小麦主要品质性状与面粉色泽的关系

选用面粉色泽性状差别较大的16个不同品种（系）在山东省8个不同的生态类型区种植，分析了小麦主要品质性状和面粉色泽，以研究这些品质性状与面粉色泽的关系。结果表明，面粉R457白度与面粉色泽亮度（L^＊值）、面粉色泽红度（α^＊值）呈极显著正相关，与面粉色泽黄度（b^＊值）呈极显著负相关，面粉色泽亮度（L^＊值）和面粉色泽红度（α^＊值）与面粉色泽黄度（b^＊值）呈极显著负相关。面粉R457白度和面粉色泽亮度（L^＊值）均与淀粉含量呈极显著正相关。与籽粒硬度、面粉颗粒度、蛋白质含量、灰分含量和类胡萝卜素含量呈极显著负相关，面粉R457白度与出粉率呈显著负相关。籽粒硬度和蛋白质含量共同决定了面粉R457白度变异的81．9％。而面粉颗粒度、蛋白质含量和灰分含量共同决定了面粉色泽亮度（L^＊值）变异的94．5％。面粉色泽红度（α^＊值）与各面粉品质指标的相关性均未达到显著水平。面粉色泽黄度（b^＊值）与籽粒硬度、面粉颗粒度、蛋白质含量、灰分含量、类胡萝卜素含量呈极显著正相关．与淀粉含量呈极显著负相关。硬度、出粉率和蛋白质含量可以解释面粉色泽黄度（b^＊值）变异的75％     

Transformation of Pinb-D1x to soft wheat produces hard wheat kernel texture

Kernel hardness - a key quality trait of common wheat (Triticum aestivum L.) - is mainly conditioned by the Pina and Pinb genes. Mutation or deletion of Pina or Pinb increases kernel hardness, resulting in a hard wheat kernel texture. Here, Pinb-D1x gene was cloned from a hard wheat landrace Kashibaipi and transformed into a soft wheat cultivar Yangmai19 to assess its effect on kernel hardness and flour properties. PCR, RT-PCR and Western blot data confirmed the successful transformation and overexpression of Pinb-D1x gene in transgenic offsprings. The data of single kernel characterization system and scanning electron microscopy revealed that the introduction of Pinb-D1x in soft wheat increased the kernel hardness significantly and changed the internal structure of the kernel. Similarly, transgenic lines exhibited hard wheat like flour properties; flour whiteness and pasting temperature were significantly reduced in the transgenic lines, while the total protein content, damaged starch content, and compound parameter in the Mixograph tests (PT × TW value) showed a significant increase over the wildtype. The results showed that the transformation of the Pinb variants is a powerful strategy to alter the kernel hardness and flour properties in wheat breeding.     

Mapping kernel texture in a soft durum (Triticum turgidum subsp. durum) wheat population

Kernel texture (”hardness”) is one of the major determinants of wheat quality and is primarily controlled by the Puroindoline (Pin) genes, located at the Hardness (Ha) locus. The absence of the Ha locus is responsible for the extremely hard kernels of durum wheat (T. turgidum subsp. durum). Recently, the Pin genes from a soft common wheat variety were introgressed into durum wheat through homoeologous recombination. The objective of this study was to map kernel hardness in a soft durum wheat population derived from the cross between the varieties “Creso” and “Langdon 1–678“. In all, 428 F₆ lines were evaluated for kernel hardness through the Single Kernel Characterization System; Hardness Index (HI) values ranged from −2 to 44. The same lines were genotyped using genotyping-by-sequencing, targeted amplicon sequencing, and sequence-tagged-site markers. A total of 8537 markers were used to conduct single marker-trait association analysis and two major significant regions were identified on chromosomes 3AL and 6AS each responsible for an additive effect of ∼6 HI units. Kompetitive allele specific markers targeting these regions were selected and tested in the whole population. To date, this is the first study to investigate the genetic factors behind hardness variation in durum wheat.     

Molecular characterization of the Puroindoline a-D1b allele and development of an STS marker in wheat (Triticum aestivum L.)

