不同形态氮素对专用型小麦花后氮代谢关键酶活性及籽粒蛋白质含量的影响

采用盆栽方法研究了氮素形态对不同专用型小麦开花后氮素同化关键酶活性及籽粒蛋白质含量的影响。结果表明:不同专用型小麦氮素同化关键酶硝酸还原酶、谷氨酰胺合成酶和谷氨酸合酶对氮素形态的反应不同。强筋小麦豫麦34施用酰胺态氮对旗叶硝酸还原酶和谷氨酰胺合成酶活性、籽粒谷氨酰胺合成酶和谷氨酸合酶活性具有明显的促进作用,最终籽粒蛋白质含量较高;中筋小麦豫麦4 9在施用铵态氮时,3种氮素同化关键酶活性均有较大增强,籽粒蛋白质含量最高;弱筋小麦豫麦5 0硝酸还原酶活性以铵态氮处理最高,而籽粒和旗叶谷氨酰胺合成酶和谷氨酸合酶活性在酰胺态氮处理下明显增强,酰胺态氮对籽粒中蛋白质含量的增加具有明显的促进作用。相关性分析表明,籽粒蛋白质含量与旗叶GS活性和籽粒GOGAT活性呈显著或极显著正相关,与旗叶NR活性和GS活性、籽粒GOGAT活性相关性不显著     

大麦氮敏感基因型苗期对氮饥饿的生理响应

以大田试验获得的大麦氮敏感基因型BI-45为材料,利用溶液培养方法,测定了苗期株高、根长、叶绿素含量、含氮量、谷氨酰胺合成酶和硝酸还原酶活性,以及与氮代谢相关的基因（GSI-GSl-2、GSI-3、GS2、Narl、NRT2．J、NRT2-2、NRT2-3和NRT2-4）的表达。结果表明：相对于正常供氮,氮饥饿胁迫下,BI-45根和叶中的氮素利用率提高,含氮量降低,叶绿素含量减少,根冠比增加;叶片中的谷氨酰胺合成酶活性和硝酸还原酶的活性高于根,但是,与叶中的相比,根中的谷氨酰胺合成酶活性升高及硝酸还原酶活性降低的差异性更显著;与正常供氮相比,氮饥饿处理下,根中基因傩家族,基Narl和硝酸盐转运蛋白基因NRT2家族的相对表达量皆达到显著性差异,其中GSl-I、GSl-2和NRT2-2在苗期大麦氮饥饿处理下表现尤为突出,并且在6h都有上调表达。     

灌水时期和灌水量对小麦氮代谢相关酶活性和籽粒蛋白质品质的影响

以高产强筋小麦品种'济麦20'为试验材料,在防雨池栽条件下研究了灌水时期和灌水量对小麦氮代谢相关酶活性和籽粒蛋白质品质的影响.结果表明,随灌水时期增多和总灌水量增加,小麦开花后旗叶硝酸还原酶活性和谷氨酰胺合成酶活性显著增高,旗叶蛋白质水解酶内肽酶(EP)、氨肽酶(AP)、羧肽酶(CP)活性降低;小麦籽粒清蛋白和球蛋白含量增加,而籽粒谷蛋白和醇溶蛋白含量、成熟期籽粒谷醇/清球比值(谷蛋白+醇溶蛋白含量/清蛋白+球蛋白含量)降低;面粉沉降值和面团稳定时间显著降低,籽粒产量显著增加.研究发现,在本试验条件下,小麦全生育期灌水3次处理(底墒水+拔节水+开花水)在灌浆前中期旗叶NR和GS活性、灌浆中后期旗叶EP、CP、AP 活性均较高,且成熟期籽粒蛋白质含量、谷醇/清球比值、面团稳定时间、籽粒产量亦较高,是获得小麦高产优质的最佳灌水处理.     

