UV-B辐射对8个大豆品种种子萌发率和 幼苗生长的影响

在生长房5种(暗处、可见光、低、中、高强度紫外线-B)处理下,研究了8个大豆品种的种子萌发率和萌发后幼苗的生长状况。结果表明,暗处种子萌发率高于自然光和UV-B辐射的种子。UV-B辐射增强对大豆种子的萌发率没有显著影响,仅使部分品种的最大萌发率降低和导致部分品种达到最大萌发率的时间延长。幼苗的生长对增强的UV-B辐射非常敏感。使大部分品种的胚根变短增粗,这可能是植物激素作用的结果。大豆的叶绿素a、叶绿素b和总叶绿素含量明显受到UV-B辐射的抑制。UV-B作用能促进类黄酮在幼苗中的积累,紫外吸收色素的增设有利于提高对UV-B的抵抗力。UV-B辐射的这种效应及大豆品种间的差异在自然情况下会产生深远的生物学和生态学意义     

两种羟基苯乙酸对大豆萌发的化感效应研究

通过田间和室内试验相结合,利用高效液相色谱检测大豆根际土境和残茬腐解液中的对羟基苯乙酸和间羟基苯乙酸的含量;在培养皿内研究两种酚酸对大豆生长抑制效应;研究了二者对大豆DNA熔点(Tm)的影响,并采用SDS—PAGE方法研究二者对根系蛋白合成的影响．结果表明,在大豆根际土境和残茬腐解液中检测到对羟基苯乙酸;两种羟基苯乙酸处理后,大豆例根效和主根长均显著减少,表现出明显的化感抑制效应,间羟基苯乙酸的抑制效应更明显;两种羟基苯乙酸使大豆DNA的熔点(Tm)下降,一些小分子蛋白的合成受到影响,从而抑制大豆生长,表现出典型的化感效应。     

一种改良的大豆线粒体DNA提取方法

以大豆(Glycine max (L.) Merrill)黄化苗为材料,通过优化提取线粒体DNA(mtDNA)时差速离心过程中的离心力和离心时间,以及纯化过程中设置不同的蔗糖密度梯度和裂解液浓度,结合高盐法去除蛋白质,改良大豆mtDNA的提取方法。结果表明,该方法提取的mtDNA浓度和纯度较高,无叶绿体和核基因组DNA的污染,可用于后续大豆线粒体基因组的相关研究。     

Distribution of two isoforms of NADP-dependent isocitrate dehydrogenase in soybean (Glycine max)

Two different cDNAs that encode NADP-specific isocitrate dehydrogenase (NADP-IDH) isozymes of soybean (Glycine max) were characterized. The nucleotide sequences of the coding regions of these cDNAs have 74% identity to each other and give predicted amino acid sequences that have 83% identity to each other. Using PCR techniques, their coding regions were subcloned into a protein overexpression vector, pQE32, to yield pIDH4 and pIDH1, respectively. Both IDH4 and IDH1 enzymes were expressed in Escherichia coli as catalytically active His6 tagged proteins, purified to homogeneity by affinity chromatography on nickel chelate resin and rabbit polyclonal antibodies to each were generated. Surprisingly, antiserum to IDH4 did not react with IDH1 protein and IDH1 antiserum reacted only very weakly with IDH4 protein. IDH4 antibody reacts with a protein of expected molecular weight in cotyledon, young leaf, young root, mature root and nodules but the reaction with mature leaf tissue was low compared to other tissues. Western blot results show that IDH1 was not expressed in young roots but a protein that reacts with the IDH1 antibody was highly expressed in leaves, showing that there was tissue-specific accumulation of NADP-IDH isozymes in soybean.     

Genetic analysis of field germination in soybean (Glycine max. (L) merill.)

Summary Genetic analysis for germination percentage was carried out in the F₃ and F₄ generations of a diallel cross involving six promising genotypes of soybean. Results indicated a high amount of genetic variability and a moderately high heritability together with genetic advance, suggesting a possible improvement for this character through hybridization and selection. Correlations at different levels revealed a strong negative association of germination with only one seed character: seed weight. This observation was further confirmed from path coefficient analysis. These findings strongly suggest that to base selection on seed weight which may not influence the seed quality of soybean.     