Kernel hardness is mainly controlled by one major genetic locus on the short arm of chromosome 5D in bread wheat. Twelve Chinese and CIMMYT wheat cultivars were characterized for the deletion region of Pina-D1b genotype and developing a novel STS marker for this allele. PCR and SDS-PAGE were used to confirm the Pina-D1b genotype, and then 20 pairs of primers were designed to amplify the fragment including deletion region in Pina-D1b genotype by primer walking strategy. An STS marker Pina-N spanning deletion region in Pina-D1b was developed and sequencing results showed that all of 10 Pina-D1b genotypes uniformly possessed a 15,380 bp deletion in comparison with that of Chinese Spring with wild type. This study provided an alternative method to exam Pina-D1b by molecular marker and will accelerate identification of puroindoline alleles in bread wheat.     

江苏淮北地区小麦品种资源籽粒硬度基因等位变异的KASP检测

为了解江苏淮北地区小麦品种资源的籽粒硬度概况及硬度基因型分布规律,以74份近年来江苏淮北地区所育品种(系)和38份来自黄淮其他麦区的常用亲本为材料,采用单籽粒谷物硬度测试仪、KASP标记检测技术和基因扩增及测序技术对其SKCS硬度值及硬度基因型进行鉴定。硬度检测结果表明,供试小麦品种(系)硬度变化范围较大,但硬质麦的比例最大,为70.5%。与常用亲本相比,江苏淮北地区育成品种中软质麦比例较高,为34.3%,但在高代品系中软质麦比例下降到20.5%。基因型检测结果表明,在Puroindoline-D1位点,供试品种(系)中共检测到4种基因型,即野生型(Pina-D1a/Pinb-D1a)、Pina-D1b、Pinb-D1b和Pinb-D1p,其频率依次为25.0%、2.7%、67.9%和4.5%。其中,野生型和Pinb-D1p主要分布在江苏淮北地区。不同硬度基因型的硬度值也存在差异,其中以Pina-D1b基因型的硬度值最高,野生型(Pina-D1a/Pinb-D1a)硬度值最低,Pinb-D1b和Pinb-D1p两硬质类型的籽粒硬度没有显著性差异。在Pinb-2位点,供试品种(系)中共检测到25份材料为Pinb-B2b基因型,包含21份硬质麦、2份混合麦和2份软质麦,其平均硬度值为63.8。     

Pastamaking and breadmaking quality of soft-textured durum wheat lines

The effects of grain texture on pastamaking and breadmaking quality were studied in three F₈ soft-textured durum wheat lines (SDLs) containing wild-type alleles Pina-D1a and Pinb-D1a as compared with their hard durum sister lines (HDLs). SDLs homozygous for a small 5DS segment, less than 14.4 cM in size, accumulated puroindolines A (Pin-A) and B (Pin-B) and showed SKCS values (19.9-23.6) significantly lower than those (72.6-76.8) of their hard-textured counterparts lacking Pin-A and Pin-B. In addition, SDLs exhibited approximately 24% higher flour extraction rates compared with HDLs. Reducing the kernel hardness decreased farinograph water absorption, dough tenacity (P) and, accordingly, alveograph P/L ratio, but increased farinograph stability, mixing tolerance and dough extensibility (L). Spaghetti cooking quality, as determined by the sensory judgment of firmness, stickiness and bulkiness, was unaffected by the kernel hardness, whereas the loaf volume exhibited a 10% increase associated with kernel softening. Flour and semolina, but not spaghetti, from SDLs showed a substantial reduction in yellowness (b^*) and brownness (100 − L^*) likely due to their finer particle size compared with HDLs. Alleles Pina-D1a and Pinb-D1a may offer new perspectives for breeding dual purpose (pasta and bread) durum wheat varieties.     

