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。     

基因工程途径改良水稻品质与营养价值

水稻是全球近一半人口赖以生存的基本食粮。随着人们生活水平的提高 ,人们对稻米品质的要求越来越高 ,水稻生产需要改善稻米的品质 ,才能适应人们的需求变化。世界上超过 40 %的人们在受到微量营养不良的折磨 ,特别是在许多发展中国家 ,这个百分比还在增加。因此 ,提高水稻微量营养物质含量对于改善人们微量营养缺乏状况很有必要。同时 ,利用转基因技术生产具有药用价值的水稻越来越受到重视 ,应用前景十分诱人。就近十年来国内外的研究进展作一综述。     

籼稻稻米蛋白质含量与外观品质性状间不同遗传体系的条件遗传相关分析

选用稻米蛋白质含量等品质差异较大的7个籼型不育系(A)及相应的保持系(B)与5个籼型恢复系(R)杂交,组成7×5不完全双列杂交组合。应用包括胚乳、细胞质和母体植株基因的遗传主效应以及基因型×环境互作效应的数量性状遗传模型及非条件和条件分析方法,研究了籼稻稻米蛋白质含量与外观品质性状间的遗传相关性,进一步揭示了籼稻糙米重、稻米直链淀粉含量对稻米蛋白质含量与外观品质性状间遗传相关性的影响。非条件分析的结果表明,除了与糙米厚的相关性未达到显著水平以外,蛋白质含量与其它稻米外观品质性状间的遗传相关性均达极显著水平,其中与糙米宽间的相关性表现为正值,其余为负向相关。条件分析的结果显示,糙米重和直链淀粉含量对稻米蛋白质含量与外观品质性状间的遗传相关性均可产生较大的影响。糙米重主要通过基因型×环境互作效应影响蛋白质含量与外观品质性状间的遗传相关性,其中对蛋白质含量与糙米长、糙米宽、糙米厚间遗传相关性的影响主要表现为负向作用,而对蛋白质含量与糙米长宽比、糙米长厚比间遗传相关性的影响则表现为正向作用。稻米直链淀粉主要通过细胞质遗传主效应和母体加性效应影响蛋白质含量与糙米长、糙米长宽比、糙米长厚比间的遗传相关性,而对蛋白质含量与糙米宽间的相关性影响主要表现为负向作用。     

FT-NIRS技术应用于稻米直链淀粉含量分析研究

运用近红外光谱快速分析技术,使用偏最小二乘法建立了近红外光谱和水稻糙米直链淀粉含量的数学模型,并进行糙米直链淀粉含量预测.结果表明糙米近红外光谱与其直链淀粉含量具有良好的相关性,决定系数r2=0.8429,最大绝对误差4.82%,平均误差2.30%.该方法在不破坏样品的前提下快速分析水稻直链淀粉含量,可用于稻种资源的快速鉴定,对于水稻优质育种及其相关研究具有重要意义.     

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。     

不同绿豆突变体主要农艺性状的多元遗传分析

对12个绿豆突变体的10个主要农艺性状进行了相关分析、主成份分析及聚类分析.分析结果表明：10个主要农艺性状的变异系数为16.01%（单株荚数）～3.64%（荚宽）.相关分析表明单株荚数与单株产量呈极显著的正相关;百粒重与单株产量呈显著的负相关;生育期与单株产量呈极显著的负相关.主成分分析结果表明前4个主成分（产量构成因子、单荚粒数因子、株型因子和荚宽因子）对变异的贡献率达87.45%;聚类分析后把12个绿豆突变体分为5类,各类之间单株产量差异明显.在绿豆突变体的选择中只有把不同性状综合考虑进去,才能够真正选择出性状优良的突变体.     

水稻蛋白质和直链淀粉含量的稳定性及G×E互作与气候因子的关系

利用AMMI模型,分析了辽宁省25个水稻品种的蛋白质(PC)和直链淀粉含量(AC)的稳定性,并对G×E互作与气候因子的关系及各品种的气候生态适应性进行了探讨.结果表明,PC和AC稳定性高的品种分别有V3(辽粳294)、V15(沈农9810)、V11(0157)等和品种V2(辽农49)、V13(沈农693)、V1(仙S38)等.温度和日照是影响G×E互作的主要气候因子,PC的气候适应性表明,品种V12(花粳49)和V9(沈农9819)对相对低温和寡照的环境有特殊适应性.各品种AC的气候适应性表明,品种V20(兴3号)、V21(东亚03-51)和V6(茂洋1号)分别对低温寡照、低温多日照和高温多日照的环境具有特殊适应性.     

