小麦-冰草异源衍生系籽粒蛋白质特性分析

为了研究小麦-冰草异源衍生系的蛋白质品质性状,以大面积推广的6个小麦品种为对照,采用国际(ICC)标准和常规分析方法,对16个小麦-冰草异源衍生系的蛋白质组分、湿面筋含量、SDS沉淀值、谷蛋白溶涨指数(SIG)以及高分子量谷蛋白亚基(HMW-GS)组成等蛋白质品质特性进行了系统分析.结果表明,小麦-冰草异源衍生系平均蛋白质含量为11.60%,略高于对照品种的平均值(11.31%);蛋白质组分中,清蛋白、谷蛋白的平均含量分别为26.02%和44.15%,略高于对照品种,球蛋白、醇溶蛋白的平均含量分别为5.96%和24.30%,略低于对照品种;湿面筋含量、SIG的平均值显著高于对照品种;SDS沉淀值的平均值略高于对照品种;HMW-GS电泳分析显示,含有7 8优质亚基、亚基总评分为8分的小麦-冰草异源衍生系占81.25%.16个衍生系中,1-1-7、10-36、10-78、20-1-1-2和20-1-1-2-4的蛋白质含量、湿面筋含量、SDS沉淀值、SIG值均高于对照品种的平均值,HMW-GS组成均为1/7 8/2 12,可作为小麦优质蛋白质基因的供体.     

小麦籽粒蛋白质组分的变异及其与面粉品质的关系

为了探究小麦籽粒蛋白质组分的变异及其相对比例的变化对小麦籽粒品质的影响,在两个不同的小麦品质生态区,选用大面积推广的40个小麦品种(系)为材料,研究了小麦籽粒蛋白质各组分在基因型与环境间的变异,以及蛋白质组分与面粉品质的关系。结果表明,小麦籽粒蛋白质各组分含量在基因型间差异显著,而在环境间各组分含量的变异是一种非比例的增减,导致了籽粒蛋白质质量在环境间的显著差异。徐州点生态环境利于谷蛋白的合成,谷醇比显著大于南京点。在蛋白质各组分的关系中,清蛋白含量的增加降低了谷蛋白和醇溶蛋白含量,球蛋白含量的增加则降低了谷醇比,从而降低了沉淀值。蛋白质各组分含量及比例与面粉品质密切相关,是理想的品质微量评价指标。在高蛋白品种中,当谷醇比为1.3左右时,面粉面包烘烤品质较好。     

夏玉米不同粒位蛋白质组分氮素效应及与子粒脱水的关系研究

从蛋白质粒位差异的角度,以不同自然脱水类型玉米品种为材料,分析不同氮肥运筹处理下不同部位子粒蛋白质组分含量、子粒脱水速率,研究子粒脱水与蛋白质组分和氮素施用的关系。结果表明,脱水速率差异较大的品种总蛋白质存在较大差异,蠡玉16和先玉335总蛋白质含量分别为11.25%、12.16%。增施氮肥蛋白质含量明显增加;增施氮肥主要增加了醇溶蛋白和谷蛋白含量,清蛋白和球蛋白含量影响较小。增施氮肥生理成熟后不同处理间脱水速率存在显著差异;蛋白质组分和脱水速率之间存在密切关系,先玉335生理成熟后不同部位间醇溶蛋白和谷蛋白与脱水速率呈显著或极显著负相关,醇谷比与子粒脱水呈正相关。     

稻米蛋白质组分及总蛋白质含量与淀粉RVA谱特征值的关系

 利用低谷蛋白含量（low glutelin content, LGC）粳稻品种W1721与大面积应用的杂交粳稻恢复系轮回422构建了重组自交系群体。根据种子总蛋白质的SDS PAGE带型,推断各单株LGC位点的基因型。在排除脂肪的影响下,比较了基因型LGCLGC（谷蛋白含量较醇溶蛋白低）与基因型lgclgc（谷蛋白含量较醇溶蛋白高）在RVA谱特征值上的差异,以及同一基因型内总蛋白质含量与淀粉RVA谱特征值的关系。结果表明基因型LGCLGC的崩解值和回复值的平均值分别显著和极显著大于基因型lgclgc;LGC对崩解值和回复值的相对加性效应分别为3.91%和4.45%,贡献率分别为4.81%和12.81%。LGCLGC型的稻米,总蛋白质含量与崩解值和消减值分别存在显著的负线性回归和正线性回归关系,贡献率分别为9.86%和11.48%;lgclgc型的稻米,总蛋白质含量与消减值和回复值都存在极显著的负线性回归关系,贡献率分别为1341%和27.88%。结合前人研究认为,稻米食味品质受谷蛋白相对于醇溶蛋白的含量以及总蛋白质含量的影响;而总蛋白质含量对食味品质的影响因谷蛋白相对于醇溶蛋白的含量的不同而异。因此,育种工作中应当把谷蛋白相对于醇溶蛋白的含量以及总蛋白质含量同时作为选择指标。     