Genetic and environmental factors affecting grain texture in common wheat

Thirteen wheat cultivars grown in six locations were compared for kernel weight, protein content and grain texture, as determined by the Single Kernel Characterization System (SKCS). Moreover, puroindolines a (Pin-A) and b (Pin-B) bound to starch were quantified by densitometric scanning of A-PAGE fractionations. All cultivars shared allele Pina-D1a coding for wild-type Pin-A, and differed from each other in allele composition at Pinb-D1 coding for Pin-B. Cultivars with Pinb-D1a exhibited soft grain and high amounts of Pin-A and Pin-B compared to cultivars with Pinb-D1b or Pinb-D1d. Significant genetic variation for grain hardness and Pin-A level was detected in soft cultivars. The ratio between Pin-A and Pin-B levels in soft cultivars was approximately 6:5, whereas it varied between 9:5 and 10:1 in hard cultivars. Protein content was significantly correlated with Pin-B content (r=0.34) and SKCS value (r=0.36) in soft wheats. Significant correlations (0.68 and 0.73 for soft and hard wheats, respectively) were observed between Pin-A and Pin-B levels. Grain hardness was not correlated with puroindoline levels and Pin-A/Pin-B ratio in both textural classes. By contrast, kernel weight was found to act as a major environmental factor affecting grain texture in both soft and hard wheats.     

玉米脱粒破碎率关键影响因子及其最优预测模型研究

子粒破碎率高是当前中国玉米机械收获子粒的重要限制因素,解析破碎率变化原因,建立其简便预测模型是需要解决的重要问题。本文采集7个玉米品种在3个种植密度下组合的果穗,在不同子粒含水率梯度条件下开展单穗脱粒试验。种植密度在6万～9万株/hm2范围内对子粒破碎率没有影响,品种、子粒的含水率、抗侧压碎力和穿刺强度等的影响均达到统计显著水平。品种对破碎率变化的偏贡献率为12.7%,且品种的偏贡献率子粒含水率的偏贡献率抗侧压碎力的偏贡献率穿刺强度的偏贡献率,种植密度的偏贡献率接近于零。破碎率的最优预测因子是穿刺强度,预测模型:破碎率=10.25×0.990穿刺强度,满足破碎率不高于5%约束的穿刺强度值不得低于60 MPa。研究结果可为玉米破碎率预测、宜机收玉米新品种培育与鉴定、脱粒机具设计与制造提供数据支撑和技术参考。     

Modelling wheat breakage during roller milling using the Double Normalised Kumaraswamy Breakage Function: Effects of kernel shape and hardness

The effects of wheat properties on breakage during First Break roller milling, as described by the Double Normalised Kumaraswamy Breakage Function (DNKBF), were investigated. A set of 45 wheats from nine varieties representing the range of commercial varieties grown in the UK, and grown over three harvest years at several nitrogen fertiliser levels, were milled at five roll gaps under Sharp-to-Sharp and Dull-to-Dull dispositions. The resulting particle size distributions were fitted with a DNKBF in order to understand the physical significance of the DNKBF parameters and to relate them to shape and hardness. The DNKBF parameters related strongly to hardness as measured using either the Single Kernel Characterisation System or Particle Size Index, allowing the particle size distribution over the range 0–4000 μm to be predicted solely from wheat hardness. A residual analysis showed that the remaining variation was correlated with kernel mass, and that more elongated kernels break to give slightly larger particles than more spherical kernels of equivalent hardness. Two types of breakage are identified, one of which principally produces many small endosperm particles along with large bran particles, while the other tends to produce mid-sized particles. The former dominates under Dull-to-Dull milling and for soft wheats, while the latter becomes more prominent under Sharp-to-Sharp milling and for harder wheats.     

