壳寡糖对旱薄地花生叶片衰老及产量和品质的影响

在旱薄地条件下,以小花生品种‘花育20号’(HY20)和大花生品种‘花育22号’(HY22)为实验材料,研究叶面喷施不同浓度壳寡糖[0mg·kg-1(T0)、50mg·kg-1(T1)、100mg·kg-1(T2)、200mg·kg-1(T3)]对叶片衰老、荚果产量和籽仁品质的影响。结果表明:(1)壳寡糖处理均显著提高了旱薄地花生饱果期叶片叶绿素含量和保护酶(SOD、POD、CAT)活性,降低了MDA含量,并显著提高了2个品种的单株结果数、饱果率和荚果产量。(2)壳寡糖处理降低了HY20的籽仁蛋白质含量却提高了其脂肪含量,但提高了HY22的籽仁蛋白质和脂肪含量,且T1处理对HY20的油酸/亚油酸(O/L)比值提高幅度较大,而T2处理对HY22的O/L值提高幅度较大。研究认为,在生产实际中用50mg·kg-1壳寡糖叶面喷施品种‘花育20号’(HY20)、用100mg·kg-1壳寡糖叶面喷施品种‘花育22号’(HY22)时,2个品种的籽仁产量、蛋白质和脂肪产量均最高,可达到花生生产的高产优质高效。     

两种品质类型花生品质形成与子叶细胞超微结构的关系

在大田条件下研究了两种品质类型花生(Arachis hypogaea)品质形成的动态差异及其子叶细胞超微结构的差异。结果表明, 高蛋白品种‘XB023’的蛋白质含量在籽仁发育前期较高油品种‘鲁花9号’低, 后期显著高于‘鲁花9号’, 且成熟期籽仁8种必需氨基酸组分含量均高于‘鲁花9号’, 其中谷氨酸、赖氨酸和亮氨酸含量差异极显著; ‘XB023’脂肪含量在籽仁发育期一直低于‘鲁花9号’。‘XB023’各时期的籽仁可溶性糖含量和油酸/亚油酸(O/L)值均显著低于‘鲁花9号’。两品种在果针入土10天时子叶细胞即形成淀粉粒、脂体和蛋白体, 随后脂体、蛋白体的数量不断增加, 淀粉粒先增大后逐渐缩小解体。‘XB023’的脂体达到最大的时间早于‘鲁花9号’, 而‘鲁花9号’的脂体快速积累的时间比‘XB023’长。两品种蛋白体大小都在果针入土40天时达到最大值, ‘XB023’的蛋白体在籽仁发育后期数量增加较快。高蛋白品种较高的蛋白质含量由其子叶细胞中较大蛋白体的大小和较多的蛋白体数量决定, 而高油品种较高的脂肪含量是由其较多的脂体数量决定。     

组培苗鲜罗汉果与干罗汉果营养成分的分析和比较

对组培苗鲜罗汉果与干罗汉果提取物的营养成分进行分析和比较研究,分别测定了蛋白质、脂肪、总糖、碳水化合物、灰分、矿质元素、维生素E和氨基酸含量。结果表明:组培苗鲜罗汉果和干罗汉果蛋白质含量分别为22.23%、19.8%,氨基酸总量分别为12.51%、8.36%,其中人体必需氨基酸占氨基酸总量分别为38.13%、36.36%,矿质元素含量分别为1081mg/100g、1089mg/100g,维生素E含量分别为0.183mg/100g、0.589mg/100g。组培苗鲜罗汉果的蛋白质、氨基酸含量比组培苗干罗汉果分别高2.43%、4.15%,碳水化合物、维生素E含量组培苗干罗汉果比组培苗鲜罗汉果分别高2.44%、0.406mg/100g,矿质元素、粗脂肪、总糖、灰分等含量两者不存在明显差异。     

湘西北火棘籽油脂含量及其与土壤养分的关系

对湘西北岩溶山区5个生境火棘属植物的籽含油率与油脂组分进行了测定,探讨了土壤养分与火棘籽含油率及籽油主要组分的关联性.结果表明:土壤全磷与籽油中的亚油酸呈正相关,其他土壤元素与籽油脂肪酸无关联性;火棘籽油维生素E浓度与土壤全钙、全镁呈显著正相关.湘西北火棘籽最高含油率为5.9%,籽油中维生素E平均浓度达9.9g·kg-1,籽油中主要组分亚油酸、油酸和软脂酸的相对含量分别为63.7%、20.8%和13.2%.     