不同光质和钙对小麦幼苗硝酸还原酶和谷氨酰胺合成酶活性的影响(简报)

蓝光、红光、远红光都可诱导小麦幼苗硝酸还原酶的活性。黄化苗经红光照射后立即照射远红光,可逆转红光对硝酸还原酶活性的诱导效应,钙可促进这一效应。绿苗在缺钙时没有光逆转效应,有钙时则表现部分逆转效应。谷氨酰胺合成酶活性和硝酸还原酶活性的变化趋势在总体上是一致的。两种酶活性受钙促进,与ＮＯ~(－)_３－Ｎ积累呈负相关。     

灌浆期间不同穗型冬小麦品种源库端的碳氮化合物含量及与其相关的酶活性变化

灌浆期间冬小麦多穗型品种豫麦49和大穗型品种豫麦66旗叶中蔗糖磷酸合成酶活性和可溶性糖含量变化均呈单峰曲线,后者的峰值出现较晚,灌浆中后期叶片中相关的酶活性下降缓慢。两品种旗叶中硝酸还原酶活性变化趋势基本相同,开花后5～20d问,豫麦49旗叶中NR活性高于豫麦66,20～35d间情况相反。在整个灌浆期间豫麦49籽粒淀粉积累速率呈双峰曲线,峰值分别出现在花后15～20d和25～30d问;豫麦66则为单峰曲线,峰值出现较晚但持续时间较长。     

不同氮源对小麦幼苗谷氨酰胺合成酶的影响

利用ＤＥＡＥ－纤维素柱层析、酶活性测定、Ｎｏｒｔｈｅｒｎ 分子杂交等技术,研究了小麦（Ｔｒｉｔｉｃｕｍ ａｅｓｔｉｖｕｍ Ｌ．）幼苗的根、叶和离体叶在不同氮源培养条件下谷氨酰胺合成酶（ＧＳ）活性和同工酶变化, 以及不同氮源对ＧＳ基因转录－ＧＳ－ｍ ＲＮＡ 的影响． 同时与硝酸还原酶（ＮＲ）活性进行比较, 结果表明∶当以ＮＨ＋４ 作唯一氮源时,小麦幼苗根谷氨酰胺合成酶（ＧＳｒ）和叶细胞质谷氨酰胺合成酶（ＧＳ１）活性要比以ＮＯ－３ 作唯一氮源的高．当以ＮＯ－３ 为唯一氮源时, ＮＯ－３ 则促进完整叶片和离体叶片叶绿体谷氨酰胺合成酶（ＧＳ２）活性． 从转录水平上看,ＮＨ＋４ 促进根ＧＳ－ｍ ＲＮＡ 的合成,而ＮＯ－３ 促进叶ＧＳ－ｍ ＲＮＡ 的合成     

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。     

追氮时期对小麦光合作用、^14C同化物运转分配和硝酸还原酶活性的影响

采用盆栽和水泥池栽研究了追氮时期对小麦光合作用、^14C同化物运转分配和硝酸还原酶（NR）活性的影响,结果表明,拔节（雌雄蕊原基形成）期较起身（二棱）期追施氮肥,显著提高了小麦开花后的旗叶叶绿素含量和单叶光合速率;灌浆期旗叶^14C同化物向籽粒转移比例显著提高,而在营养器官的滞留比例显著降低;旗叶和根系中硝酸还原酶（NR）活性亦显著提高,小麦穗粒数、粒重和产量增加,蛋白质含量提高。     

潘庆民1,于振文2,王月福2

采用盆栽和水泥池栽研究了追氮时期对小麦光合作用、14C同化物运转分配和硝酸还原酶(NR)活性的影响.结果表明,拔节(雌雄蕊原基形成)期较起身(二棱)期追施氮肥,显著提高了小麦开花后的旗叶叶绿素含量和单叶光合速率;灌浆期旗叶14C同化物向籽粒转移比例显著提高,而在营养器官的滞留比例显著降低;旗叶和根系中硝酸还原酶(NR)活性亦显著提高.小麦穗粒数、粒重和产量增加,蛋白质含量提高.     