The composition of floury and vitreous endosperm affects starch digestibility kinetics of the whole maize kernel

Maize grain starch is the major energy source in animal nutrition, and its high digestion and utilization largely depend on endosperm traits and the structure of the starch-lipoprotein matrix. The aim of this work was to determine floury and vitreous endosperm traits and its relation to starch digestibility rate. In total, kernels of 30 hybrids were manually dissected, and amylose, total zein and starch and non-starch lipids were determined in both vitreous and floury endosperm. Starch digestibility of the whole kernel was determined based on glucose released during a two-step in vitro pig model of enzymatic digestion, and starch digestibility rate was calculated according to the first-order kinetics. The vitreous endosperm of tested hybrids had higher contents of amylose (204.6 vs 190.4 g/kg), zein (63.2 vs 40.4 k/kg) and starch lipids (5.6 vs 4.9 g/kg), and lower content of non-starch lipids (7.3 vs 9.6 g/kg) than floury endosperm. Digestibility coefficients varied among hybrids, and starch digestibility rate varied from 0.73 to 1.63 1/h. Lipids in both vitreous and floury endosperm negatively correlated with the most of digestion coefficients, whereas zein correlated in vitreous and amylose in the floury endosperm (P < 0.05). Starch digestibility rate negatively correlated with all traits, except amylose content in vitreous endosperm. As a result, a linear regression model with four variables including contents of zein and starch lipids in vitreous and zein and amylose in floury endosperm can predict more than 65% variability of starch digestibility rate of tested hybrids.     

Segregation analysis indicates that Puroindoline b-2 variants 2 and 3 are allelic in Triticum aestivum and that a revision to Puroindoline b-2 gene symbolization is indicated

Genetic and kernel texture relationships between Puroindoline b-2 variants 2 and 3 have not been fully established in wheat (Triticum aestivum L.). Here, 480 F₂ plants, derived from three hard spring wheat populations were used to test the segregation of Puroindoline b-2 (Pinb-2) variants 2 and 3. Chi-square analysis indicated that Pinb-2 variants 2 and 3 in all three F₂ populations segregated as a single bi-allelic locus, with segregation ratios fitting a 1:2:1 ratio. Using 448 of the 480 plants derived from these three F₂ populations, the average SKCS hardness index of plants homozygous for Pinb-2 variant 2 vs. those homozygous for variant 3 was not significantly different (67.5 vs. 67.9). Results indicated that plants with Pina-D1b/Pinb-D1a were on average 10.0 Single Kernel Characterization System (SKCS) hardness index units harder than those carrying the Pina-D1a/Pinb-D1b haplotype. In conclusion, Pinb-2 variants 2 and 3 are allelic and exert little effect on kernel texture in hard-kernel T. aestivum germplasm. Further, the designation of Pinb-2v2 and Pinb-2v3 should be changed to Pinb-B2a and Pinb-B2b, respectively. We propose that Pinb-2 variants 1 and 4 of Chinese Spring be designated Pinb-D2a and Pinb-A2a, respectively.     

The fate of bioactive compounds during traditional preparation of einkorn wheat (Triticum monococcum L. subsp. monococcum) bulgur

Einkorn wheat bulgur is a traditional food deeply rooted in some areas of Turkey, since ages. The objective of this study was to evaluate the impact of simulated traditional bulgur preparation on einkorn wheat bioactive compound content.A local einkorn wheat grain sample from Turkey was boiled for 2, 3 and 4 h, then dried in a thermo-ventilated oven. Tocols, carotenoids, phytosterols and phenolics, determined as free (FPC) and bound (BPC) phenolic compounds, were analysed in hulled (spikelets) and dehulled (kernels) bulgur samples, to highlight also glumes’ contribute to their content and evolution.Kernel carotenoid and tocol content significantly decreased following bulgur preparation, to an extent of 42–58% and 15–30%, respectively. Phytosterols slightly decreased in cooked (12–19%), with respect to raw kernels. Phenolics showed different patterns, highlighting glumes’ contribute: kernel FPC increased (+87%) after 4 h of boiling, whereas no significant variations were observed for BPC. A drastic decrease of total and BPC (20.5–28.0%), was observed in spikelets following bulgur preparation. Ferulic and p-coumaric acid resulted the most abundant phenolic acids, respectively, in kernels and spikelets.Decreases in tocol, carotenoids and phytosterol contents were observed whereas an increase of kernel FPC content was calculated after cooking.     