不同类型玉米籽粒的营养品质及其与籽粒质地的关系

测定普通玉米、爆裂玉米、糯玉米和甜玉米4种类型玉米籽粒不同发育时期的直链淀粉、支链淀粉、总淀粉、可溶性糖和蛋白的含量,分析这些营养物质与角质率的关系。结果表明：灌浆期间4种类型玉米的直链淀粉、支链淀粉和总淀粉含量呈上升趋势,总蛋白含量呈下降趋势,可溶性糖含量变化规律不明显。爆裂玉米的直链淀粉含量始终最高（4．7％-23．1％）,甜玉米（1．4％-4．6％）和糯玉米（2．3％-4．9％）的始终较低;甜玉米的支链淀粉含量一直最低（15．7％-35．5％）,除授粉10d以外,糯玉米的支链淀粉含量一直最高（65．5％-69．8％）;甜玉米总淀粉含量始终最低（17．1％36.1％）、总蛋白含量（15．2％-26．9％）和授粉30d后的可溶性糖含量最高（14．2％-17．6％）。高蛋白含量可能是爆裂玉米和甜玉米角质率高的原因,糯玉米的角质率低可能与支链淀粉含量高和蛋白积累少有关。     

基于NIRS法快速检测荞麦蛋白质与淀粉含量的研究

为建立近红外光谱技术测定荞麦蛋白质与淀粉含量的方法,本研究以217份荞麦样品为试验材料,采用最小二乘回归预测和交叉验证构建近红外预测模型。分析表明:前处理采用多元散射校正法(MSC),维数(Rank)分别为5和5,光谱区间6803.9~6094.2/cm所建立的荞麦蛋白质与淀粉含量模型的预测效果较好,其决定系数(R~2)分别为0.9481和0.9167,交叉验证均方根(RMSECV)分别为0.68和2.08,相对分析误差(RPD)分别为4.39和3.46,均大于3.0,外部验证相关系数均大于0.96。本试验所建立的蛋白质与淀粉含量近红外预测模型具有较高的准确度和稳健性,可用于荞麦品质的快速测定。     

籼稻品质分析的近红外光谱模型建立及其应用研究

为了满足籼稻品质快速分析的需求,本研究利用籼稻精米粉近红外光谱建立了直链淀粉含量、蛋白质含量、碱消值、垩白度的回归预测模型.结果表明,本研究提供的预测模型具有良好的测定效果,用偏最小二乘法(PLS)获得的籼稻精米粉直链淀粉含量、蛋白质含量、碱消值、垩白度的回归模型和交叉验证显示最优校正决定系数(R~2)和交叉检验均方误差(RMSECV)分别为0.9561、1.55,0.9510、0.258,0.9076、0.283,0.9014、4.14.说明所建的近红外光谱预测模型具有实用价值.     

The use of muscle near-infrared spectroscopy (NIRS) to assess the aerobic training loads of world-class rowers

The objectives of this study were (1) to characterize the changes in oxygenation derived from muscle near-infrared spectroscopy (NIRS) during aerobic constant-load exercise with intensities close to Maximal Lactate Steady-State (MLSS) and (2) to establish reference values in the world-class rowers, for such workload often included in rowing training programs. Eight senior world-class rowers performed an incremental progressive submaximal exercise test and a 30-minute test on a rowing ergometer. The power corresponding to intensive aerobic training (84±1% of the anaerobic threshold) was adopted as an exercise load in the 30-minute test. The NIRS device was fixed on the vastus lateralis muscle which was active during rowing to record muscle O₂ saturation (SmO₂) and total hemoglobin concentration (THb) at rest and during exercise. Statistically significant increments in blood lactate (LA) and heart rate (HR) were observed, with 1.18±0.61 mmol/l and 10±5 beats/min, respectively, in 30th minute compared to 10th minute in 30-minute test. SmO₂ decreased significantly by 2.9±1.4%, whereas THb did not change. The examinations may suggested the low diagnostic value of THb in constant-load exercise. In each subject, SmO₂ was gradually reduced during the intense aerobic exercise. During workload close to MLSS, the SmO₂ of the vastus lateralis ranged from 14.0±3.13 to 11.1±2.81% in 10 and 30 minutes respectively, with a reduction in muscle oxygenation (ΔSmO₂) exceeding 50%. The non-invasive nature of the NIRS measurement and the continuous monitoring of SmO₂ values are useful in the practice of monitoring training in terms of aerobic training loads.     