构树聚花果及其果实原汁营养成分的研究

对构树聚花果的营养成分进行分析,结果表明,其果实含有丰富的营养物质,氨基酸,糖类,矿质元素等成分,其果实原汁含有丰富的可溶性糖类,蛋白质,氨基酸,维生素等营养成分,此外,种子含有丰富的脂肪油（40．28％）,其脂肪油中人体必需的脂肪酸亚油酸的含量达（85．42）,其聚花果,果实原汁,种子油具有开发利用的价值。     

白藜芦醇在几种植物中各部位的分布

采用液相色谱研究白藜芦醇在紫斑牡丹、花生和巨峰葡萄几种经济植物各部位的分布情况。结果表明紫斑牡丹籽和果荚的含量远高于花生和巨峰葡萄。花生白藜芦醇含量最低。紫斑牡丹、花生和巨峰葡萄各部位白藜芦醇分布情况如下：紫斑牡丹叶、紫斑牡丹侧枝、紫斑牡丹茎和紫斑牡丹根中均不含有白藜芦醇,而紫斑牡丹籽和紫斑牡丹果荚中含有白藜芦醇,其中紫斑牡丹籽白藜芦醇含量为0.87‰,紫斑牡丹果荚白藜芦醇含量为0.26‰。花生叶、花生胚乳和花生胚芽中均不含有白藜芦醇,而花生侧枝、花生壳、花生皮、花生茎、花生侧根、花生主根中含有白藜芦醇含有白藜芦醇,其含量为花生侧枝3 mg·kg^-1、花生茎11 mg·kg^-1、花生壳12 mg·kg^-1、花生皮15 mg·kg^-1、花生侧根5 mg·kg^-1、花生主根10 mg·kg^-1。经检测发现葡萄肉,葡萄皮,葡萄籽,葡萄蒂四部分中含有白藜芦醇,其中葡萄肉白藜芦醇含量为0.017‰,葡萄皮白藜芦醇含量为0.028‰,葡萄籽白藜芦醇含量为0.005‰,葡萄蒂和其邻近枝白藜芦醇含量为0.12‰。检测说明这几种植物中花生皮、花生壳、葡萄皮、葡萄籽、葡萄蒂、牡丹籽、牡丹荚具有一定的药用价值和经济价值。     

紫苏籽主要营养成分分析

对紫苏籽主要营养成分进行分析,结果表明,紫苏籽含有丰富的脂肪、蛋白质和脂肪酸,各品种间营养成分含量大多数差异极显著,在加工利用时应注意原料品种的选择。紫苏籽粗脂肪和粗蛋白含量平均为388.00g/kg和263.78 g/kg;脂肪酸组分以亚麻酸含量最高,平均为57.68%;其次是油酸、亚油酸和棕榈酸,平均为24.67%、10.37%和6.83%;硬脂酸含量最低,平均为0.49%。各营养成分含量之间存在一定的相关性,计算出了拟合曲线方程。     

镉胁迫对花生籽实品质的影响及响应机制

采用盆栽试验,研究了重金属镉(Cd)对花生籽实品质安全性的影响及花生籽实对镉胁迫的响应机制。结果表明:在供试镉处理范围内(≤10mg.kg-1),镉胁迫对花生籽实脂肪和蛋白质含量均有显著影响,但品种间存在差异;花生籽实中的镉含量随外源镉含量的增加而显著增加(P<0.05),且在土壤低镉浓度(≤1mg.kg-1)下籽实更易富集镉;受镉污染的花生籽实,其蛋白质是络合镉的主要营养部位,且其镉含量远高于食品中镉的限量值,而脂肪中镉的含量甚微,因此供试花生籽实不能作为人体植物蛋白来源,但可以作为人体食用油脂来源。     

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。     

氮、磷、钾肥配施对花生生理特性及产量、品质的影响

在田间试验条件下研究了氮、磷、钾肥配合施用对花生叶片生理特性及产量、品质的影响, 结果表明,氮、磷、钾肥配合施用均可不同程度地提高花生叶片叶绿素含量和光合速率, 且生育中后期(饱果期)的作用大于生育中期(结荚期),N300 P150 K300、P150 K300处理的效果好于N300 P150、N300 K300处理;氮、磷、钾肥配合施用对提高叶片SOD、POD和CAT酶活性、增加可溶性蛋白质含量和降低MDA积累量均有明显作用, N300 P150 K300、P150 K300处理的作用大于N300 P150、N300 K300处理;氮、磷、钾肥配合施用可明显增加花生荚果和籽仁产量,以N300 P150 K300处理产量最高,其次是P150 K300处理, N300 K300处理产量最低,N300 P150 K300和P150 K300处理还明显提高了荚果出仁率;氮、磷、钾肥配合施用可以不同程度提高花生籽仁中脂肪和蛋白质含量, P150 K300和N300 P150 K300处理对脂肪和蛋白质含量均有明显增加作用, N300 K300处理可明显提高脂肪含量,对蛋白质的增加作用不显著,N300 P150处理对脂肪和蛋白质的影响不大, N300 P150 K300处理还可明显提高籽仁中O/L比值和可溶性糖含量,从而延长花生制品的货价寿命、改善花生食用口味.     

