Chemical composition and protein quality comparisons of soybeans and soybean meals from five leading soybean-producing countries

Soybeans (SBs) were obtained from five leading SB-producing countries (Argentina, Brazil, China, India, and the United States), imported to the United States, and processed into soybean meal (SBM) under uniform conditions in the United States. SBs from China had the highest crude protein (CP) content while SBs and the resultant SBM from Argentina had the lowest. Additional differences in the quality of the SB and resultant SBM samples collected were noted. An additional set of SBM produced in these five countries and subjectively evaluated to be of low, intermediate, and high quality also were obtained and evaluated. Overall, SBM quality affected amino acid and mineral concentrations with differences existing both among and within countries. SBM produced in the United States had a higher CP content than SBM produced in other countries. Amino acid concentrations generally increased, and antinutritional factors decreased with increasing subjective quality assessment.     

Chemical and nutritional characteristics of United States soybeans and soybean meals

Two experiments were conducted to determine U.S. soybean meal (SBM) variation. In experiment 1, SBM from 55 U.S. processors was evaluated. Significant (P < 0.05) but numerically small differences were detected in dry matter (DM) and organic matter (OM) concentrations. Crude protein (CP) concentrations (51.6-54.6%) were higher (P < 0.05) in SBM produced in the southern U.S. Lipid and total dietary fiber concentrations also differed (P < 0.05). The protein dispersibility index was affected (P < 0.05) by the source of SBM. In experiment 2, soybeans and resultant SBMs were obtained from 10 U.S. processing plants. Soybean DM, OM, and CP concentrations differed (P < 0.05). Soybean meal varied (P < 0.05) in CP (48.2-56.2%), acid-hydrolyzed fat (3.3-9.2%), total dietary fiber (17.0-20.7%), and lysine concentrations. Soybean meal carbohydrate composition was also affected by processing conditions. These results indicate a significant variation in chemical and nutritional characteristics of U.S. SBM from different sources.     

Identification, characterization, epitope mapping, and three-dimensional modeling of the alpha-subunit of beta-conglycinin of soybean, a potential allergen for young pigs

Soybean meal (SBM), the major byproduct of soybean oil extraction, is the main protein source for swine diets globally. In the United States, 8.6 million metric tons of SBM was used in swine rations in 2004. The pathological effect and immunological response of SBM feeding have been demonstrated in swine. In this study, we have utilized plasma collected from piglet feed with SBM in immunoblot analysis to detect proteins that elicited antigenic responses. We have identified soybean beta-conglycinin alpha-subunit as being a potential allergen for young piglets. Characterization of this protein indicated that deglycosylation and pepsin digestion did not eliminate immunoreactivity of this protein. Epitope mapping utilizing planar cellulose supports technology (SPOT) showed that three peptides spanning amino acids S185-R231 were critical for the allergenicity. A computer-generated three-dimensional structure model of the alpha-subunit of beta-conglycinin indicated that the antigenic epitopes were located on the surface of the protein. Information from this study may assist in the construction of recombinant nonallergenic soybean protein useable for both immunotherapy and the potential production of hypoallergenic soybean plants.     

Evaluation of the Functionality of Five Different Soybean Proteins in Hot‐Press Wheat Flour Tortillas

Five different soybean protein sources were added to wheat flour to increase the protein content by 15–25%, and the resulting composite flours were optimally processed into hot‐press tortillas in a pilot plant. The rheological properties of composite flours were evaluated with the farinograph, alveograph, and other wheat quality tests. Tortilla‐making qualities of the control and soybean‐fortified flours were evaluated during dough handling, hot pressing, and baking. The resulting tortillas were tested in terms of yield, physical and chemical parameters, sensory properties, color, and objective and subjective texture. The soybean‐fortified tortillas had increased yields because of the higher dough water absorption and enhanced essential amino acid scores. Among the five different soybean proteins, the defatted soybean flour (SBM1) with the lowest fat absorption index and protein dispersibility index (PDI) and the soybean concentrate produced the best fortified tortillas. The protein meals with high PDI and relatively lower water absorption index (SBM3 and SBM4) produced sticky doughs, lower alveograph P/L values, and defective tortillas. All soybean proteins produced higher yields of tortillas with an enhanced protein quality and amount of dietary fiber.     