Using near‐infrared reflectance spectroscopy (NIRS) to estimate carbon and nitrogen stable isotope composition in animal tissues

1. Stable isotopes analysis (SIA) of carbon and nitrogen provides valuable information about trophic interactions and animal feeding habits.
2. We used near‐infrared reflectance spectroscopy (NIRS) and support vector machines (SVM) to develop a model for screening isotopic ratios of carbon and nitrogen (δ ¹³C and δ ¹⁵N) in samples from living animals. We applied this method on dried blood samples from birds previously analyzed for δ ¹³C and δ ¹⁵N to test whether NIRS can be applied to accurately estimate isotopic ratios.
3. Our results show a prediction accuracy of NIRS (R ² > 0.65, RMSEP < 0.28) for both δ ¹³C and δ ¹⁵N, representing a 12% of the measurement range in this study.
4. Our study suggests that NIRS can provide a time‐ and cost‐efficient method to evaluate stable isotope ratios of carbon and nitrogen when substantial differences in δ ¹³C or δ ¹⁵N are expected, such as when discriminating among different trophic levels in diet.

     

Identification of physiological and biochemical markers for salt (NaCl) stress in the seedlings of mungbean [Vigna radiata (L.) Wilczek] genotypes

Salt stress, which is dominant among environmental stresses, poses challenges to global agriculture. We studied the role of exogenous application of sodium chloride (NaCl) in three arid and three semi-arid genotypes of mungbean [Vigna radiata (L.) Wilczek] by examining some physiological and biochemical stress indicators. Ten-day old seedlings were subjected to salt stress (00–250 mM) by split application along with the half strength Hoagland’s medium. The salt stress caused a decline in the fresh weight, dry weight, relative water content, photosynthetic pigments (chlorophyll and carotenoids) and glutathione content of the seedlings. On the other hand, it increased the electrolyte leakage, lipoxygenase activity, and the proline, protein and total soluble sugar contents. Osmolyte accumulation was relatively higher in the arid genotypes revealing that they are more tolerant to NaCl stress. The physiological and biochemical screening provides a basic platform for selecting the stress-tolerant genotypes in the absence of suitable salt-tolerance markers in mungbean.     

Gas exchanges and yield responses of mungbean (Vigna radiata L. Wilczek) genotypes differing in flooding tolerance

Flooding-induced changes in leaf gas exchanges, grain yield, and yield-related parameters of mungbean were evaluated employing two flood-tolerant (GK48 and VC3945A) and one flood-susceptible (Vo1982A-G) genotypes. Three flooding regimes viz. 1, 3 and 7-day were imposed at vegetative, flowering, and pod-fill stages. Flooding caused a drastic reduction in photosynthesis rates (P _n), irrespective of flooding duration. However, the flooded plants recovered P _n to a large extent depending on genotypes. Used genotypes showed a significant variation in P _n during and after flooding. Post-flooding recovery in P _n of GK48 and VC3945A was more pronounced at the vegetative and flowering stages than the pod-fill stage. At the pod-fill stage, only plants of GK48 survived when flooding prolonged for 7 days. Flooded plants showed higher intercellular CO₂ concentrations (C _i), and reduced stomatal conductance (g _s). However, during recovery, P _n increased significantly along with reduced C _i in flood-tolerant GK48 and VC3945A genotypes. In contrast, C _i remained high and P _n recovery was minimal in flood-susceptible Vo1982A-G genotype. This implies that mesophyll tolerance rather than stomatal factor might be the major limitation of P _n recovery in a susceptible genotype. Very weak relationship between P _n and transpiration rate (T _r) indicated low water use efficiency (WUE) in flooded plants, but subsequent recovery of both the parameters, suggesting higher WUE, particularly in tolerant genotypes. Seed yield of mungbean was the product of number of pods per plant and seed size, and longer the flooding period, the lower were the pods per plant at the flowering and pod-fill stage. Flooding reduced seed yield in all the three genotypes, but the extent of reduction was much less in flood-tolerant GK48 and VC3945A. Higher yield of flood-tolerant genotypes may be attributed to the rapid recovery of leaf gas exchanges.     