Inheritance of seed coat color genes in <Emphasis Type="Italic">Brassica napus</Emphasis> (L.) and tagging the genes using SRAP,SCAR and SNP molecular markers

Seed coat color inheritance in Brassica napus was studied in F₁, F₂, F₃ and backcross progenies from crosses of five black seeded varieties/lines to three pure breeding yellow seeded lines. Maternal inheritance was observed for seed coat color in B. napus, but a pollen effect was also found when yellow seeded lines were used as the female parent. Seed coat color segregated from black to dark brown, light brown, dark yellow, light yellow, and yellow. Seed coat color was found to be controlled by three genes, the first two genes were responsible for black/brown seed coat color and the third gene was responsible for dark/light yellow seed coat color in B. napus. All three seed coat color alleles were dominant over yellow color alleles at all three loci. Sequence related amplified polymorphism (SRAP) was used for the development of molecular markers co-segregating with the seed coat color genes. A SRAP marker (SA12BG18388) tightly linked to one of the black/brown seed coat color genes was identified in the F₂ and backcross populations. This marker was found to be anchored on linkage group A9/N9 of the A-genome of B. napus. This SRAP marker was converted into sequence-characterized amplification region (SCAR) markers using chromosome-walking technology. A second SRAP marker (SA7BG29245), very close to another black/brown seed coat color gene, was identified from a high density genetic map developed in our laboratory using primer walking from an anchoring marker. The marker was located on linkage group C3/N13 of the C-genome of B. napus. This marker also co-segregated with the black/brown seed coat color gene in B. rapa. Based on the sequence information of the flanking sequences, 24 single nucleotide polymorphisms (SNPs) were identified between the yellow seeded and black/brown seeded lines. SNP detection and genotyping clearly differentiated the black/brown seeded plants from dark/light/yellow-seeded plants and also differentiated between homozygous (Y2Y2) and heterozygous (Y2y2) black/brown seeded plants. A total of 768 SRAP primer pair combinations were screened in dark/light yellow seed coat color plants and a close marker (DC1GA27197) linked to the dark/light yellow seed coat color gene was developed. These three markers linked to the three different yellow seed coat color genes in B. napus can be used to screen for yellow seeded lines in canola/rapeseed breeding programs.     

Mycoflora and mycotoxins of peanut (Arachis hypogaea L.) seeds in Egypt. 1-sugar fungi and natural occurrence of mycotoxins

Sixty-four species and 2 varieties which belong to nineteen genera of fungi were identified from 40 peanut seed samples collected from different places in Egypt by using a dilution-plate method on glucose-Czapek's medium. The most frequent genera were Aspergillus (21 species & 2 varieties), Penicillium (16 species) and Fusarium (6 species). A. flavus, A. fumigatus, A. niger, P. chrysogenum and F. oxysporum were the most common fungal species. Forty seven percent of the samples proved to be toxic to brine shrimp (Artemia salina) larvae. Thin-layer Chromatographic analysis revealed that peanuts were contaminated by aflatoxins (11 samples), thrichothecene-toxins (10 samples), zearalenone (one sample) and citrinin (one sample). We believe that this is the first report of the natural occurrence of zearalenone and trichothecene-toxins in peanuts.     

Variation in the Fatty‐Acid Content in Seeds of Various Black,Red, and White Currant Varieties

Currant seeds, a by‐product of juice production, are recognized as a valuable source of oil rich in polyunsaturated fatty acids. We have evaluated 28 currant varieties for their oil content and fatty‐acid composition. The oil content in the seeds ranged from 18.2–27.7%, and no statistical difference between varieties of different fruit color were recorded. Furthermore, the estimated oil yields in the field production ranged from 26.4–212.4 kg/ha. The GC and GC/MS chemical profiles of the seed oils extracted from all examined varieties were common for currants. Linoleic acid (LA) was the major component, with contents ranging from 32.7–46.9% of total fatty acids, followed by α‐linolenic acid (ALA; 2.9–32.0 %), oleic acid (OA; 9.8–19.9%), γ‐linolenic acid (GLA; 3.3–18.5%), palmitic acid (PA; 4.4–8.1%), stearidonic acid (SDA; 2.2–4.7%), and stearic acid (SA; 1.2–2.4%). Quantitative differences in the fatty‐acid profiles between varieties of different fruit color were observed. Blackcurrant varieties showed significantly higher contents of LA, GLA, and PA than red and white currant varieties, whereas significantly higher amounts of ALA and OL were detected in the red and white varieties. Cluster analysis based on the chemical oil profiles joined the blackcurrants in one group, while most of the red and white cultivars joined in a second group at the same linkage distance.     

