Chromosomal location of genes conditioning low amylose content of endosperm starches in rice,Oryza sativa L.

Summary Eight dull mutants that lower the amylose content of rice endosperm as well as waxy mutant and a cultivar with common grains were crossed in a diallele manner. The amylose content of F₁ and F₂ seeds was determined on the basis of single grain analysis. It was concluded that the low amylose content of dull mutants is under monogenic recessive control. Alleles for low amylose content are located at five loci designated as du-1, du-2, du-3, du-4 and du-5. These loci are independent of wx locus located on chromosome 6. The five du loci have an additive effect in lowering the amylose content. Two loci, du-1 and du-4, were found to be located on chromosomes 7 and 4, respectively.     

Changes in starch-bound lysophospholipids and lysophospholipase in germinating glacier and Hi amylose glacier barley varieties

Total starch, amylose content and amylose-included lipid phosphorus and lysophosphatidylcholine (LPC) were measured in normal Glacier (G) and Hi Amylose Glacier (HA) barley varieties during germination. From days three to six, alkaline and acidic lysophospholipase (LPL) activities in the starchy endosperm were measured and the distribution of these activities between a soluble and particulate form determined. During germination the amylose content of the starches increases as the total starch levels decline. The starch-bound LPC and lipid phosphorus disappear at the same rate between days three and six in both barley varieties, indicating no discrimination among the different lipid-included amylose population for degradation. However, both lipid phosphorus and LPC disappear more rapidly in the G than in the HA variety. This is presumably due to the slightly larger content of LPC per mg amylose of the G than of the HA variety, equivalent to 134 and 150 anhydroglucose residues per lipid molecule in G and HA, respectively. There is no increase in starch-bound lipid phosphorus or LPC expressed as nmol of phosphorus or LPC per mg amylose as amylose content declines, indicating no selective resistance of lipid-included amylose to degradation. The alkaline and acidic LPC activities in each variety increase 2–4-fold between days four and five. In both varieties ca 30% of the acidic LPL and ca 50–60% of the alkaline LPL is particulate from days three to six. No correlation can be made between the content of amylose or amylose-included lipid and particulate LPL activity. However, the possibility that particulate LPL activity is associated with specific populations of residual amylose-included lipid molecules cannot be excluded.     

Comparison between cellulose and amylose tris(3,5-dimethylphenylcarbamate) chiral stationary phases for enantiomeric separation of 17 amidotetralins

Direct enantiomeric separations of 17 chiral amidotetralins by means of high performance liquid chromatography were performed on stationary phases composed of tris(3,5-dimethylphenylcarbamate) derivatives of cellulose and amylose, coated on silica gel. The enantiomers of 15 out of 17 amidotetralins were resolved with a resolution of more than 1.5 by at least one of the chiral stationary phases. The stationary phases showed complementary results with regard to the separation of the amidotetralins, that is, pairs that did not separate on the cellulose-type column were well separated on the amylose-type column, and vice versa. There was no significant correlation between the chromatographic properties of the chiral stationary phases. © 1993 Wiley-Liss, Inc.     

The influence of amylose on starch granule structure

Starch granules are principally composed of the two glucose polymers amylose and amylopectin. Native starch granules typically contain around 20% amylose and 80% amylopectin. However, it is possible to breed plants that produce starch with very different amylose and amylopectin contents. At present, the precise structural roles played by these two polymers are incompletely understood. In this study, small-angle X-ray scattering techniques have been applied to investigate the effect of varying amylose content on the internal structure of maize, barley and pea starch species. The results suggest that amylose disrupts the structural order within the amylopectin crystallites.     

Effects of substrate branching characteristics on kinetics of enzymatic depolymerization of mixed linear and branched polysaccharides: II. Amylose/glycogen alpha-amylolysis

Enzymatic depolymerization of polysaccharides with alpha-amylase has been studied in mixed aqueous dimethylsulfoxide (DMSO)/water solvents. Polysaccharide substrate chemical compositions, configurational structures, and bonding pattersn are known to affect observed enzymatic reaction kinetics. The branching structures of polysaccharides and their effects on the kinetic mechanisms of depolymerization reactions via endo-acting hydrolyzing enzyme was studied via size exclusion chromatography coupled to low angle laser light scattering (SEC/LALLS). The glycogen branching structure is a heterogeneously distributed "cluster" structure rather than a homogeneously distributed "treelike" structure. The action pattern of alpha-amylase on glycogen, which is composed of highly branched clusters, as end-products, has a "pseudo-exo-attack" in contrast to an expected "endoattack" as seen in the hydrolysis of amylose or amylopectin substrates. These effects of branched substrates for mixed amylose/glycogen alpha-amylolysis have been predicted and demonstrated by both experimental and theoretical analysis using the kinetic model presented in this report. The "lumped" kinetic model employed, assumes that the enzyme simultaneously attacks both linear and branched substrates. In general, excellent agreement between the model predictions and the experimental observations, both qualitatively and quantitatively, was obtained. (c) 1995 John Wiley & Sons, Inc.     

The α(1–4)(1–6) glucans from sweet and normal corns

After removal of granular starch at low centrifugal force, the centrifugation, at increasing forces, of aqueous extracts of su₁ corn gave a series of α-glucan precipitates that contained amylose. The amylose content decreased as the force increased. In contrast, in normal corn all the α-glucan precipitated as starch granules at low forces. In the sweet corn precipitates, apart from the granular starch, the branched α-glucan was phytoglycogen. The MW of this decreased as the proportion of amylose decreased. It appears that, as well as starch granules and soluble phytoglycogen, sweet corn contains granules, smaller than starch, of a range of sizes, and these are made up of phytoglycogen and amylose. As granule size decreases, so does the MW of the phytoglycogen and the content of amylose. A method of quantitative extraction of starch giving minimal depolymerization is described. The isopotential iodine absorption of a quantitative extract of sweet corn flour indicated that the total ratio of linear (amylose) fraction to branched (amylopectin + phytoglycogen) fraction was near the normal value of 1:4.     