Molecular studies on mungbean (Vigna radiata (L.) Wilczek) and ricebean (Vigna umbellata (Thunb.)) interspecific hybridisation for Mungbean yellow mosaic virus resistance and development of species-specific SCAR marker for ricebean

The aim of this study was to identify the molecular markers (SSR, RAPD and SCAR) associated with Mungbean yellow mosaic virus resistance in an interspecific cross between a mungbean variety, VRM (Gg) 1 X a ricebean variety, TNAU RED. The parental survey was carried out by using 118 markers (including 106 azuki bean primers, seven mungbean primers and five ricebean primers). This study revealed that 42 azuki bean markers (39.62%) and four mungbean markers (54.07%) showed parental polymorphism. These polymorphic markers were surveyed among the 187 F₂ plants and the results showed distorted segregation or chromosomal elimination at all the marker loci (thus, deviating from the expected 1:2:1 segregation). None of the plants harboured the homozygous ricebean allele for the markers surveyed and all of them were skewed towards mungbean, VRM (Gg) 1, allele, except a few plants which were found to be heterozygous for few markers. Among the 42 azuki bean SSR markers surveyed, only 10 markers produced heterozygotic pattern in six F₂ lines viz. 3, 121, 122, 123, 185 and 186. These markers were surveyed in the corresponding F₃ individuals, which too skewed towards the mungbean allele. In this study, one species-specific SCAR marker was developed for ricebean by designing primers from the sequenced putatively species-specific RAPD bands. A single, distinct and brightly resolved band of 400?bp was found amplified only in the resistant parent, TNAU RED, and not in any other six species or in the resistant or the susceptible bulks of the mapping population clearly indicated the identification of SCAR marker specific to the ricebean.     

Sequence related amplified polymorphism (SRAP) analysis for genetic diversity and micronutrient content among gene pools in mungbean [Vigna radiata (L.) Wilczek]

Vigna radiata (L.) Wilczek, commonly called mungbean is an important pulse crop. Commercial cultivars contain low levels of iron and zinc and it is important to assess genetic variability in the available germplasm for improving micronutrient content in commercial cultivars. The present study was undertaken to study molecular diversity using Sequence-related amplified polymorphism (SRAP) among 21 Vigna radiata genotypes. Twenty nine SRAP primer combinations produced a total of 121 amplified bands which were polymorphic with an average of 4.65 bands per primer. The size of amplified bands ranged from 70 bp to 3,000 bp and 6 out of 29 SRAP primers were most useful in fingerprinting Vigna radiata genotypes under study. The similarity coefficients between different genotypes ranged from 0.45 to 0.96 with an average similarity value of 0.71. At an arbitrary cut-off at 60 % similarity level on a dendrogram, the Vigna radiata accessions were categorized into two major clusters. ML1108 and 2KM115 were found to be genetically similar. SMH99-1A and ML776 showed high iron and zinc content while Satya was poor in iron as well as zinc content. Mapping population involving ML776 and Satya could be used for tagging gene(s) for micronutrient content. The results indicated that SRAP markers were efficient for identification of Vigna radiata genotypes and assessment of the genetic relationships among them.     

The basis for grain yield differences in mungbean cultivars and identifications of yield limiting factors

Summary Eight mungbean cultivars, selected from a cultivar collection on the basis of their grain yield, were grown in a replicated experiment. Morphological and physiological components contributing to grain yield were analysed. The principal yield limiting factor and the desirable yield component of each cultivar have been identified. The rate of dry matter accumulation was low in all cultivars. It is suggested that for a short duration crop like this, selection for rapid rate of dry matter increase would be advantageous. However, it should also be associated with a high partitioning efficiency (Harvest index). The top yielding cultivar had high biological yield and productive racemes.Abbreviations BY biological yield - GY grain yield - HI harvest index - DM dry matter - DW dry weight - LA leaf area - GPP grain protein percent - GW grain weight     

Use of near infrared reflectance spectroscopy (NIRS) for the prediction of the chemical composition and nutritional attributes of green crop cereals