Fatty acid profile and meat quality of young bulls fed ground soybean or ground cottonseed and vitamin E

The objective of this study was to evaluate the fatty acid profile and qualitative characteristics of meat from feedlot young bulls fed ground soybean or ground cottonseed, with or without supplementation of vitamin E. A total of 40 Red Norte young bulls, with an initial average age of 20 months, and an initial average BW of 339±15 kg, were allotted in a completely randomized design using a 2×2 factorial arrangement, with two oilseeds, and daily supplementation or not of 2500 IU of vitamin E. The experimental period was for 84 days, which was preceded by an adaptation period of 28 days. The treatments were ground soybean (SB), ground soybean plus vitamin E (SBE), ground cottonseed (CS) and ground cottonseed plus vitamin E (CSE). The percentage of cottonseed and soybean in the diets (dry matter basis) was 24% and 20%, respectively. Diets were isonitrogenous (13% CP) and presented similar amount of ether extract (6.5%). The animals were slaughtered at average live weight of 464±15 kg, and samples were taken from the longissimus dorsi muscle for the measurement of fatty acid concentration and the evaluation of lipid oxidation and color of the beef. Before fatty acid extraction, muscle tissue and subcutaneous fat of the longissimus dorsi were separated to analyze fatty acid profile in both tissues. Supplementation of vitamin E did not affect fatty acid concentration, lipid oxidation and color (P>0.05). Subcutaneous fat from animals fed CS diet had greater C12:0, C16:0 and C18:0 contents (P<0.03). In addition, CS diets reduced the C18:1 and C18:2 cis-9, trans-11 contents in subcutaneous fat (P<0.05). The muscle from animals fed CS tended to higher C16:0 and C18:0 contents (P<0.11), and decreased C18:1, C18:2 cis-9, trans-11 and C18:3 contents (P<0.05) compared with SB. The Δ⁹-desaturase index was greater in muscle from animals fed SB (P<0.01). At 42 days of age, meat from cattle fed SB had a greater lipid oxidation rate (P<0.05). Meat from animals fed SB diets had less lightness and redness indices than meat from animals fed CS diets after 14 days of age. In conclusion, the addition of ground cottonseed in the finishing diets did increase the saturated fatty acid content of the longissimus dorsi. However, animals fed cottonseed exhibited greater lightness and redness of beef. In this study, the addition of vitamin E did not affect qualitative characteristics of meat.     

Effect of nontoxigenic Aspergillus flavus and A. parasiticus on aflatoxin contamination of wounded peanut seeds inoculated with agricultural soil containing natural fungal populations

Peanuts and other seed and grain crops are commonly contaminated with carcinogenic aflatoxins, secondary metabolites produced by Aspergillus flavus and A. parasiticus. Aflatoxin contamination of peanuts in the field can be reduced by 77–98% with biological control through the application of nontoxigenic strains of these species, which competitively exclude native aflatoxin-producing strains from developing peanuts. In this study, viable peanut seeds were artificially wounded and inoculated with field soil containing natural fungal populations that were supplemented with conidia of nontoxigenic A. flavus NRRL 21882 (niaD nitrate-nonutilizing mutant) and A. parasiticus NRRL 21369 (conidial color mutant). Increasing soil densities of applied nontoxigenic strains generally resulted in an increase in the incidence of seed colonization by applied nontoxigenic strains, a decrease in seed colonization by native A. flavus and A. parasiticus, and a decrease in aflatoxin concentration in seeds. Reduction of aflatoxins in peanut seeds depended on both the density and the aflatoxin-producing potential of native populations and on the fungal strain used for biological control. Wild-type strain A. flavus NRRL 21882 and its niaD mutant were equally effective in reducing aflatoxins in peanuts, indicating that nitrate-nonutilizing mutants, which are easily monitored in the field, can be used for evaluating the efficacy of biocontrol strains.     