水稻籽粒不同部位植酸含量及其与稻米品质的相关性

 选用13个不同类型的水稻品种,对其籽粒不同部位植酸含量品种间差异及与稻米主要品质性状间的相关性进行了分析。结果表明,供试13个水稻品种米糠、糙米、颖壳、精米的植酸含量平均值分别为48.51、9.77、1.40和0.91 mg/g,而且不同水稻品种间籽粒不同部位的植酸含量存在极显著差异。在籽粒中,米糠中植酸积累最多,其次是精米,颖壳最少。米糠中植酸含量与糙米和颖壳中植酸含量呈极显著正相关。糙米和米糠中植酸含量与稻米蛋白质含量均呈显著的负相关,与千粒重均呈显著正相关。     

氮素形态对两个不同氮效率小麦品种籽粒蛋白质的影响

为探索提高氮素利用率的途径，采用盆栽方法研究了两个不同氮效率小麦品种籽粒蛋白质形成的差异及不同形态氮素对其的影响。结果表明，高氮吸收型小麦品种秦麦11灌浆期籽粒GS、GPT活性、蛋白质及其组分含量均大于低氮吸收型小麦品种扬9817。不同氮素形态对两个不同氮效率小麦品种籽粒蛋白质及其动态变化、蛋白组分含量及其动态变化的影响不同。高氮吸收型小麦品种秦麦11籽粒蛋白质及其组分含量均表现为酰胺态氮处理〉铵态氮处理〉硝态氮处理。处理间蛋白质含量、球蛋白含量、谷蛋白含量的差异达到显著水平。低氮吸收型小麦品种扬9817籽粒蛋白质含量、清蛋白含量、球蛋白含量、醇溶蛋白含量均表现为酰胺态氮处理〉硝态氮处理〉铵态氮处理，谷蛋白含量在酰胺态氮处理下最高，硝态氮处理下最低，处理间清蛋白含量、醇溶蛋白含量、谷蛋白含量的差异达到显著水平。     

大麦高赖氨酸的遗传与选择研究Ⅰ.大麦品种蛋白质组分及赖氨酸含量的分析

在 1 997～ 1 999年的 3年中 ,共测定了 2 7个大麦品种 (次 )的蛋白质和赖氨酸含量 ,并测定了其中7个品种的蛋白质组分及赖氨酸含量。结果表明 ,大麦品种的蛋白质与赖氨酸含量在年份间有一定的变化 ,但各年中品种间的高低顺序大体是一致的。大麦盐溶蛋白、醇溶蛋白和谷蛋白分别占蛋白质总量的 3 0 .96%、3 6.76%、3 2 .2 8%。各组分中的赖氨酸 ,以盐溶蛋白中最高 ,谷蛋白中次之 ,醇溶蛋白中最低。因此 ,赖氨酸的改良应尽可能提高其盐溶蛋白的含量     

大麦高赖氨酸的遗传与选择研究——Ⅰ.大麦品种蛋白质组分及赖氨？…

在１９９７－１９９９年的３年中,共测定了２７个大麦品种（次）的蛋白质和赖氨酸含量,并测定了其中７个品种的蛋白质组分及赖氨酸含量。结果表明,大麦品种的蛋白质与氨酸含量在年份间有一定的变化,但各年中品种间的高低顺序大体是一致的。大麦盐溶蛋白、醇溶蛋白和谷蛋白分别占蛋白质总量的３０．９６％、３６．７６％、３２．２８％。各组分中的赖氨酸,以盐溶蛋白中最高,谷蛋白中次之,醇溶蛋白中最低。因此,赖氨酸的改良应     

