Identification of an ATP-Binding Cassette Transporter Implicated in Aluminum Tolerance in Wild Soybean (Glycine soja)

The toxicity of aluminum (Al) in acidic soil limits global crop yield. The ATP-binding cassette (ABC) transporter-like gene superfamily has functions and structures related to transportation, so it responds to aluminum stress in plants. In this study, one half-size ABC transporter gene was isolated from wild soybeans (Glycine soja) and designated GsABCI1. By real-time qPCR, GsABCI1 was identified as not specifically expressed in tissues. Phenotype identification of the overexpressed transgenic lines showed increased tolerance to aluminum. Furthermore, GsABCI1 transgenic plants exhibited some resistance to aluminum treatment by ion translocation or changing root components. This work on the GsABCI1 identified the molecular function, which provided useful information for understanding the gene function of the ABC family and the development of new aluminum-tolerant soybean germplasm.

Herbal Products Used in Menopause and for Gynecological Disorders

Herbal products are often used as an alternative to pharmacological therapy. Menopausal symptoms and gynecological disorders (such as premenstrual syndrome and dysmenorrhea) are the indications where pharmacological therapy may have serious adverse events, hence many women prefer to use herbal products to help with these symptoms. Here, we reviewed plants and derived products, which are commonly used for the abovementioned indications, focusing on clinical data, safely profile and whether or not their use is justified. We noted that limited data are available on the use of some plants for alleviating the symptoms of menopause and gynecological disorders. While black cohosh (Cimicifuga racemose) and red clover (Trifolium pretense) were consistently shown to help reduce menopausal symptoms in clinical studies, currently available data do not fully support the use of fenugreek (Trigonella foenum-graecum), hops (Humulus lupulus), valerian (Valeriana officinalis), and soybean (Glycine max and Glycine soja) for this indication. For premenstrual syndrome and premenstrual dysphoric disorder, chaste tree (Vitex agnus-castus) shows effectiveness, but more clinical studies are needed to confirm such effect upon the use of evening primrose (Oenothera biennis).

Identification of a Novel Salt Tolerance-Related Locus in Wild Soybean (Glycine soja Sieb. & Zucc.)

Salinity is an important abiotic stress factor that affects growth and yield of soybean. NY36-87 is a wild soybean germplasm with high salt tolerance. In this study, two F2:3 mapping populations derived from NY36-87 and two salt-sensitive soybean cultivars, Zhonghuang39 and Peking, were used to map salt tolerance-related genes. The two populations segregated as 1 (tolerant):2 (heterozygous):1 (sensitive), indicating a Mendelian segregation model. Using simple sequence repeat (SSR) markers together with the bulked segregant analysis (BSA) mapping strategy, we mapped a salt tolerance locus on chromosome 03 in F2:3 population Zhonghuang39×NY36-87 to a 98-kb interval, in which the known gene GmSALT3 co-segregated with the salt tolerance locus. In the F2:3 population of Peking×NY36-87, the dominant salt tolerance-associated gene was detected and mapped on chromosome 18. We named this gene GmSALT18 and fine mapped it to a 241-kb region. Time course analysis and a grafting experiment confirmed that Peking accumulated more Na+ in the shoot via a root-based mechanism. These findings reveal that the tolerant wild soybean line NY36-87 contains salt tolerance-related genes GmSALT3 and GmSALT18, providing genetic material and a novel locus for breeding salt-tolerant soybean.

Identification and Molecular Mapping of a Major Quantitative Trait Locus Underlying Branch Angle in Soybean

Soybean branch angle is a critical architectural trait that affects many other traits of agronomic importance associated with the plant’s productivity and grain yield, and is thus a vital consideration in soybean breeding. However, the genetic basis for modulating this important trait in soybean and many other crops remain unknown. Previously, we developed a recombinant inbred line (RIL) population derived from a cross between a domesticated soybean (Glycine max) variety, Williams 82, and a wild soybean (Glycine soja) accession, PI 479752, and observed drastic variation in plant architecture including branch angle among individual RILs. In this study, one of the RILs possessing extremely wide branch angle (WBA) was crossed with an elite soybean cultivar (LD00-3309) possessing narrow branch angle (NBA) to produce an F2 population composed of 147 plants and F2-derived F3 families for inheritance analysis and QTL mapping. We found that branch angle is controlled by a major QTL located on chromosome 19, designated qGmBa1, and that WBA – derived from the wild soybean accession – is dominant over NBA. This locus was also detected as a major one underlying branch angle by QTL mapping using a subset of the soybean nested association mapping (SoyNAM) population composed of 140 RILs, which were derived from a cross between a landrace, PI 437169B, possessing WBA and an elite variety, IA3023, possessing NBA. Molecular markers located in the QTL region defined by both mapping populations can be used for marker-assisted selection of branch angle in soybean breeding.