Chemical composition and nutritional quality of soybean meals prepared by extruder/expeller processing for use in poultry diets

This research examined variation in chemical composition and nutrient quality of soybeans (SBs) and soybean meals (SBMs) produced at seven commercial extruder/expeller plants in the United States (experiment 1), as well as differences in amino acid digestibilities when roosters were fed SBMs extruded at 121, 135, 150, or 160 degrees C at a U.S. pilot processing plant (experiment 2). In experiment 1, limited variation existed in the composition of SBs arriving at the plants, whereas substantial differences were noted in amino acid composition and protein quality of the resultant SBMs. In experiment 2, the SBMs extruded at 121 and 135 degrees C were underprocessed as noted by high urease activities and lower amino acid digestibilities. Soybean meals extruded at 150 and 160 degrees C resulted in higher amino acid digestibilities and lower urease activities, indicating adequate processing. Large variation exists in the nutritional quality of extruder/expeller SBMs currently in the marketplace. Optimal processing temperatures should be >135 degrees C, and temperatures as high as 165 degrees C do not result in overprocessing.     

Selected odor compounds in soymilk as affected by chemical composition and lipoxygenases in five soybean materials

Protein, fat content, and beany odor affect consumers' choice of soy foods. Our objective was to characterize protein, lipid, and lipoxygenase activities and fatty acid compositions in food soybeans and to determine how chemical composition and enzyme activities related to the generation of beany odor components, including hexanal, hexanol, trans-2-nonenal, 1-octen-3-ol, and trans-2,trans-4-decadienal in soymilk. Protein, lipid, and fatty acid compositions and lipoxygenase activities of five soybean materials, including Proto, IA2032, IA 2064, IA3017, and L-Star varieties, were analyzed. Soymilk was prepared by a traditional method involving soaking, grinding, and cooking processes. Selected odor compounds in raw and cooked soymilk were analyzed by solid-phase microextraction and gas chromatography. Results showed that soybeans differed in crude protein and lipid content, lipoxygenase activities, and fatty acid compositions. L-Star had the highest and Proto the lowest lipid content among the five soybean cultivars. Protein content, lipoxygenases, and linoleic acid were positively correlated with beany odor content in soymilk made from the selected soybean materials. After boiling for 20 min, the soymilk made from L-Star and IA2032 retained the lowest odor profiles among the soymilk products made from the five selected materials.     

三种植物生长调节剂对大豆生长发育及产量的影响

为提高单作大豆产量,本研究以大豆品种南豆12为材料,分别探究了不同浓度的3种植物生长调节剂拌种对大豆田间出苗的影响,及叶面喷施对大豆生长发育、产量及品质的影响。结果表明,不同浓度的褐藻胶寡糖、壳寡糖、冠菌素拌种均能提高大豆的田间出苗率,而叶面喷施均能提高大豆的株高与茎粗,褐藻胶寡糖和冠菌素拌种可增加大豆分枝数,壳寡糖拌种则减少了大豆分枝数。3种植物生长调节剂均能在一定程度上提高单株粒数与百粒重,进而提高大豆产量,同时还可提高大豆粗蛋白含量,降低粗脂肪酸含量以及满粒期大豆籽粒中可溶性糖与还原性糖的含量。此外,叶面喷施植物生长调节剂并不会影响收获子代大豆的萌发。褐藻胶寡糖、壳寡糖、冠菌素拌种推荐每公斤大豆使用100 mL植物生长水溶液拌种,浓度分别为25、100、0.05 mg·L^-1;叶面喷施的推荐使用量分别为50、50、0.01 g·hm^-2。 本研究结果为大豆丰产栽培提供了理论依据。     

