf senescence, like the photosynthetic rate. This decline of photosynthetic activity was greater in plants grown with low nitrogen level (N?), showing more pronounced senescence symptoms than with high nitrogen (N+). In both treatments, soluble sugars increased with aging, while starch content decreased. A significant increase of hexose to sucrose ratio was observed at the beginning of senescence, and this raise was higher in N? plants than in N+ plants. These results show that sugar senescence regulation is dependent on nitrogen, supporting the hypothesis that leaf senescence is regulated by the C/N balance. In N+ and N? plants, ammonium and free amino acid concentrations were high in young leaves and decreased progressively in the senescent leaves. In both treatments, asparagine, and in a lower extent glutamine, increased after senescence start. The drop in the (Glu+Asp)/(Gln+Asn) ratio associated with the leaf development level suggests a greater nitrogen mobilization. Besides, the decline in this ratio occurred earlier and more rapidly in N? plants than in N+ plants, suggesting that the N? remobilization rate correlates with leaf senescence severity. In both N+ and N? plants, an important oxidative stress was generated in vivo during sunflower leaf senescence, as revealed by lipid peroxidation and hydrogen peroxide accumulation. In senescent leaves, the increase in hydrogen peroxide levels occurred in parallel with a decline in the activity of antioxidant enzymes. In N+ plants, the activities of catalase and ascorbate peroxidase (APX) increased to reach their highest values at 28 days, and later decreased during senescence, whereas in N? plants these activities started to decrease earlier, APX after 16 days and catalase after 22 days, suggesting that senescence is accelerated in N‐leaves. It is probable that systemic signals, such as a deficit in amino acids or other metabolites associated with the nitrogen metabolism produced in plants grown with low nitrogen, lead to an early senescence and a higher oxidation state of the cells of these plant leaves.     

Mulberry Leaf Metabolism under High Temperature Stress

Effects of high temperature on the activity of photosynthetic enzymes and leaf proteins were studied in mulberry (Morus alba L. cv. BC2-59). A series of experiments were conducted at regular intervals (120, 240 and 360 min) to characterize changes in activities of ribulose-1,5-bisphosphate carboxylase (RuBPC) and sucrose phosphate synthase (SPS), photosystem 2 (PS 2) activity, chlorophyll (Chl), carotenoid (Car), starch, sucrose (Suc), amino acid, free proline, protein and nucleic acid contents in leaves under high temperature (40 °C) treatments. High temperature markedly reduced the activities of RuBPC and SPS in leaf extracts. Chl content and PS 2 activity in isolated chloroplasts were also affected by high temperature, particularly over 360 min treatment. Increased leaf temperature affected sugar metabolism through reductions in leaf starch content and sucrose-starch balance. While total soluble protein content decreased under heat, total amino acid content increased. Proline accumulation (1.5-fold) was noticed in high temperature-stressed leaves. A reduction in the contents of foliar nitrogen and nucleic acids (DNA and RNA) was also noticed. SDS-PAGE protein profile showed few additional proteins (68 and 85 kDa) in mulberry plants under heat stress compared to control plants. Our results clearly suggest that mulberry plants are very sensitive to high temperature with particular reference to the photosynthetic carbon metabolism.     

Characterisation of grain yield and nitrogen level in relation to flag leaf senescence of wheat varieties

Three wheat cultivars ( Triticum aestivum L.), Splendeur, Hobbit and Maris Huntsman grown in pots were compared. Especially when compared to Splendeur, the flag leaf senesced most rapidly in Maris Huntsman, which presented the most rapid loss of moisture, chlorophyll and nitrogen. The uptake of exogenous nitrogen during the post-anthesis period was lower in the rapidly than in the slowly senescing variety. A higher concentration of free amino nitrogen in the flag leaf at a given sampling date was associated with a lower percentage decrease of soluble proteins at the following date. Acid proteinase activity in the flag leaf was inversely related to moisture percentage and free amino nitrogen level, but unrelated to the nitrogen loss of the flag leaf. Acid proteinase activity in the flag leaf was directly related to grain nitrogen percentage, but inversely related to grain yield. Grain yield was also directly related to the mean soluble protein content of the flag leaf through senescence.