The effects of low root-zone temperature stress on two soybean (Glycine max) genotypes when combined with Bradyrhizobium strains of varying geographic origin

In areas with short growing seasons, poor early vegetative growth of soybean (Glycine max [L.] Merr.) is often attributed to the restrictive effect of cool soil conditions on nodulation and N₂-fixation by this subtropical grain legume. However, there are few studies regarding potential genetic variability of soybean and Bradyrhizobium japonicum genotypes for nodulation at cool root-zone temperatures (RZT). Experiments were conducted to (1) test for a threshold temperature for low RZT inhibition of soybean nodulation and (2) ascertain whether this threshold temperature response depends mainly on the micro- or macrosymbiont. In experiment 1 soybean seedlings (Glycine max [L.] Merr. cv. Maple Arrow) were inoculated with 1 ml of a log phase culture of B. japonicum strain 532C, H8 or H15 (the latter two strains were isolated from cold soils of Hokkaido, northern Japan) and maintained at either 16, 17.5, 19 or 25°C RZT. In experiment 2 seedlings of cv. Maple Arrow and a cold-tolerant Evans isoline were combined with strain 532C and two Hokkaido strains (H5, H30) at both 19 and 25°C RZT. Results indicated that N₂-fixation at 44 days after inoculation was substantially reduced (30–40%) by RZT as high as 19°C, due to development of less nodule mass and to a delay in the onset of N₂-fixation and a small decrease in the number of nodules formed. However, the number of nodules formed was sharply reduced and the time required for the first appearance of nodules was significantly delayed below an RZT of 17.5°C. Differences between cultivars for nodulation and N accumulation were apparent at 25°C, but were abolished by growth at 19°C, indicating that, in spite of differences in growth potential between the cultivars under optimum RZT, both cultivars were equally limited by low RZT. Differences between B. japonicum strains were consistent across temperatures and were largely attributable to higher rates of specific nodule activity recorded for strain 532C, which seemed well adapted to low RZT. These results suggest that the host plant mediates the sensitivity of N₂-fixation under low RZT and that inoculation with B. japonicum strains from cold environments is unlikely to enhance soybean N₂-fixation under cool soil conditions.     

GTP-specific pyrophosphorylation of thiamin in dark-grown soybean (Glycine max) seedling axes

ATP:thiamin pyrophosphotransferase (TPT: EC 2.7.6.2) was purified 5 900-fold from 48 h dark-grown soybean [ Glycine max (L.), Merr. cv. Ransom II] seedling axes. TPT activity was monitored during purification by measuring the formation of thiamin pyrophosphate (TPP) from [2-¹⁴C]-thiamin at optimal pH (7.3). Although other nucleoside triophosphates were active as pyrophosphate donors (apparent K_ms from 21 to 138 m M ), GTP was the preferred nucleotide with an apparent K_m of 0.021 m M . TPT activity was extremely sensitive to TPP formation, suggesting product feedback inhibition of TPT activity in vivo. Sulfhydryl, H⁺ and Mg²⁺ concentrations, either independently or in concert, were found to affect TPT activity.     

Megagametophyte abnormalities of near-isogenic female partial-sterile soybean mutants (Glycine max; Leguminosae)

Megagametogenesis of soybean, Glycine max (L.) Merr., cultivars Clark and Clark k2, and F1 hybrid of Clark (female parent) crossed with Clark k2 (male parent) were studied using stereo light microscopy and confocal scanning laser microscopy. Reproductive development in Clark and Clark k2 plants was compared to F1 hybrid plants. In mature pods, 6.4% of the ovules of Clark, 8.1% of the ovules of Clark k2, and 41.4% of the ovules of F1 hybrid plants were aborted. This female partial sterility was due to incomplete megagametophyte development: undeveloped polar nuclei—or developed but not in a position for fertilization; increased megagametophyte wall thickness; abnormal shape and/or premature degeneration of synergids and intact synergids throughout the life of the ovule; egg cell not well-developed or absent; and megagametophyte remaining uninucleate. Each of these abnormalities contributed to either lack of double fertilization or early megagametophyte abortion. Electronic Publication     

QTL mapping of domestication-related traits in soybean (Glycine max)

