Functional Divergence of G and Its Homologous Genes for Green Pigmentation in Soybean Seeds

The degradation of chlorophyll in mature soybean seeds is closely related to the development of their yellow color. In this study, we examined G, its homologue G-like (GL), and their mutant alleles and investigated the relationship between these genes and chlorophyll accumulation in the seed coats of mature seeds. Transient expression of G and GL proteins fused with green fluorescent protein revealed that both were localized in plastids. Overexpression of G resulted in the accumulation of chlorophyll in the seed coats and cotyledons of mature seeds, indicating that high expression levels of G result in chlorophyll accumulation that exceeds its metabolism in the seeds of yellow soybean. Analysis of near isogenic lines at the G locus demonstrated a significant difference in the chlorophyll content of the seed coats and cotyledons of mature seeds when G and mutant g alleles were expressed in the d1d2 stay-green genetic background, indicating that the G protein might repress the SGR-independent degradation of chlorophyll. We examined the distribution of mutant alleles at the G and GL loci among cultivated and wild soybean germplasm. The g allele was widely distributed in cultivated soybean germplasm, except for green seed coat soybean lines, all of which contained the G allele. The gl alleles were much fewer in number than the g alleles and were mainly distributed in the genetic resources of cultivated soybean from Japan. None of the landraces and breeding lines investigated in this study were observed to contain both the g and gl alleles. Therefore, in conclusion, the mutation of the G locus alone is essential for establishing yellow soybeans, which are major current soybean breeding lines.

Potential neuroprotective of trans-resveratrol a promising agent tempeh and soybean seed coats-derived against beta-amyloid neurotoxicity on primary culture of nerve cells induced by 2-methoxyethanol

Resveratrol, a natural polyphenol found in tempeh, has not been investigated especially in vitro as a neuroprotective agent against 2-methoxyethanol (2-ME)-induced beta-amyloid cytotoxicity. Beta amyloid peptides (Aβ) could initiate neurotoxic events and neuron-inflammatory response via microglial activation. However, it remains unknown whether the neurotoxic effect of beta-amyloid and/or associated with the potential of 2-ME to induce neurotoxic effects on primary culture of nerve cells induced by 2-ME. This study investigated potential neuroprotective of trans-resveratrol a promising agent tempeh and soybean seed coats-derived against beta-amyloid cytotoxicity on primary culture of nerve cells induced by 2-methoxyethanol. Biotium and MTT assays were used to analyze neurons, which were isolated from the cerebral cortex of fetal mice at gestation day 19 (GD-19). A standard solution of 2-methoxyethanol was dosed at 10 μL. The cultured cells were randomly divided into the following groups: (1) 2-ME group + resveratrol standard, (2) 2-ME group + resveratrol isolated from tempeh, (3) 2-ME group + resveratrol isolated from soybean seed coats, and (4) the control group, without the addition of either 2-ME or resveratrol. Exposure of the primary cortical neuron cells to beta-amyloid monoclonal antibody pre-incubated for 24 h with 10 µL of 4.2 µg/mL resveratrol and 7.5 mmol/l 2-methoxy-ethanol additions. Here, we report that the addition of 2-ME and resveratrol (standard and isolated from tempeh) of cell culture at concentrations of 1.4, 2.8 and 4.2 µg/mL showed that the majority of neurons grew well. In contrast, after exposure to 2-ME and Beta-amyloid, showed that glial activated. These findings demonstrate a role for resveratrol in neuroprotective-neurorescuing action.

Quantitative analysis of resveratrol derivatives in seed coats of tree peonies and their hypoglycemic activities in vitro/vivo

The tree peonies were well-known horticultural and medicinal plants. The tree peony seeds, as emerging woody oil crops, recently have been attracted great attention for their metabolites and bioactivities. In...