大豆根系分泌物中氨基酸对根腐病菌生长的影响

采用砂培和室内模拟方法,研究了两个抗病性不同的大豆品种水溶性根系分泌物中氨基酸组分随作物生长的变化;同时检测了培养基中添加大豆根系分泌物和纯品氨基酸对大豆根腐病菌菌落生长的影响。结果表明,添加大豆苗期和花荚期根分泌物均显著促进尖镰孢菌菌丝生长,添加成熟期根分泌物显著促进腐皮镰孢菌菌丝生长。易感根腐病大豆品种合丰25号花荚期以后根分泌物中氨基酸种类多于抗根腐病大豆品种绥农10号。感病大豆品种根系分泌的氨基酸总量随生育时期增加,在鼓粒期达到最高;抗病大豆品种根系分泌的氨基酸总量在花荚期最高。感病大豆品种根系分泌的主要氨基酸为精氨酸,抗病大豆品种根系分泌的氨基酸主要为天冬氨酸。氨基酸纯品培养中,添加精氨酸和酪氨酸处理的尖镰孢菌菌落直径显著高于不加氨基酸的对照菌落直径;添加丝氨酸和天冬氨酸的处理菌落直径则显著低于对照处理。同时,添加天冬氨酸的培养基上腐皮镰孢菌菌落直径显著低于不加氨基酸的对照。可见,不同大豆品种根系分泌物中氨基酸组分对病原菌生长起着一定的作用,其表现的作用受根际氨基酸种类和氨基酸浓度影响较大,对于不同病原菌的作用存在差异。     

Provision of carbon skeletons for amide synthesis in non-nodulated soybean and pea roots in response to the source of nitrogen supply

Abstract

Soluble amino acids in roots and primary amino acids, which were involved in primary ammonium assimilation, in the metabolites of ¹⁴C-glucose fed to roots for 3 h in the dark were analyzed in the roots of non-nodulated soybean and pea plants grown in ammonium, nitrate or nitrogen-free media for 1 day. Compared with the effect of nitrate, ammonium supply strongly affected the content and synthesis of the amino acids in the roots. In both soybean and pea roots, the supply of ammonium increased considerably the concentrations of the primary amino acids, and asparagine was the most predominant amide, followed by glutamine. In nitrate-supplied soybean roots, the concentrations of asparagine, aspartate and alanine increased, but the concentration of glutamine was low. In the roots of pea plants grown in nitrate media, asparagine was the predominant amino acid, although the composition of the primary amino acids was little affected by nitrate supply. The proportion of amino acids synthesized from ¹⁴C-glucose increased and asparagine rather than glutamine was predominantly synthesized in ammonium-supplied soybean and pea roots, whereas in nitrate-supplied roots asparagine was more actively synthesized than glutamine, although asparagine was not predominant. The ratio of C4 (asparagine + aspartate) to C5 (glutamine + glutamate) amino acids was twofold higher in ammonium-supplied and nitrate-supplied soybean roots than in roots receiving no nitrogen. In contrast, in pea roots, the C4/C5 ratio was twofold higher only in ammonium nutrition. The results obtained suggest that the roots of leguminous plants might possess an indigenous ability to provide a carbon skeleton for preferential synthesis of asparagine rather than glutamine with a high intensity of ammonium supply.     