BACKGROUND AND AIMS: Understanding the genetic basis underlying domestication-related traits (DRTs) is important in order to use wild germplasm efficiently for improving yield, stress tolerance and quality of crops. This study was conducted to characterize the genetic basis of DRTs in soybean (Glycine max) using quantitative trait locus (QTL) mapping. METHODS: A population of 96 recombinant inbred lines derived from a cultivated (ssp. max) x wild (ssp. soja) cross was used for mapping and QTL analysis. Nine DRTs were examined in 2004 and 2005. A linkage map was constructed with 282 markers by the Kosambi function, and the QTL was detected by composite interval mapping. KEY RESULTS: The early flowering and determinate habit derived from the max parent were each controlled by one major QTL, corresponding to the major genes for maturity (e1) and determinate habit (dt1), respectively. There were only one or two significant QTLs for twinning habit, pod dehiscence, seed weight and hard seededness, which each accounted for approx. 20-50 % of the total variance. A comparison with the QTLs detected previously indicated that in pod dehiscence and hard seededness, at least one major QTL was common across different crosses, whereas no such consistent QTL existed for seed weight. CONCLUSIONS: Most of the DRTs in soybeans were conditioned by one or two major QTLs and a number of genotype-dependent minor QTLs. The common major QTLs identified in pod dehiscence and hard seededness may have been key loci in the domestication of soybean. The evolutionary changes toward larger seed may have occurred through the accumulation of minor changes at many QTLs. Since the major QTLs for DRTs were scattered across only six of the 20 linkage groups, and since the QTLs were not clustered, introgression of useful genes from wild to cultivated soybeans can be carried out without large obstacles.     

Unusual regulatory properties of sucrose-phosphate synthase purified from soybean (Glycine max) leaves

Sucrose-phosphate (SPS) from source leaves of soybean ( Glycine max (L.) Merr. cv. Ransom II) was purified 74-fold to a final specific activity of 1.8 U (mg protein)¹. The partially purified preparation was free from phosphoglucoseisomerase (EC 5.3.1.9), pyrophosphatase (EC 3.6.1.1), phosphoenolpyruvate-phosphatase (EC 3.1.3.-), phosphofructokinase (EC 2.7.1.11), and uridine diphosphatase (EC 3.6.1.6), and was used for characterization of the kinetic and regulatory properties of the enzyme. The enzyme showed hyperbolic saturation kinetics for both fructose-6-phosphate (K_m=0.57 m M ) and UDPGlucose (UDPG) (K_m=4.8 m M ). The activity of SPS was inhibited by the product UDP. In vitro this inhibition could be partially overcome by the presence of Mg²⁺. Inorganic orthophosphate was only slightly inhibitory (35% inhibition at 25 m M phosphate). Glucose-6-phosphate (up to 20 m M ) had no effect on activity, and did not show any significant interaction with phosphate inhibition. A range of potential effectors was tested and had no effect on SPS activity: Glucose-1-phosphate, fructose-1, 6-bisphosphate, α-glycero-phosphate, dihydroxyacetone-phosphate, 3-phosphoglyceric acid, (all at 5 m M ), sucrose at 100 m M and pyrophosphate at 0.1 m M . The apparent lack of allosteric regulation of soybean SPS makes this enzyme markedly different from SPS previously characterized from spinach and maize.     

Effects of exogenous application and stem infusion of ascorbate on soybean (Glycine max) root nodules

Numerous biochemical and physiological studies have demonstrated the importance of ascorbate (ASC) as a reducing agent and antioxidant in higher plant metabolism. Of special note is the capacity of ASC to eliminate damaging activated oxygen species (AOS) including O₂^−· and H₂O₂. N₂-fixing legume nodules are especially vulnerable to oxidative damage because they contain large amounts of leghaemoglobin which produces AOS through spontaneous autoxidation; thus, ASC and other components of the ascorbate–reduced glutathione (ASC–GSH) pathway are critical antioxidants in nodules. In order to establish a meaningful correlation between concentrations of ASC and capacity for N₂ fixation in legume root nodules, soybean ( Glycine max ) plants were treated with excess ASC via exogenous irrigation or continuous intravascular infusion through needles inserted directly into plant stems. Treatment with ASC led to striking increases in nitrogenase activity (acetylene reduction), nodule leghaemoglobin content, and activity of ASC peroxidase, a key antioxidant enzyme. The concentration of lipid peroxides, which are indicators of oxidative damage and onset of senescence, was decreased in ASC-treated nodules. These results support the conclusion that ASC is critical for N₂ fixation and that elevated ASC allows nodules to maintain a greater capacity to fix N₂ over longer periods.     