六个品种花椰菜花球的营养成分分析与评价

为评价花椰菜(Brassica oleracea var. botrytis)的营养品质,测定了6个品种花球的10项营养指标,运用主成分分析和聚类分析方法对花椰菜品质进行综合评价。结果表明,6个品种的10项品质指标均存在不同程度的差异,变异幅度为12.22%~ 131.21%。维生素C (Vc)、总黄酮、总多酚、Fe、Ca、P、蛋白质含量间存在显著或极显著的关联性。系统聚类分析将6种花椰菜分为4类,黄色花椰菜‘209’、‘100’和‘217’各为1类,白色花椰菜‘210’、‘214’和‘218’聚为1类。主成分分析提取了花椰菜品质综合评价的3个主成分,获得6个营养评价指标：Vc、总黄酮、总多酚、Fe、Ca和P。通过建立评价函数模型: F= 0.5591Z₁+0.2189Z₂+0.1669Z₃,筛选出‘209’花椰菜的营养品质最高。这为挖掘及选育优良花椰菜品种提供了科学依据。     

2‐D DIGE analysis of the proteome of extracts from peanut variants reveals striking differences in major allergen contents

Over the last decade, an increasing prevalence of peanut allergies was observed worldwide. Peanuts are meanwhile categorized among the most dangerous food allergens. This is particularly relevant since peanut‐derived ingredients are widely used in industrial food production. To minimize the problem of hidden food allergens causing severe anaphylactic reactions, pre‐packaged food containing peanut components needs to be classified according to European ruling since 2005. Food companies search for strategies to reduce the allergenicity of peanut‐derived food additives either by genetically altering the allergen content or by identifying peanut varieties with low levels of major allergens. In our study, we focused on peanut extracts from Indonesia that apparently contain lower levels of the major Arachis hypogaea allergen 1 (Ara h 1). Basic extracts of Virginia‐type and Indonesian peanuts were compared by 1‐ and 2‐DE. We identified more than hundred individual components in these extracts by MS and provide a high‐resolution allergen map that also includes so far unknown fragments of major peanut allergens. The reduced level of Ara h 1 associated with a significantly lower abundance of the most potent peanut allergen Ara h 2 in various Indonesian peanuts was also confirmed by Western blotting with monoclonal antibodies and sera of allergic patients.     

5个番石榴品种果实食用品质和香气特征分析

为比较番石榴(Psidium guajava)不同品种果实的外观、营养价值和香气特征,采用国家标准方法,对5个番石榴品种(‘红宝石’、‘粉红蜜’、‘西瓜’、‘水蜜’、本地种)果实的外观和营养成分进行测定,采用顶空气质联用(HS-GC-MS)技术对5个品种果实的香气成分进行测定。结果表明,不同品种果实外观及营养成分差异明显。‘水蜜’的果形指数最低,果实扁圆形,种籽最少;大多数糖类物质(总糖、还原糖、蔗糖等)、糖酸比、总酚含量最高;果糖、VC和总黄酮含量位居第2;总酸、脂肪、粗纤维、灰分含量最低。主成分分析表明,‘水蜜’作为鲜食水果的食用品质最高。己醛和石竹烯是红肉型品种的特征风味物质,3-羟基-2-丁酮是白肉型品种的特征香气成分。     

综合隶属函数法评价花生品种抗旱性与AhNCED1基因表达的关系

利用综合隶属函数法评价不同产地8个花生品种幼苗的抗旱能力, 同时分析各品种花生在模拟干旱处理2小时和12小时后叶片AhNCED1基因表达量的变化, 探讨花生品种抗旱性与叶片AhNCED1基因表达的关系, 建立花生(Arachis hypogaea)幼苗时期通过AhNCED1基因表达变化检测花生抗旱性等级的方法。结果显示, 干旱处理2小时, 各品种叶片AhNCED1基因表达量迅速增加, 与处理前相比差异极显著; 干旱处理12小时, 各品种花生叶片AhNCED1基因表达量均降低, 但仍均高于处理前水平。综合隶属函数值定量反映各品种抗旱性强弱顺序为: 花育24号>福花13号>粤油7号>中花15号>中花16号>航花2号>福花9号>北海1号。干旱处理2小时各品种花生叶片AhNCED1表达量变化大小依次为: 福花13号>花育24号>中花16号>中花15号>航花2号>粤油7号>北海1号>福花9号。其中, 抗旱性强的品种为花育24号和福花13号, 抗旱性弱的品种为福花9号和北海1号, 其余4个品种为中等抗旱。该抗旱性评价结果与这些品种在生产上的表现一致, 干旱胁迫2小时花生品种叶片AhNCED1基因的表达量变化与其抗旱性一致。因此, AhNCED1基因表达量可作为苗期花生品种抗旱性等级的量化指标之一。