The NIR spectra of 135 samples of the following green crop oats (Avena sativa), barley (Hordeum vulgare), triticale (x Triticosecale), wheat (Triticum durum), ryegrass (Lolium multiflorum) and sorghum (x Sorghum sudanense) grown in Portugal, were obtained by reflectance from oven-dried, milled whole plant material. Samples were cut at various stages of development (viz. stem elongation, boot, early heading, milk and dough stage) and were analysed by standard laboratory methods. The nutritive value was evaluated in vivo using rams in metabolic cages. The green crops showed values of ASH varying from 5.5 to 14.9%, crude protein (CP) from 5.0 to 22.3%, crude fibre (CF) from 25.3 to 40.4%, neutral detergent fibre (NDF) from 45.9 to 77.2%, acid detergent fibre (ADF) from 23.6 to 49.9%, acid detergent lignin (ADL) from 1.7 to 8.0%, dry matter digestibility (DMD) from 53.2 to 82.9%, organic matter digestibility (OMD) from 56.2 to 85.0% and dry matter intake (IVDMI) from 35.8 to 88.6 g DM kg⁻¹ W^0.75. Spectra were used to develop NIR calibration models for ASH (SEC=0.72; r²=0.90), CP (SEC=0.63; r²=0.98), CF (SEC=1.02; r²=0.94), NDF (SEC=1.41; r²=0.97), ADF (SEC=1.43; r²=0.96), ADL (SEC=0.49; r²=0.87) and in vivo attributes DMD (SEC=2.61; r²=0.86), OMD (SEC=2.36; r²=0.88) and IVDMI (SEC=6.05; r²=0.41). Calibration models were successful for all parameters except for IVDMI. However, animal attributes were less successfully predicted than chemical composition. Calibration models were generated omitting one of the six plant species to assess their ability to accommodate unknown green crop species not represented in the calibration model. In general, NIRS was shown to provide acceptable prediction of composition across different species of green crop cereals whether or not these were included in the calibration process.     

Phylogenetic diversity and symbiotic functioning in mungbean (Vigna radiata L. Wilczek) bradyrhizobia from contrast agro-ecological regions of Nepal

Nepal consists wide range of climatic and topographical variations. Here, we explored the phylogeny of native mungbean bradyrhizobia isolated from different agro-ecological regions of Nepal and accessed their nodulation and nitrogen fixation characteristics. Soil samples were collected from three agro-ecological regions with contrasting climate and topography. A local mungbean cultivar, Kalyan, was used as a trap plant. We characterized isolates based on the full nucleotide sequence of the 16S rRNA, ITS region, and nodA genes; and partial sequences of nodD1 and nifD genes. We found 50% of isolates phylogenetically related to B. yuanmingense, 13% to B. japonicum, 8% to B. elkanii, and 29% to novel phylogenetic origin. Results of the inoculation test suggested that expression of different symbiotic genes in isolates resulted in different degrees of symbiotic functioning. Our results indicate B. yuanmingense and novel strains are more efficient symbiotic partners than B. elkanii for the local mungbean cv. Kalyan. We also found most mungbean rhizobial genotypes were conserved across agro-ecological regions. All the strains from tropical Terai region belonged to B. yuanmingense or a novel lineage of B. yuanmingense, and dominance of B. japonicum related strains was observed in the Hill region. Higher genetic diversity of Bradyrhizobium strains was observed in temperate and sub-tropical region than in the tropical region.     

Development of Pusa 5SD for seed dressing and Pusa Biopellet 10G for soil application formulations of Trichoderma harzianum and their evaluation for integrated management of dry root rot of mungbean (Vigna radiata)

Various seed dressing and soil application formulations were developed from Trichoderma viride, T. virens and T. harzianum to increase the shelf life of bio-formulations used to manage dry root rot (Rhizoctonia bataticola) of mungbean (Vigna radiata), a major yield limiting factor in mungbean production. The shelf life of the formulations developed in the present study was monitored by counting colony forming units (cfu) up to 25 months of storage at room temperature (26 ± 8 °C). A newly developed seed dressing formulation, Pusa 5SD based on peat powder (47.5%), Sabudana powder (Manihot esculenta) (47.5%) and carboxymethyl cellulose (5%) and a newly developed soil application formulation, Pusa Biopellet (PBP) based on sodium alginate, aluminium silicate, Sabudana powder and tap water (1:5:5:100 w/w/w/v) exhibited longer shelf life. Another formulation Pusa Biogranule (PBG) based on wheat and pulse brans varied in cfu counts during different periods of storage. Pusa 5SD could be used up to 25 months of storage while PBP 10G and PBG 5 could be used up to 15 months of storage (>10⁵ cfu). The efficacy of the formulations was evaluated in pot experiments against the disease. In these experiments, T. harzianum based PBP 10G and PBG 5 for soil application, and Pusa 5SD for seed treatment were found to be superior to others in reducing the dry root rot incidence, and increasing the seed germination and shoot and root lengths. However, a combination of soil application of PBP 10G (T. harzianum) and seed treatment with T. harzianum based Pusa 5SD + carboxin was found superior to the use of any of these formulations alone in reducing the dry root rot incidence (87.2%) and increasing the seed germination (43.0%), shoot length (40.3%), root length (37.0%) and grain yield (54.6%) of mungbean crop over those of untreated control under sick field conditions.