Enzyme activities during imbibition and germination of seeds of tamarack (Larix laricina)

Activities of six enzymes from extracts of separated embryos and gametophytes of tamarack [ Larix laricina (Du Roi) K. Koch] seeds were assayed at various stages of imbibition and germination. On a per seed part basis, activities of 6-phosphogluconate dehydrogenase (6-PGD, EC 1.1.1.44), glucose-6-phosphate dehydrogenase (G-6-PD, EC 1.1.1.49), malate dehydrogenase (NAD⁺–MDH, EC 1.1.1.37), isocitrate dehydrogenase (NADP⁺–IDH, EC 1.1.1.42), soluble peroxidase (PER, EC 1.11.1.7), and acid phosphatase (ACP, EC 3.1.3.2) from both the embryo and gametophyte tissues generally increased slowly, following cold stratification for 30 days and imbibition under germinating conditions for 5 days, but then increased at a faster rate with emergence of the radicle and subsequent growth of the seedling. The rate of increase of enzyme activity was highest for PER. Soluble protein levels also increased with imbibition and germination, with about 3 times greater levels present in the gametophyte than in the embryo. Heat inactivation experiments showed that, except for G-6-PD, activities were stable up to 40°C. Inactivation occurred at lower temperatures for G-6-PD, while higher temperatures were required for PER. Incubation of extracts for 7 days at 4°C indicated that loss of enzyme activity was greatest for G-6-PD (3.9% remaining) and least for PER and ACP (94 and 95% remaining, respectively).     

Polyamine synthesis in plants. Purification and properties of amidinotransferase from soybean (Glycine max) axes

Three-day-old soybean (Glycine max) seedlings were exposed to 0.4 M sorbitol solution for 4 h to induce amidinotransferase activity, with the corresponding enzyme being purified to homogeneity by chromatographic separation on DEAE-Sephacel, Sephacryl S-300 and L-arginine Sepharose 4B. The purified enzyme used L-arginine and L-glycine as the major donor/acceptor of the amidino group, respectively, with formation of guanidinoacetic acid and ornithine products being confirmed by ESI-MS. The enzyme is a tetrameric protein having a molecular mass of 240,000 Da, whose thiol group is needed for enzymatic activity. The K(M)s for arginine and glycine were 3.8 and 0.89 mM, respectively, with optimal temperature and pH being 37 degrees C and 9.5, respectively. The soybean amidinotransferase could be indirectly involved in nitrogen metabolism, as suggested by the observation that arginine:glycine amidinotransferase in soybean axes is indirectly involved in putrescine biosynthesis and displays feedback control at high levels of an endogenous regulator, putrescine.     

Expression of fasciation mutation in apical meristems of soybean, Glycine max (Leguminosae)

The phenotype of the apical meristem was used to examine the effect of fasciation mutation at the f locus in different genetic backgrounds in soybean Glycine max (L.) Merr. Comparisons of meristem development in fasciation mutant and wild type were conducted with scanning electron microscope (SEM) on isogenic lines BARC-11-11-ff and BARC-11-11-FF at postgermination and early vegetative stages. Studies of apical meristems of three independently originated fasciation mutants, PI 83945-4, PI 243541, and T173, were carried out at vegetative and early floral transition stages. Corolla Fasciation, the extreme mutant phenotype, was used for comparison of meristem development. Enlargement of the apical meristem and shortened plastochron were observed in the mutant lines 2 d after germination. Similar to Corolla Fasciation, in PI 83945-4, PI 243541, and T173, enlargement of the apical meristem was followed by growth along one axis at the V3 stage and establishment of a ridge-like meristem at the V4 stage. Influence of pedigree on the expression of the fasciation phenotype was demonstrated by different growth patterns (subangular vs. ridge-like) of the apical meristem in BARC-11-11-ff and PI 243541 with the same f gene. During transition of the apical meristem from vegetative to reproductive stage in all mutant lines further production of leaf primordia ceased. The developmental pattern of the apical meristems suggests that the f locus may have the same allele in fasciation mutants of independent origin in soybean.     