大豆种子贮存蛋白组成及其相关分析

1988年选用14个,1989年选用15个蛋白质含量差异较大的主要为江淮地区的大豆品种,进行随机区组试验。大豆种子中球蛋白、清蛋白、醇溶谷蛋白以及谷蛋白的品种间平均分别为28.56％、7.50％、1.81％和5.71％,品种间变幅分别为6.08％、10.25％、1.03％和6.51％。清蛋白含量与全蛋白含量。谷蛋白含量与全蛋白含量之间显著正相关,清蛋白含量对种子全蛋白含量品种间差异的相对贡献最大,而球蛋白含量对品种间全蛋白含量差异的相对贡献最小。球蛋白含量与株高、分枝数和单株粒重存在显著的正相关;但株高和清蛋白含量、单株荚数及单株粒数和谷蛋白含量有显著负相关。     

水稻种子蛋白质的组成和积累形态对稻米品质的影响

设置水培试验对‘16-17’（谷蛋白前体聚合物明显,含量高）和‘16-20’（谷蛋白前体聚合物不明显,含量低）分别进行CK（氮2800 μmol/L,硫80 μmol/L）、N（氮3640 μmol/L,硫80 μmol/L）、S（氮2800 μmol/L,硫260 μmol/L）、N+S（氮3640 μmol/L,硫260 μmol/L）处理,以此改变稻米品质和稻米贮藏蛋白质的组成与含量,从而对稻米蛋白质各组分及相关品质性状进行分析。结果表明：（1）在N、S和N+S的不同处理下均增加了粗蛋白的含量,使‘16-20’的稻米粗蛋白百分含量分别增加2.35%、2.67%和2.73%;（2）在2个品种的各组分蛋白含量变化中,‘16-17’的醇溶蛋白和谷蛋白的百分含量在N、S和N+S下较对照分别增加了9.75%、4.21%和4.67%,3.92%、7.38%和12.92%。‘16-20’的谷蛋白百分含量在S和N+S处理下增加了17.72%和29.38%,醇溶蛋白百分含量在N+S下增加了3.73%,而球蛋白百分含量在N、S和N+S三个处理下降低了2.86%、3.78%和3.69%,清蛋白在N、S处理下显著降低;（3）谷蛋白的2个亚基的相对含量和57 kDa谷蛋白前体及57 kDa以上谷蛋白聚合体的积累在‘16-20’品种中明显增加。（4）稻米品质中,N、S配施对2个参试品种的碾磨品质性状的影响不明显,但有利于2个品种稻米外观品质和食味品质的改善,并使‘16-20’的营养品质显著增加,另外,‘16-20’的千粒重在S和N+S处理下显著增加。故不同N、S配施处理下,不同品种水稻贮藏蛋白质的组成和积累形态差异很大,并改变了含巯基蛋白质组分的积累量和积累形态。尤其是在富S条件下,蛋白质积累过程中形成较多的巯基及二硫键,并通过二硫键来改变含巯基的蛋白质亚基之间的聚合程度,形成不同分子量的谷蛋白聚合体,使蛋白质的积累形态发生明显改变,进而使稻米相关品质性状发生改变。     

Difference of Phytic Acid Content and its Relation to Four Protein Composition Contents in Grains of Twenty-nine japonica Rice Varieties from Jiangsu and Zhejiang Provinces, China

Twenty-nine japonica rice varieties collected from Jiangsu and Zhejiang Provinces, China were planted in Hangzhou, China, to investigate the phytic acid content in brown rice and its frequency distribution as well as the correlation among the contents of phytic acid, total protein and four protein compositions in brown rice. The phytic acid content in brown rice ranged from 0.699% to 1.034%, with a mean of 0.868% for the 29 tested rice varieties. Xiushui series rice varieties generally exhibited lower phytic acid level than Wuyujing and Huai series rice varieties. A rough normal distribution, with a mean of 8.722%, was observed for the total protein contents in the tested varieties. Of the four protein compositions, the glutelin, globulin and albumin contents had larger coefficient of variation than the prolamin content, although the difference in prolamin content was genotype-dependent. No significant correlation was found between the phytic acid and four protein composition contents, whereas the total protein content was significantly and positively related to the glutelin content in brown rice.     

Positional variations in phytic acid and protein content within a panicle of japonica rice

Six japonica rice cultivars differing in phytic acid and protein content were used to investigate the effect of grain position in the panicle on grain weight, phytic acid and protein content. There were significant differences in grain weight, albumin, globulin, prolamin, glutelin, and total protein content among the grains within a panicle for all six cultivars, but no differences were found for phytic acid content. An effect of grain position between primary rachises on grain weight and protein content was clearly detected, while that among top, middle and bottom rachis showed a greater change, varying with the cultivar. Albumin and globulin contents tended to be lower in the grains on the primary rachis than in those on the secondary rachis, and glutelin and total protein contents showed the opposite trend in the three cultivars with lower protein content. There was no significant correlation between phytic acid and protein content in the different grain positions within a panicle. The accumulation of phytic acid and protein during grain development appears to be independent.     