Integrated Metabolomic and Transcriptomic Analysis of the Anthocyanin and Proanthocyanin Regulatory Networks in Red Walnut Natural Hybrid Progeny Leaves

BackgroundWalnuts are one of the most important dry fruit crops worldwide, typically exhibiting green leaves and yellow–brown or gray–yellow seed coats. A specific walnut type, red walnut ‘RW-1’, with red leaves and seed coats was selected as the plant material because of its higher anthocyanin and proanthocyanin (PA) contents. Anthocyanins and PAs coprise important secondary defense methods for plants to respond to biotic and abiotic stresses. However, few studies have focused on the molecular mechanism of anthocyanin biosynthesis in walnuts.ResultsFrom the results of widely targeted metabolome and anthocyanidin detection analysis, 395 substances, including 4 PAs and 26 anthocyanins, were identified from the red-leaf walnuts of RW-1 natural hybrid progenies (SR) and the green-leaf walnuts of RW-1 natural hybrid progenies (SG). Among these, all anthocyanin types in SR were significantly upregulated compared with SG. Additionally, delphinidin 3-O-galactoside, cyanidin 3-O-galactoside, delphinidin 3-O-glucoside and cyanidin 3-O-glucoside were identified as the primary components of anthocyanidins because of their higher contents. Nine anthocyanidins, malvidin 3-O-galactoside, malvidin 3-O-arabinoside, cyanidin 3-O-(6-O-malonyl-beta-D-glucoside), delphinidin 3-O-glucoside, delphinidin 3,5-O-diglucoside (Delphin), peonidin 3-O-(6-O-malonyl-beta-D-glucoside), petunidin 3-O-(6-O-malonyl-beta-D-glucoside), petunidin 3-O-arabinoside and pelargonidin 3-O-(6-O-malonyl-beta-D-glucoside), were detected only in the SR walnuts. For PAs, proanthocyanin C1 was upregulated in SR compared with SG, while proanthocyanin B1 and proanthocyanin B3 were upregulated in SR-1 and SR-3 but downregulated in SR-2 compared with the controls. Furthermore, transcriptome analysis demonstrated that the expression of structural genes (C4H, F3H, F3’5’H, UFGTs, LAR and ANR), four MYBs and six WD40s in the anthocyanin and PA biosynthetic pathways were significantly higher in the SR walnut.ConclusionsOur results provide valuable information on anthocyanin and PA metabolites and candidate genes in anthocyanin and PA biosynthesis, which provides new insights into anthocyanin and PA biosynthesis in walnuts.

Seed-coat thickness explains contrasting germination responses to smoke and heat by Leucadendron species

Fire stimulates germination of most seeds in fire-prone vegetation. Fruits of Leucadendron (Proteaceae) are winged achenes or nutlets that correlate with their requirements for smoke and/or heat in promoting germination. We describe five possible smoke–heat dormancy-release/germination syndromes among plants, of which Leucadendron displays three (no response, smoke only, smoke and heat). As seed-coat thickness varies with seed-storage location (plant or soil) and morphology (winged or wingless), we tested its possible role in water uptake and germination. Species with winged seeds achieved 100% germination in the absence of smoke/heat, seed coats were an order of magnitude thinner, and their permeability greatly exceeded that of nutlets. As seed-coat thickness increased a) imbibitional water uptake declined at a decreasing rate, and b) the response to smoke, and to a lesser extent heat, increased linearly to reach levels of germination approaching those of winged seeds. For species responsive to smoke and heat, there was no additive effect when applied together, suggesting that they may have promoted the same physiological process. By what mechanisms a) the smoke response is greater the thicker the seed coat, and b) smoke chemicals could increase water permeability to explain the non-additive effect of smoke and heat, warrant further investigation.