Occurrence of ferredoxin-dependent glutamate synthase in plant cell fraction of soybean root nodules (Glycine max)

Ferredoxin-dependent glutamate synthase (EC 1.4.7.1) and NADH-dependent glutamate synthase (EC 1.4.1.14) have been identified in the plant cells of soybean nodules. Ferredoxin-dependent glutamate synthase is 2-fold more active than NADH-dependent enzyme in vitro. Ferredoxin-dependent glutamate synthase cross-reacts with IgG against ferredoxin-dependent glutamate synthase of rice green leaves, whereas NADH-dependent glutamate synthase does not recognize the IgG, indicating that there are two distinct enzyme proteins. Ferredoxin-dependent glutamate synthase is composed of polypeptide chain(s) of 165 kDa and has a high affinity to spinach leaf ferredoxin as an electron carrier.     

Effects of norflurazon (San 9789) on light-increased extractable nitrate reductase activity in soybean [Glycine max (L.) Merr.]seedlings

Abstract. The effects of norflurazon (San 9789) on light-increased extractable NADH nitrate reductase activity (NRA) in soybean seedlings were studied. Continuous white light (W) increased NRA steadily in root and cotyledonary tissues over a 5 d period. Morflurazon, a pyridazinone herbicide which causes chlorophyll bleaching in W, reduced the initial NRA induction rate in roots and cotyledons. However, in cotyledons of norfiurazon-treated plants NRA increased at a more rapid rate than in the control after 24 h of W, with activity levels reaching three times those of control seedlings after 5 d. NRA induced by W in control and norflurazon-treated cotyledons was fluence-rate dependent. Continuous FR induced equal amounts of NRA in control and norflurazontreated tissues, suggesting that the superinduceable NRA of norflurazon-treated plants under W is not phytochrome induced. The FR-induced NRA of control and norflurazon-treated cotyledons had pH optima of 6.6, but during development under W the pH optimum of control cotyledons changed from 6.3 to between 6.6 and 7.1. The pH optimum of the norflurazon-induced NRA of the cotyledon under W was about 7.5. The NADH/NADPH NRA ratio after 4 d of W was 1.3 in control and 2.5 in norflurazontreated cotyledons. These data indicate that photosynthelic pigments are involved only secondarily in light-induction of NRA in this system.     

Clacium ion involvement in growth inhibition of mechanically stressed soybean (Glycine max) seedlings

A 40–50% reduction in soybean [ Glycine max (L.) Merr. cv. Century 84] hypocotyl elongation occurred 24 h after application of mechanical stress. Exogenous at 10 m M inhibited growth by 28% if applied with the Ca²⁺ ionophore A23187 to the zone of maximum hypocotyl elongation. La³⁺ was even more inhibitory than Ca²⁺, especially above 5 m M . Treatment with ethyleneglycol-bis-(β3-aminoethylether)-N, N, N', N'-tetraacetic acid (EGTA) alone had no effect on growth of non-stressed seedlings at the concentrations used but negated stress-induced growth reduction by 36% at 4 m M when compared to non-treated, stressed controls. Treatment with EDTA was ineffective in negating stress-induced growth inhibition. Calmodulin antagonists calmidazolium, chlorpromazine, and 48/80 also negated stress-induced growth reduction by 23, 50, and 35%, respectively.     

铜、砷及其复合污染对黄豆（Glycine max）影响的初步研究

通过水培实验研究了Cu、As单一及复合污染对黄豆种子萌发、幼苗生长及部分酶活性的影响,结果表明,Cu、As污染明显抑制黄豆种子萌发、幼苗生长,对黄豆种子萌发时的呼吸强度、蛋白酶活性有显著的抑制作用,且随着Cu、As浓度的增加,抑制作用增强,呈负相关;而OD活性则随污染物浓度的增加而增加,呈正相关,Cu、As污染共同存在时,随二者投加比例不同出现不同程度的拮抗效应,可以降低和缓解单一污染物的毒害作用。