Effect of nitrogen fertilizer application on grain phytic acid and protein concentrations in japonica rice and its variations with genotypes

Thirty-one japonica cultivars with contrasting agronomic traits were used and 5 nitrogen (N) fertilizer treatments of level and timing were performed to determine the effects of N application on grain phytic acid and proteins including albumin, globulin, prolamin, and glutelin. Variance analysis showed a large effect of N and a smaller effect of cultivar on grain phytic acid and proteins. With increased N level, grain phytic acid concentrations progressively reduced whereas concentrations of the 4 proteins and ratios of glutelin to total protein increased, indicating that N level has a beneficial effect on rice nutritional quality. In addition, substantial genotypic differences in response of grain phytic acid and proteins to N treatments were detected. Some cultivars such as Xiushui09, Zhendao10, and Yanjing5 exhibited more stability of grain proteins under contrasting N treatments, and the significance of this stability is discussed in regard to its use in rice quality improvement.     

醋制对黑豆蛋白含量及多肽ACE抑制活性的影响

为考察醋制对黑豆蛋白含量及多肽ACE抑制活性的影响,为对黑豆醋浸过程中蛋白组分及含量变化进行分析,并对相应ACE抑制肽活性进行测定。黑豆经醋浸不同时间后,采用顺序抽提法提取清蛋白、球蛋白、醇溶蛋白和谷蛋白,并采用凯氏定氮法及SDS-PAGE电泳进行定量和定性分析;各蛋白组分经胃蛋白酶水解,经超滤(截留分子量3 k D)后收集滤液,获得多肽组分,RP-HPLC法进行ACE抑制活性评价。结果表明:经醋浸14 d后,黑豆总蛋白含量变化幅度小于±0.5%;清蛋白含量由55.13%(0 d)降低至9.61%(14 d);球蛋白由7.04%(0 d)增加到20.34%(14 d);醇溶蛋白由0.81%(0 d)增加到1.72(14 d);谷蛋白由21.11%(0 d)增加到59.45%(14 d),含量最高。醋浸处理降低了清蛋白源多肽的ACE抑制活性,但提高了球蛋白、醇溶蛋白及谷蛋白多肽的ACE抑制活性,其中,谷蛋白多肽抑制率由18.18%(0 d)增加至37.58%(14 d),抑制活性升高。醋浸可改变黑豆各蛋白组分的含量和对应多肽的ACE抑制活性,其中,谷蛋白含量及其多肽ACE抑制活性均有增加。研究结果表明可进一步采用分离纯化技术从谷蛋白多肽中获得高活性降压肽。     

Distribution of proteins and amino acids in milled and brown rice as affected by nitrogen fertilization and genotype

A field experiment involving six japonica rice cultivars with contrasting agronomic traits and seven nitrogen (N) fertilizer treatments was performed to determine the effects of N and genotype on distribution of four kinds of grain proteins and amino acids in milled and brown rice. For brown and milled rice, albumin and globulin were controlled more by genotype than N treatments, whereas prolamin and glutelin were largely determined by N. Substantial genotypic differences in response of milled/brown (M/B) ratios of proteins to N treatments were detected. In comparison with large panicle cultivars, small panicle cultivars such as Wuyujing3 had the lower ratio and exhibited more stability under contrasting N treatments. N had significant influence on amino acid composition of brown and milled rice, with contents of the 17 amino acids measured increasing with elevated N rate. However, cysteine and methionine in brown rice and lysine and methionine in milled rice were not significantly affected by N. In addition, N had little effect on ratios of M/B for most of the amino acids.     