Peanut Seed Coat Acts as a Physical and Biochemical Barrier against Aspergillus flavus Infection

Aflatoxin contamination is a global menace that adversely affects food crops and human health. Peanut seed coat is the outer layer protecting the cotyledon both at pre- and post-harvest stages from biotic and abiotic stresses. The aim of the present study is to investigate the role of seed coat against A. flavus infection. In-vitro seed colonization (IVSC) with and without seed coat showed that the seed coat acts as a physical barrier, and the developmental series of peanut seed coat showed the formation of a robust multilayered protective seed coat. Radial growth bioassay revealed that both insoluble and soluble seed coat extracts from 55-437 line (resistant) showed higher A. flavus inhibition compared to TMV-2 line (susceptible). Further analysis of seed coat biochemicals showed that hydroxycinnamic and hydroxybenzoic acid derivatives are the predominant phenolic compounds, and addition of these compounds to the media inhibited A. flavus growth. Gene expression analysis showed that genes involved in lignin monomer, proanthocyanidin, and flavonoid biosynthesis are highly abundant in 55-437 compared to TMV-2 seed coats. Overall, the present study showed that the seed coat acts as a physical and biochemical barrier against A. flavus infection and its potential use in mitigating the aflatoxin contamination.

Capacité germinative des graines et aptitude au bouturage des tiges, des racines tubéreuses de l’espèce Ampelocissus multistriata(Baker) Planch.

Cette étude s’inscrit dans le contexte de la valorisation des espèces végétales spontanées ayant des valeurs nutritives et économiques afin de contribuer à leur domestication. Cette étude a consisté à tester les capacités germinatives des graines de l’Ampelocissus multistriata par les procédés physiques, chimiques et mécaniques d’une part et tester l’aptitude au bouturage des tiges feuillées, des tiges feuillées avec des racines tubéreuses d’autre part. Pour cela, une surface de 400 m2 a été délimitée au sein de la Faculté des Sciences Exactes et Appliquées de l’Université de N’Djamena pour les deux tests. Par ailleurs, les procédés physiques, chimiques et mécaniques ont été menés à l’Université de Ouagadougou. Les résultats obtenus, ont montré que les tiges feuillées n’ont pas bouturé. Par contre, les tiges feuillées munies des racines tubéreuses ont bouturé à 73,23 %. En ce qui concerne la germination des graines, tous les procédés des traitements physiques, chimiques et mécaniques n’ont pas pu lever la dormance de ces graines. Leurs téguments, très durs, n’ont pas été scarifiés et cela n’a pas permis à l’eau et l’oxygène d’y entrer pour que les graines puissent germer. Seules, les graines ayant séjourné dans le tube digestif des animaux et qui ont été scarifiées par les enzymes intestinales et les sucs digestifs ont toutes germé. Il s’agit d’une endozoochorie. La connaissance des modalités de la propagation par les graines ou par les boutures peut apporter une importante contribution à la conservation de la diversité végétale, à la domestication et à la valorisation de cette plante. English title: Germinative capacity of seeds and aptitude for cutting of stems, tuberous roots of the species Ampelocissus multistriata (Baker) Planch This study is part of the context of valuing spontaneous plant species with nutritional and economic values in order to contribute to their domestication. This study consisted in testing the germination capacities of the seeds of Ampelocissus multistriata by physical, chemical and mechanical methods on the one hand and testing the aptitude for cuttings of leafy stems, leafy stems with tuberous roots on the other hand. For this, an area of 400 m2 has been defined within the Faculty of Exact and Applied Sciences of the University of N’Djamena for the two tests. In addition, the physical, chemical and mechanical processes were carried out at the University of Ouagadougou. The results obtained showed that the leafy stems did not cuttings. In contrast, the leafy stems with tuberous roots cut at 73.23%. Regarding seed germination, not all physical, chemical and mechanical treatment processes were able to break the dormancy of these seeds. Their very hard seed coats were not scarified, and this did not allow water and oxygen to enter them for the seeds to germinate. Only the seeds which have stayed in the digestive tract of animals and which have been scarified by intestinal enzymes and digestive juices have all germinated. It is an endozoochory. Knowing the methods of propagation by seeds or cuttings can make an important contribution to the conservation of plant diversity, to the domestication and enhancement of this plant.