小麦品种磨粉品质研究概况

本文对出粉率，粉色和灰分三个主要磨粉品质性状及其影响因素进行了述。出粉率受多基因控制，分别位于3A，7D和5A染色体上，粉色的遗传较简单，受1个或2个基因控制，灰分含量主要受蛋白质含量及环境影响；因此有可能通过遗传改良提高小麦出粉率，改善面粉色泽。在影响磨粉品质的诸多因素中，主要讨论了籽粒形状与磨粉品质之间的关系。一般而言，籽度大，容粒大，容重高，圆形或椭圆形且籽粒硬的小麦出粉率高。粒长，粒宽，粒重等性状受多基因控制，籽籽硬度是影响磨粉品质和烘焙品质最重要的籽粒性状，由1对或2对主效基因和修饰基因控制。     

一种基于图像处理的玉米子粒饱满度测评新方法

玉米饱满度指数定义为子粒饱满部分长度与总长度之比。以8个玉米品种各400颗典型子粒为材料,用平板扫描仪采集其非胚面的RGB图像,用ImageJ软件实现了半自动测定上述二者的长度。参试玉米品种的饱满度指数符合正态分布,均值为0.46～0.58,品种之间差异显著,变异系数为12.5%～18.8%。根据饱满度指数将8个品种聚为3个类群,与实际情况基本吻合。饱满度指数能够定量描述玉米的子粒饱满程度,可以通过图像处理软件快速准确地进行测定,为玉米品质评价和子粒生长诊断提供参考。     

Physical and chemical parameters,Fusarium verticillioides growth and fumonisin production in kernels of nine maize genotypes

Fusarium verticilloides synthesizes fumonisins (FBs) in the field and during faulty storage of maize. FBs are worrisome because of their toxicological effects. Nine maize genotypes differing in physical grain properties, phytochemical profiles, and chemical compositions were evaluated. Kernels were tempered to 18% moisture and purposely contaminated with F. verticilloides to assess differences in mold growth and FBs. The genotype significantly influenced counts with mean values ranging from 12.9 CFU/mLx10⁴ for the highly susceptible Blue Don Goyo to only 1.0 CFU/mLx10⁴ for the Pob84C3 genotype. The concentrations of FBs in these two genotypes were 6.85 and 0.3 ppm, respectively. Popcorn kernels showed a relatively high level of Fusarium counts (7.0 CFU/mLx10⁴) but low concentrations of FBs (1.4 ppm). The large-sized Cacahuacintle and Don Goyo kernels, which had the lowest test weights and highest 1000 kernel weight (TKW) showed the highest occurrence of CFU likely due to their low proportion of pericarp, bound phenolics (coumaric), diferulic acids and bound antioxidants. Correlations indicated that mold counts did not correlate (r² = 0.6, P = 0.08) with FBs. However, grain thickness, hardness, TKW and bound phenolics were related to Fusarium counts. This research demonstrated that contrasting maize genotypes showed different susceptibilities to Fusarium growth and FBs contamination.     

Trait dissection of maize kernel weight: Towards integrating hierarchical scales using a plant growth approach

Maize (Zea mays L.) yield is a function of the number harvested kernels per unit land area and the individual kernel weight (KW). Kernel weight and its development show a wide variability due to the genotype, the environment, the crop management, and all possible interactions. Commercial maize hybrids differ markedly in the patterns (rate and duration of kernel growth) behind differences in final KW. The same can be observed when public or elite proprietary maize inbred lines are analyzed. To progress in our understanding of KW variability, we reviewed and discussed current knowledge for analyzing kernel growth as an integrated system, modulated by processes linking different levels of organization (the different kernel tissues, the whole kernel, the plant, the canopy). Ideas on how to integrate this knowledge towards the development of a multi-hierarchical scale framework for predicting KW under different growth environments are currently needed, as they have high relevance for dissecting the genetic basis of kernel growth and maize yield definition at the canopy level.     