Analysis of Storage Protein Distribution in Rice Grain of Seed-Protein Mutant Cultivars by Immunofluorescence Microscopy

Abstract

Localization of storage proteins in rice grains of seed-protein mutant cultivars, low-glutelin cultivars LGC-1, LGCsoft and a 26-kDa-globulin-deficient low-glutelin cultivar LGC-Katsu, was examined by immunofluorescence microscopy using fluorescence-labeled antibodies of 13 kDa prolamin and 23 kDa glutelin. Abundant 13 kDa prolamin and 23 kDa glutelin was observed in the outer regions of rice grains. Image analysis revealed that peaks of fluorescence intensity of both proteins were located at 2–7% of the width or longitudinal length of brown rice distant from the outer surface of brown rice (RDOS) on the dorsal, ventral, and apical sides of brown rice. In these seed-protein mutant cultivars and a normal-type cultivar Nihonmasari, the foot of the distribution peaks of both proteins were located at 20–30% RDOS on the ventral and apical side. In contrast, on the dorsal side of rice grain, varietal differences of RDOS at the foot of the distribution peak of both proteins varied with the cultivar. The RDOS was 20 –40%; and Nihonmasari >LGC-1≒LGCsoft >LGC-Katsu. Although the quantity of 13 kDa prolamin and 23 kDa glutelin greatly varied with the cultivar in the outer region of rice grain, both proteins were distributed uniformly at low levels in the inner region in all cultivars. Furthermore, SDS-PAGE analysis showed that a larger quantity of 13 kDa prolamin localized on the ventral than the dorsal side of rice grains in seed-protein mutant cultivars, especially in LGC-Katsu.     

QTL mapping for crude protein and protein fraction contents in rice (Oryza sativa L.)

Improvement of rice storage proteins is important in rice breeding for high nutritional quality. Seventy-one recombinant inbred lines (RIL) derived from a cross between japonica variety Asominori and indica variety IR24 were used to study the inheritance of crude protein and protein fraction contents in rice. A total of 16 QTL were identified and mapped on eight chromosomes. Several QTL affecting contents of different protein fractions were mapped in the same chromosomal region. In particular, two QTL with a significant contribution were identified to simultaneously affect prolamin and glutelin contents. One QTL denoted as qCP-12 affecting crude protein content (CP) was located in the same region as QTL qGLT-12 affecting glutelin content, in agreement with the positive correlation between glutelin level and protein content. QTL with larger genetic effects were further confirmed using two sets of chromosome segment substitution lines (CSSL), where Asominori and IR24 were used as the recurrent parents. By QTL comparative analysis, two QTL for CP, three for globulin content and one for prolamin content were located in the vicinity of CP QTL previously identified in polished rice. Application of these results in rice breeding is discussed.     

氮、磷、锌营养对水稻籽粒植酸含量的影响及与几种矿质元素间的相关性

以协青早、秀水110及其辐射诱变获得的低植酸突变系（HIPi1和HIPj1）为材料,通过水培试验对不同氮、磷、锌浓度处理下水稻籽粒植酸含量差异及与几种矿质元素间的相关性进行了比较分析。高水平氮、磷、锌浓度处理的籽粒植酸含量较同一品种的低氮、磷、锌处理均有所降低,但在水稻生育期间,籽粒植酸含量对磷、锌处理浓度变化的敏感性,则因品种的植酸类型特征而异;氮、磷浓度增加能分别提高铁或降低铜在籽粒中的积累,但在高锌处理下,籽粒铁含量明显降低、而钾和镁的含量等却有所升高; 籽粒植酸含量一般与K、Mg、Fe、Cu 4种矿质元素含量呈正相关、与籽粒Zn含量呈负相关,但统计显著水平因品种而异。低植酸突变体籽粒中的K、Mg、Fe、Zn等含量虽略有下降,但可以通过适当的介质营养条件来调节有关矿质营养在水稻籽粒中的积累。     

外源磷处理对水稻籽粒植酸含量及相关代谢基因表达的影响

利用水稻穗离体培养方法,对不同外源磷浓度下水稻籽粒植酸等磷化物含量的差异及其植酸代谢相关功能基因在灌浆过程中的表达特征进行了探讨。结果表明,水稻籽粒中的植酸、无机磷和总磷含量随外源磷处理浓度上升呈增加趋势,但磷处理对千粒重和单位籽粒中植酸积累量的影响因磷浓度水平而异,高磷处理会导致水稻千粒重和籽粒植酸积累绝对量的显著降低;外源磷处理浓度的上升,不仅会引起水稻籽粒中锌和铁元素含量的显著降低,而且会导致锌、铁营养的生物有效性下降;外源磷处理对水稻籽粒植酸含量的影响与不同磷处理下RINO1基因的相对表达量之间存在较密切关系,中磷浓度(3P)处理会诱导RINO1基因的表达,但高磷浓度(12P)会抑制RINO1基因的表达,RINO1是外源磷浓度处理对水稻籽粒植酸合成代谢过程产生调控作用的一个重要功能基因位点,而IPK2基因与水稻在不同磷浓度处理下的植酸含量变化无直接联系。