不同小麦品种氮效率与氮吸收对氮素供应的响应及生理机制

以具有典型特征的不同氮效率小麦品种为材料,研究了低氮和高氮条件下小麦的生物学性状、生理参数和氮同化代谢酶活性.结果表明:低氮条件下,不同氮效率小麦品种根系干质量、茎叶干质量、植株氮累积量基本上为氮高效品种>中效品种>低效品种.低氮条件下,氮吸收高效品种（冀97-6360）的根系活跃吸附面积、TTC还原力、叶片硝酸还原酶活性和叶片NO₃^-含量最大;生理高效品种(石新5418)具有较高的叶片亚硝酸还原酶活性和谷氨酰胺合成酶活性,较低的植株全氮含量、叶片NO₃^-含量和硝酸还原酶活性.低氮条件下植株氮利用效率与氮吸收系数显著相关.不同小麦品种在高氮条件下的生物学性状、生理参数和氮同化代谢酶活性与低氮条件下不尽一致.     

不同环境条件下小麦氮代谢关键酶活性及籽粒品质

研究了两种环境条件下3个不同蛋白含量小麦品种的氮代谢关键酶活性及籽粒品质的差异.结果表明,龙口试验点的小麦旗叶硝酸还原酶(NR)、谷胺酰氨合成酶(GS)和籽粒谷胺酰氨合成酶活性均显著高于泰安试验点,3个品种间的酶活性顺序均为：济麦20＞优麦3号＞PH971942.优质强筋小麦品种的籽粒综合品质性状在龙口试验点的表现优于泰安试验点. 灌浆期环境因素与小麦籽粒品质和酶活性存在显著的相关性,灌浆期间的较高气温、适当干旱和寡照环境有利于提高小麦籽粒品质.龙口试验点的中、强筋小麦品种和泰安试验点的中筋小麦品种蛋白质含量与旗叶NR和GS活性均达显著正相关.小麦品种用途不同,对环境条件的要求不同,适宜的环境条件提高了氮代谢关键酶的活性,利于改善小麦品质.     

土壤水分对强筋小麦‘豫麦34’氮素同化酶活性和籽粒品质的影响

 以强筋型小麦(Triticum aestivum)品种‘豫麦34号’为材料,采用盆栽方法研究了土壤水分对氮素同化酶活性及籽粒品质的影响。结果表明：旗叶硝酸还原酶（NR）活性于花后呈下降趋势,且土壤含水量为田间持水量（FC）60%的处理活性最强,其次为40%FC,活性最低的是80%FC。旗叶和籽粒中谷氨酰胺合成酶（GS）活性于开花15 d前均呈下降趋势,15 d后均为上升趋势,各水分处理间酶活性大小关系是：80%FC＞60%FC＞40%FC。各水分处理间旗叶和籽粒谷氨酸合成酶（GOGAT）活性的大小关系同GS。60%FC籽粒产量及品质最优,80%FC产量次之,40%FC产量最低;40%FC品质次之,80%FC品质最低。不同水分处理下籽粒蛋白质含量与叶片NR、GS 和籽粒GOGAT活性均呈正相关,与旗叶GOGAT活性呈负相关。且40%FC和80%FC下籽粒蛋白质含量只与旗叶GS活性相关性达显著水平, 60%FC下蛋白质含量则与旗叶NR和籽粒GS活性均达显著相关,与旗叶GS活性达极显著相关。     

Wheat nitrogen metabolism during grain filling: comparative role of glumes and the flag leaf

The mobilization of nitrogen (N) compounds and the roles played by glumes and the flag leaf during grain filling were studied in bread wheat (Triticum aestivum L. cv. Florida) grown under field conditions. Glumes lost twice as much of their total N content as that lost by the flag leaf between the milk and early dough stages. In the flag leaf, glumes and grains, Glu, Asp, Ser and Ala accounted for 85% of all the reductions in the free amino acid pool. Principal component analysis of free amino acid pools separated grains from the glumes and the flag leaf, suggesting grain specific regulations in the use of free amino acids in protein synthesis. In all three organs, no decrease in Gln was detected, probably due to steady glutamine synthetase (GS; EC 6.3.1.2) activities per soluble protein in both the flag leaf and glumes. Compared with the flag leaf, glumes presented relatively smaller amounts of the chloroplast GS associated isoform. This we show is due to a lower relative number of mesophyll cells in glumes as supported by the different anatomy and the cellular pattern of the GS immunolocalization. We argue that cellular distribution plays a key role in supporting metabolism to enable the various functions undertaken by glume tissue.     