外源EBR对NaCl胁迫下燕麦幼苗无机离子吸收、运输和分配的影响

为了探讨外源2,4-表油菜素内酯(2,4-epibrassinolide,EBR)诱导燕麦(Avena sativa L.)幼苗抗盐性的效果及其生理调节机制,以"青引2号"和"加燕2号"燕麦为材料,研究NaCl胁迫下施用外源EBR对燕麦幼苗无机离子吸收、运输和分配的影响。结果表明:100mmol·L-1NaCl胁迫下,"青引2号"和"加燕2号"燕麦幼苗叶片和根系中的Na+、Cl-含量均显著升高,对阳离子的吸收产生了拮抗作用,导致燕麦幼苗叶片和根系中的K+、Ca2+、Mg2+、Mn2+、Fe2+、Zn2+、Cu2+含量显著降低,离子稳态平衡被打破;100 mmol·L-1NaCl胁迫下,施用0.01μmol·L-1外源EBR后,"青引2号"和"加燕2号"燕麦幼苗叶片和根系中的Na+和Cl-含量显著降低,促进了燕麦幼苗根系对K+、Ca2+、Mg2+、Fe2+、Mn2+、Cu2+和Zn2+的吸收,叶片和根系中K+/Na+、Cl-/Na+、Ca2+/Na+、Mg2+/Na+、Fe2+/Na+、Mn2+/Na+、Cu2+/Na+和Zn2+/Na+显著升高,并且有效调控燕麦幼苗体内无机离子的运输比和阳离子的运输选择性比率,离子稳态重新达到平衡状态;说明外源EBR能够缓解NaCl胁迫下Na+和Cl-对燕麦幼苗所造成的离子毒害作用,有效调控燕麦幼苗对无机离子的选择性吸收、运输和分配,对维持燕麦幼苗体内的离子稳态平衡具有正向调控作用。     

小麦地方品种淀粉颗粒结合蛋白及淀粉含量差异研究

淀粉颗粒结合蛋白包含了多种淀粉生物合成的关键酶,对作物淀粉品质有重要影响。本研究利用1D-SDS-PAGE,分离了74份四川、西藏及云南毗邻地区小麦的淀粉颗粒结合蛋白,对突变材料进行了分子标记检测,对总淀粉和直链淀粉含量差异进行了比较。发现供试材料中,在分子量57～130 kDa区域共有9种不同的蛋白条带。其中,2个条带可能为新的淀粉颗粒结合蛋白;存在12份Wx-B1缺失的自然突变体和3份稀有的SGP-B1缺失突变体;筛选到直链淀粉含量超过30%的材料2份,直链淀粉含量为15%左右的材料10份。这些材料为小麦淀粉品质改良及淀粉生化合成机理研究提供了基础。     

水稻直链淀粉和蛋白质突变系筛选及其与主要农艺性状的关联分析

研究利用重离子辐照杂交籼稻9311创建农艺性状突变体库,使用化学方法筛选直链淀粉、蛋白质突变材料,并分析籽粒品质性状与农艺性状之间的相关性,为后续筛选直链淀粉、蛋白质突变体工作奠定基础。结果显示:在169份直链淀粉、蛋白质突变体中,直链淀粉含量变幅范围是7.64%~32.37%,其中高含量直链淀粉突变体材料有11份,低含量直链淀粉突变体材料有5份;蛋白质含量变幅范围是7.05%~13.79%,其中高蛋白突变体有34份,低蛋白突变体有3份。从169份突变体中筛选出直链淀粉、蛋白质含量都有梯度差异的突变体材料,筛选出材料的农艺性状分析结果表明:在直链淀粉、蛋白质突变体材料的农艺性状中,每穗实粒数、有效穗数、结实率和株高这四个农艺性状与籽粒品质性状间有关联,变异系数分别为37.53%、30.72%、24.70%、15.38%。相关性结果表明:直链淀粉含量和蛋白质含量呈负相关,直链淀粉含量与农艺性状呈正相关,蛋白质与农艺性状呈负相关,其中蛋白质含量和每穗实粒数、结实率呈极显著负相关,相关系数分别为-0.504、-0.592。     

导入反义蜡质基因改良水稻稻米的食味品质和营养品质

经PCR、Southern blot和稻米GUS检测,蜡质基因反义片段与gus构成的融合基因已整合到8株水稻基因组中,并能正确表达。通过稻米GUS染色追踪分析获得转反义蜡质基因纯合后代。将转基因植株的稻米送农业部稻米及制品质量监督检验测试中心进行糙米蛋白质含量和直链淀粉含量测定。结果显示：（1）在转反义蜡质基因纯合的超2-10粳稻后代中,大多数单株糙米在直链淀粉含量降低的同时,蛋白质含量有不同程度提高,糙米蛋白质含量和直链淀粉含量呈显著负相关关系;（2）对照糙米直链淀粉平均含量和糙米蛋白质平均含量分别为13.4%和9.5%。在转基因植株中,稻米直链淀粉含量最低的为11.4%,而蛋白质含量也相对最高,为13.5%。本试验结果表明在水稻中导入反义蜡质基因不仅能够降低水稻稻米的直链淀粉含量,还有可能提高水稻稻米的蛋白质含量。