小麦籽粒发育时期Puroindolines蛋白与硬度的关系

为探讨Puroindolines蛋白的表达特点与籽粒硬度的关系,采用改进的SDS-PAGE凝胶分析了不同硬度小麦品种的籽粒在各个发育时期Puroindolines蛋白的表达.结果表明,不同硬度的小麦籽粒中总Puroindolines(PinA和PinB)蛋白的表达量差异不大,但与胚乳淀粉颗粒结合的Puroindolines蛋白量差异非常明显:在籽粒发育的不同时期,软质小麦籽粒淀粉粒表面结合的Puroindolines蛋白量显著高于硬质小麦;基因型同为野生型但硬度有差异的品种,籽粒较软的材料其淀粉粒表面结合的Puroindolines蛋白量也明显高于较硬的材料,说明该蛋白的结合特性是决定籽粒硬度的直接原因.结果还表明,胚乳中水溶性戊聚糖与籽粒硬度关系密切.     

Barley (1→3; 1→4)-β-glucan and arabinoxylan content are related to kernel hardness and water uptake

Harder kernels in barley are thought to be a factor affecting the modification of the endosperm during malting by restricting water and enzyme movement within the endosperm. The objective of this study was to investigate the relationship between kernel hardness, water uptake and the endosperm composition in barley. A range of barley samples from 2003 and 2004 crops were analyzed for kernel hardness by the Single Kernel Characterization System, water uptake during steeping and chemical composition of the endosperm including (1→3; 1→4)-β-glucan, arabinoxylan and total protein. Both (1→3; 1→4)-β-glucan and arabinoxylan content of the endosperm were correlated significantly with kernel hardness in barley samples from both 2003 (r=0.873 and 0.601, respectively, p<0.01) and 2004 seasons (r=0.764 and 0.501, respectively, p<0.01). Hardness of the kernel was highly correlated with its water uptake in both 2003 and 2004 samples (r=−0.853 and −0.752, respectively, p<0.01). β-Glucan content of the endosperm was also correlated significantly with the kernel water uptake for both years (2003: r=−0.752, p<0.01; 2004: r=−0.551, p<0.01). Arabinoxylan content of the endosperm was correlated significantly with the kernel water uptake for the 2003 barley but not for 2004 barley (2003: r=−0.523, p<0.01; 2004: r=−0.151, p>0.01). Protein content of the endosperm was not correlated with the kernel hardness in either year. These results demonstrate that endosperm cell wall components may have significant impact on kernel hardness as well as water uptake of barley.     

Microstructure of hard and soft kernels of barley

Kernel hardness, an important quality trait of cereal grains, is known to influence pearling properties and malting quality of barley. To understand the endosperm micro-structural features of kernels and their relationship to kernel hardness, endosperms of three hard and three soft hulled spring barley lines based on single kernel characterization system hardness index were observed under light (LM) and scanning electron (SEM) microscopy. Under LM, endosperm cell wall of the three hard kernel lines was significantly thicker than that of the three soft kernel lines. Hard and soft lines showed differences in the degree of starch-protein association and continuity of protein matrix under the SEM. Hard kernel lines with a continuous protein matrix exhibited greater starch-protein adhesion than the soft kernel lines, suggesting that starch-protein binding may be one of the factors influencing barley kernel hardness. SEM of flour particles of soft kernel lines showed numerous well defined individual A and B-type starch granules, while, flour of hard kernel lines mostly showed small flour aggregates with few individual starch granules.     

适宜机械粒收玉米品种脱水特性及相关性状研究

以5个不同熟期玉米杂交种为试验材料,通过玉米子粒含水率、脱水速率及相关性状测定,比较不同玉米品种脱水等性状。试验结果表明,适合粒收品种华美1号与其他品种相比,具有生育期短、含水率低、生理成熟后脱水速率快和果皮薄等特点,2016年生理成熟和收获时含水率分别为32.25%和20.20%,2017年分别为35.28%和17.47%。相关分析结果表明,子粒脱水速率与果皮厚度呈极显著负相关,相关系数为-0.975;与苞叶脱水速率和含水率呈显著相关,相关系数分别为0.935和-0.950;与其他性状相关性不显著。