不同品种大豆加工豆浆的品质分析及评价模型

东北是中国大豆的主产区,也是传统豆制品的重要原料生产基地。为明确该产区大豆原料与其加工制得豆浆的品质、特点,该研究选取47个东北大豆品种为原料,分析其大豆粗脂肪、粗蛋白、钙、磷含量等理化指标,比较其加工豆浆的蛋白浓度、总固形物含量、感官评价、风味物质含量等品质差异。结果得到豆浆质量得率、动力粘度、总固形物、非豆腥味活性与豆腥味活性比值最高的品种分别是吉育102、吉92、吉育70、吉小8号、吉青3号。大豆籽粒理化指标分析结果显示,粗蛋白、粗脂肪、钙、磷含量最高的品种分别为垦丰17、GY07Y16、吉82、杂交豆3号。豆浆的豆腥味与脂肪氧化酶活性、油酸、亚油酸、亚麻酸含量呈显著正相关,脂肪含量与风味活性比呈负相关。利用因子分析法提取出4个因子方程,确定豆浆各项指标在综合品质中所占比重,进一步建立了豆浆品质评价模型,模型系数可以根据加工目的进行相应调整。综合得分最高的5个品种为吉45(9.52)、吉育70(9.43)、吉青1号(9.28)、吉育66(9.27)、吉育102(9.21)。结合对应的大豆理化指标排序发现,豆浆品质是大豆理化成分综合作用的结果,并非蛋白含量越高所得产品越好,脂肪含量高的品种并不适宜加工豆浆。该研究为用于加工豆浆的东北大豆品种分级提供了参考,实现了豆浆品质的综合判别及大豆加工基础数据的分析、整合。     

大豆籽粒的化学-力学特性灰色关联度及本构模拟

为研究大豆籽粒在不同受载情况下的力学特性,探索其化学-力学特性之间的关系,该文选择11种大豆籽粒在含水率为8.65%下对其进行化学组分、针尖压入、剪切、压缩试验,并借助Abaqus软件建立本构模型,对压缩试验过程进行模拟仿真。力学试验和模拟结果表明:所测大豆籽粒硬度为18.39~52.58 N/mm,大豆籽粒破损强度为3.65~15.32 MPa,大豆籽粒极限剪切力为12.70~52.33 N,纵轴的抗剪能力明显高于横轴;不同压缩形式和剪切方向分别对大豆籽粒破损强度和极限剪切力影响极显著;试验与仿真的载荷-变形曲线拟合良好,说明所建立的大豆本构模型能够分析研究其抗挤压特性。灰色关联度分析结果表明:与化学组分含量最为密切的力学指标是硬度与接触刚度,其中硬度与粗蛋白质、粗脂肪、粗淀粉、粗纤维含量的关联度分别为0.309 4、0.327 8、0.171 9、0.191 8,接触刚度与其关联度分别为0.220 6、0.283 7、0.186 9、0.133 4,粗蛋白质和粗脂肪含量对硬度与接触刚度的影响最大,其次是粗纤维素,粗淀粉含量。研究结果可为品质预测和品种鉴别提供新的方法和依据。     

Characterization of soluble amaranth and soybean proteins based on fluorescence, hydrophobicity, electrophoresis, amino Acid analysis, circular dichroism, and differential scanning calorimetry measurements.

Intrinsic fluorescence (IF), surface hydrophobicity (S(o)), electrophoresis, amino acid analysis, circular dichroism (CD), and differential scanning calorimetry (DSC) were used to study folded and unfolded soluble proteins from Amaranthus hypochondriacus (A. h.) and soybean (S). Globulin (Glo) and albumin subfractions (Alb-1 and Alb-2) were extracted from A. h. and S and denatured with urea. Electrophoretic and functional properties indicated a significant correlation between soluble protein fractions from soybean and amaranth. The protein fractions shared some common electrophoretic bands as well as a similar amino acid composition. The larger percent of denaturation in protein fractions, which is associated with enthalpy and the number of ruptured hydrogen bonds, corresponds to disappearance of alpha-helix. The obtained results provided evidence of differences in their secondary and tertiary structures. The most stable was Glo followed by the Alb-2 fraction. Predicted functional changes in model protein systems such as pseudocereals and legumes in response to processing conditions may be encountered in pharmaceutical and food industries. These plants can be a substitute for some cereals.     