Changes in the cellular and subcellular localization of glutamine synthetase and glutamate dehydrogenase during flag leaf senescence in wheat (Triticum aestivum L.)

In order to improve our understanding of the regulation of nitrogen assimilation and recycling in wheat (Triticum aestivum L.), we studied the localization of plastidic (GS2) and cytosolic (GS1) glutamine synthetase isoenzymes and of glutamate dehydrogenase (GDH) during natural senescence of the flag leaf and in the stem. In mature flag leaves, large amounts of GS1 were detected in the connections between the mestome sheath cells and the vascular cells, suggesting an active transfer of nitrogen organic molecules within the vascular system in the mature flag leaf. Parallel to leaf senescence, an increase of a GS1 polypeptide (GS1b) was detected in the mesophyll cytosol of senescing leaves, while the GS protein content represented by another polypetide (GS1a) in the phloem companion cells remained practically constant in both leaves and stems. Both GDH aminating activity and protein content were strongly induced in senescing flag leaves. The induction occurred both in the mitochondria and in the cytosol of phloem companion cells, suggesting that the shift in GDH cellular compartmentation is important during leaf nitrogen remobilization although the metabolic or sensing role of the enzyme remains to be elucidated. Taken together, our results suggest that in wheat, nitrogen assimilation and recycling are compartmentalized between the mesophyll and the vasculature, and are shifted in different cellular compartments within these two tissues during the transition of sink leaves to source leaves.     

The effect of reducing growth in winter wheat on the population dynamics of the grain aphid Sitobion avenae (F.)

1 The effect of reducing the growth of winter wheat on population size and development of the grain aphid Sitobion avenae was studied. 2 Automatic, mobile, crop shading devices, which reduced radiation comparable to levels found on a cloudy day, whilst minimizing other climatic changes, were used to reduce crop growth. Shading was applied between either GS 31 and 39 (1st node detectable → flag leaf ligule just visible) or GS 39 and 55 (flag leaf just visible → 50% of inflorescence emerged). 3 Sitobion avenae populations were initiated at GS 55 and highest populations were subsequently observed on plants shaded between GS 31 and 39. 4 Individual aphids confined within clip cages were observed to measure development from birth to adult moult, adult lifespan and fecundity. Results indicated that adult lifespan was shortest on plants shaded between GS31 and 39, whilst there were no differences in development time or fecundity. 5 Possible explanations for these observations are discussed.     

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.     

Increased glutamine synthetase activity and changes in amino acid pools in leaves treated with 5-aminoimidazole-4-carboxiamide ribonucleoside (AICAR)

Feeding 5-aminoimidazole-4-carboxiamide ribonucleoside (AICAR) through the petiole of detached young barley leaves rapidly increased activities of NADH-nitrate reductase (NR) and glutamine synthetase (GS) in leaf extracts and at least partly prevented the usual slow decrease of these enzyme activities during prolonged illumination. Further, AICAR caused drastic changes in amino acid levels: glutamine and serine levels were increased whereas glutamate and glycine were decreased, probably indicating a higher GS activity and more rapid conversion of glycine into serine. The latter may be responsible for the higher ammonium contents found in AICAR treated leaves. We tentatively suggest that GS (located in the chloroplast) and glycine decarboxylase (located in the mitochondria) are regulated in a manner similar to NR. This is discussed in the light of recent reports that 14-3-3 isoforms exist in chloroplasts and that GS binds to 14-3-3s in vitro.     

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。