Integrated metabolomic and transcriptomic analysis of the anthocyanin regulatory networks in red walnut

Background Walnut is one of the most important dry fruit crops worldwide, typically green leaves and yellow-brown or gray-yellow seed coats. A specific walnut type, red walnut ‘RW-1’ with red leaves and seed coats was selected as plant material because of higher anthocyanins contents. Anthocyanins are important colorants with strong antioxidant activity, especially, benefic for human health. However, few studies focused on the molecular mechanism of anthocyanin biosynthesis in walnut. Results From the results of Widely Targeted Metabolome and anthocyanidin detection analysis, 395 substances, including 4 procyanidins and 26 anthocyanins, were identified from the red-leaf walnuts of RW-1 natural hybrid progenies (SR) and the green-leaf walnuts of RW-1 natural hybrid progenies (SG). Among these, all the anthocyanins in SR were significantly up-accumulated comparing with SG. Also, delphinidin 3-O-galactoside, cyanidin 3-O-galactoside, delphinidin 3-O-glucoside and cyanidin 3-O-glucoside were identified to the primary components of anthocyanidins because of the higher contents. It was noted that 9 anthocyanins including malvidin 3-O-galactoside, malvidin 3-O-arabinoside, cyanidin 3-O-(6-O-malonyl-beta-D-glucoside), delphinidin 3-O-glucoside, delphinidin 3,5-O-diglucoside (Delphin), peonidin 3-O-(6-O-malonyl-beta-D-glucoside), petunidin 3-O-(6-O-malonyl-beta-D-glucoside), petunidin 3-O-arabinoside and pelargonidin 3-O-(6-O-malonyl-beta-D-glucoside) were detected only in SR walnut. Furthermore, transcriptome analysis demonstrated that the expression of structural genes (C4H, F3H, F3’5’H and UFGTs), and four MYBs in anthocyanin biosynthetic pathway were significantly higher in SR walnut. Conclusions We identified the color formation of SR leaves is due to the accumulation of anthocyanins. And our results obtained the valuable information on the anthocyanin metabolites and candidate genes in anthocyanin biosynthesis, which provided new insights into the anthocyanin biosynthesis in walnuts.

How the seed coat affects the mother’s oviposition preference and larval performance in the bean beetle (Acanthoscelides obtectus, Coleoptera: Chrysomelidae, Bruchinae) in leguminous species

Background The host specificity and host range of the dry bean beetle, Acanthoscelides obtectus (Coleoptera: Chrysomelidae, Bruchinae), a seed predator of beans, is poorly known. In addition, the female oviposition preference and larval performance relationship is complicated by the respective importance of seed coat and cotyledon, because, paradoxically, females lay eggs on the basis of stimuli of the seed coat alone, without directly being able to assess the quality of the cotyledon’s suitability for larval development. Conversely, the thickness of seed coat may prevent first instar larvae from entering the seeds, even if cotyledons are suitable for development. Methods The seeds of 62 leguminous species and 75 cultivars and accessions occurring in Hungary were evaluated for preference-performance relations. The preference of female bean beetles for seeds was measured in no-choice egg-laying tests. The ability of first instar larvae to overcome the seed coat as a physical barrier was tested with intact seed coat, while pre-drilled seed coats allowed the larvae to assess the suitability of cotyledon for development. The number of emerging adults was recorded. The thickness of seed coats and the weight of seeds were measured. Nonparametric tests and logistic regression were used for the statistical analyses of data and effect sizes were also calculated. Results Seeds of 18 leguminous species (35% of them Lathyrus) supported larval development to adults if the seed coat was pre-drilled; however, only nine leguminous species supported development to adults if the seed coat was intact. Seed coat thickness beyond a critical threshold of 0.1 mm strongly influenced survival of first instar larvae. There was no overall positive correlation between oviposition preference and larval performance, except for 16 so-called acceptable non-hosts (Kendall’s τ = 0.3088). A. obtectus females also showed an ovipositional hierarchy of legume species even in no-choice tests. Conclusions The results suggest that whereas the use of some acceptable non-host species by the A. obtectus is possible in seed stores, the same is unlikely under outdoor conditions, where the recognition of a diverse set of seed pod-related compounds would be necessary to induce egg-laying.