Composition of transgenic soybean seeds with higher γ-linolenic acid content is equivalent to that of conventional control

γ-Linolenic acid (GLA) has been used as a general nutraceutical for pharmacologic applications, particularly in the treatment of skin conditions such as eczema. Four transgenic soybean lines that produce GLA at high yields (4.21% of total fatty acids, up to 1002-fold) were generated through the stable insertion of the Delta-6-fatty acid desaturase gene isolated from Borago officinalis into the genome of a conventional soybean cultivar. As part of the safety assessment of genetically engineered crops, the transgenic soybean seeds were compared with their parental soybean seeds (nontransgenic) by applying the principle of substantial equivalence. Compositional analyses were conducted by measuring the fatty acids, proximate analysis (moisture, crude protein, crude fat, carbohydrates, TDF, and ash contents), amino acids, lectins, and trypsin inhibitor activity. The present results showed that the specific transgenic cultivar studied was similar to the conventional control.     

Assessment of the protein quality of nine northern adapted yellow and brown seed coated soybean cultivars by amino acid analysis

Accurate and detailed amino acid determinations were carried out on nine northern adapted soybean cultivars to ascertain whether their amino acid profiles could be used as potentially useful indices for assessing their protein quality. The cultivars were Maple Amber, Maple Donovan, Maple Glen, Maple Isle, Maple Presto, Maple Ridge, and three brown seed coat near-isogenic lines, Maple Presto Brown, Maple Ridge Brown, and Maple Arrow Brown. Their total protein and amino acid composition were compared with those of an established cultivar, Maple Arrow. Mean protein values for the new cultivars ranged from 30.1 to 33.1% compared to Maple Arrow, which was 33.2%. The total nitrogen content was also variable among these cultivars, ranging from 5.0 to 5.4%. All nine Maple series soybean cultivars were higher in their essential amino acid (EAA) content, that is, EAA(9) = 45.2-46.5%, than the FAO/WHO reference protein pattern value of EAA(9) = 33.9%, for a 2-5-year-old child. Each of the nine new soybean cultivars was limited only in methionine and to a lesser extent in valine and isoleucine and had a protein digestibility corrected amino acid score of 91% for all cultivars, compared to the value of egg protein (97%). These results suggest that the most accurate evaluation of protein quality in soybeans, and possibly other legumes and cereals, is by the protein digestibility-corrected amino acid score.     

Foliar analysis of sulphur in different soybean cultivar stages and its relation to yield

Abstract

Six soybean cultivars (maturity group V) were sown in a Typic Argiudoll. Experimental plots were arranged in a randomized block design with three replications. Sampling dates were at different stages: V, R2, R4, and R55. All the varieties showed that the greatest sulfur (S) concentrations were in stage V and the lowest in stage R55. No significant differences were found between the means of the S concentrations during the V, R4, and R55 stages. In the R2 stage, there was a poor correlation with the weight of 1,000 seeds.     

Identification of volatile compounds in soybean at various developmental stages using solid phase microextraction

Soybean (Glycine max) seed volatiles were analyzed using a solid phase microextraction (SPME) method combined with gas chromatography-mass spectrometry (GC-MS). Thirty volatile compounds already reported for soybean were recovered, and an additional 19 compounds not previously reported were identified or tentatively identified. The SPME method was utilized to compare the volatile profile of soybean seed at three distinct stages of development. Most of the newly reported compounds in soybean seed were aldehydes and ketones. During early periods of development at maturity stage R6, several volatiles were present at relatively high concentrations, including 3-hexanone, (E)-2-hexenal, 1-hexanol, and 3-octanone. At maturity stage R7 and R8, decreased amounts of 3-hexanone, (E)-2-hexenal, 1-hexanol, and 3-octanone were observed. At maturity stage R8 hexanal, (E)-2-heptenal, (E)-2-octenal, ethanol, 1-hexanol, and 1-octen-3-ol were detected at relatively high concentrations. SPME offers the ability to differentiate between the three soybean developmental stages that yield both fundamental and practical information.     

Comparison of quality characteristics of soybeans from Brazil, China, and the United States

Both soybean composition and processing conditions impact the nutritional quality of soybean meal. The objective of this experiment was to compare nutrient compositions of soybeans grown under diverse environmental conditions in a variety of locations. Dry matter, organic matter, and ash concentrations differed in soybeans collected within the countries of Brazil, China, and the United States, although these differences were generally small or due to uniqueness of a particular source. Large differences in dry matter were detected among countries. Differences in crude protein, amino acid, and lipid concentrations of soybeans were detected both within and among countries. Soybeans from China had a greater crude protein concentration (42.14%) than those from Brazil (40.86%), whereas soybeans from China had a lower lipid concentration (17.25%) than those from either Brazil or the United States (18.66 and 18.70%, respectively). Environmental conditions under which soybeans are grown have a great impact on chemical composition and nutrient quality.     

Mycorrhizal fungi effects on nutrient composition and yield of soybean seeds

Nutrient composition and yield of soybean [Glycine max (L.) Merr] seeds are heritable traits affected by environmental factors. This study determined the effects of arbuscular‐mycorrhizal (AM) fungi on seed protein, lipid, and phosphorus (P) composition and yield in soybean grown under a high nitrogen (N) regime. Plants were grown in pot cultures without AM fungi in P‐fertilized (+P) or unfertilized (‐P) soil, or in ‐P soil inoculated with one of the AM fungi Glomus mosseae (Nicol. & Gerd.) Gerd, and Trappe (Gm), Glomus etunicatum Becker and Gerd.(Ge), or Gigaspora rosea Nicol. and Schenck (Gr). Seed yields of+AM plants, as a group, were halfway between those of the +P and ‐P plants. Seed size was highest in Gm plants. Differences in protein concentrations between Ge and Gr and the other treatments were highly significant. Seed P and protein concentrations were not significantly correlated (p=0.162), but a highly significant (r =‐0.949) negative correlation between seed P and lipid concentrations was observed. Phosphorus concentration was highest and that of lipids lowest in +AM plants. Seed yield and nutrient composition were independent of the intensity of root colonization. The seed protein/lipid ratio was highly correlated with seed P concentration and was significantly higher for +AM plants, as a group, than for both +P and ‐P ‐AM plants. Differences in seed dry weight, size, seed/ stem ratio, P content, and protein concentration among +AM plants showed mycorrhiza‐specific host responses. These responses suggest that AM fungi can modify soybean seed development and chemical composition.     

长白山国家级自然保护区垂直带土壤-植物系统中Pb的变异特征及其影响因素

本文研究了长白山国家级自然保护区垂直带土壤-植物系统中Pb元素含量的水平变异和垂直变异特征。结果表明,垂直带土壤Pb含量均在25mg/kg以上,且各土壤带Pb的平均含量与其变异程度相反,棕色针叶林土Pb平均含量最低但变异最大,而山地生草森林土Pb平均含量最高但变异最小;垂直带植物Pb含量均低于克拉克值,与垂直带土壤Pb含量高低基本相吻合,但其变异以高山苔原带变异最大,岳桦林带变异最小;植物Pb含量垂直分异显著高于土壤Pb含量,变异系数达89.76%;植物对Pb的富集能力依植物种类及器官不同而异;成土母质和母岩、土壤pH值、有机质及土壤质地是影响Pb在土壤-植物系统中分异的主要因素。     

Effects of phosphorus amended low phosphorus soil on soybean (Glycine max L.) and wheat (Titicum aestivum L.) yield and phosphorus uptake

A major constraint for crop production on disturbed soils is phosphorus (P). A 2-year field study was conducted on a disturbed soil to evaluate broiler litter ash (BLA) as an inexpensive phosphorus fertilizer for soybean. BLA or super phosphate (SP) was applied at four rates and planted with soybean followed by wheat. At soybean growth stage R3, two plants from each plot were removed for tissue analysis. Soybean tissue P concentration distributions were in the order pods?>?leaves?>?stems?>?roots. At maturity, soybean grain and wheat tissue yields were not significantly affected by P source. Except for the high superphosphate rate for the second crop, P concentrations of soybean grain and wheat tissue were not significant between P source. In this study, BLA was as effective as SP for growth of soybean grain and wheat tissue, suggesting that BLA can be used as an inexpensive P fertilizer on low P disturbed soils.