Metabolomic Variability of Different Soybean Genotypes: β-Carotene-Enhanced (Glycine max), Wild (Glycine soja), and Hybrid (Glycine max × Glycine soja) Soybeans

We obtained a new hybrid soybean (Hybrid) by hybridizing β-carotene-enhanced soybean (BCE; Glycine max L.) containing the phytoene synthase-2A-carotene desaturase gene and wild-type soybean (Wild; Glycine soja). To investigate metabolic changes between variants, we performed metabolic profiling of leaves (three growth stages) and seeds. Multivariate analyses revealed significant metabolic differences between genotypes in seeds and leaves, with seeds showing accumulation of phytosterols, tocopherols, and carotenoids (BCE only), indicating co-induction of the methylerythritol 4-phosphate and mevalonic acid pathways. Additionally, Hybrid produced intermediate levels of carotenoids and high levels of amino acids. Principal component analysis revealed metabolic discrimination between growth stages of soybean leaves and identified differences in leaf groups according to different genotypes at 8, 12, and 16 weeks, with Wild showing higher levels of environmental stress-related compounds relative to BCE and Hybrid leaves. The metabolic profiling approach could be a useful tool to identify metabolic links in various soybean cultivars.

Potensi Formulasi Self Microemulsifying Drug Delivery System (SMEDDS) Ekstrak Biji Kedelai (Glycine soja) Terhadap Penurunan Kolesterol pada Penyakit Jantung Koroner

Background: Coronary heart diseases (CHD) is a disorder that caused by blockage of coronary arteries due to the process of atherosclerosis which disrupts the blood supply to the heart muscle. According to Sample Registration System (SRS) Indonesia in 2014, CHD is a second highest cause of death after stroke that is 12,9% of all cause of death in Indonesia. Therefore, this study aims to examining the effect of soybean extract encapsulated with Self Microemulsifying Drug Delivery System (SMEDDS) on LDL levels in coronary heart model rats. Based on various study, isoflavone aglycone genistein is the main flavonoid in soybean seed that has potential as an antioxidant. To increase bioavailability of aglycone isoflavones, a SMEDDS is needed. In this regard, the purpose of this reseach is to examine the potential of soybean seed (Glycine soja) extract to reduced cholesterol in CHD.Methods: The method used is a literature review with literature sources in the form of relevant articles from the search engines, namely Google Scholar, Pubmed, ScienceDirect, and Research Gate. Inclusion criteria included journals containing the keywords “soybean (Glycine soja)”, “Coronary Heart Disease”, “SMEDDS”, and “genistein isoflavone aglycone”.Result: Isoflavone aglycone as an potential antioxidant that is able to bind free radicals and and also lowering LDL, Triglycerides, and glucose levels in hyperglycemic states and increasing HDL.Conclusion : Soybean seed extract with SMEDDS encapsulation have a potential to decrease LDL level in coronary heart disease.

Pelatihan Pembuatan Yoghurt berbahan Dasar Susu Kedelai (Glycine soja) dalam Meningkatkan Motivasi Berwirausaha

Masalah mitra adalah kelompok ibu-ibu PKK dengan pendapatan rendah, tidak mengetahui pembuatan produk yogurt dan tidak mengetahui pemasaran produk. Dari masalah ini para mitra sepakat untuk belajar bagaimana membuat yogurt yang terbuat dari susu kedelai (Glycine soja) yang dapat diproduksi dengan nilai ekonomis dan membuat keluarga sehat.Tujuan dari kegiatan pelatihan dan pendampingan yogurt adalah bentuk kegiatan pelayanan masyarakat dan bermitra dengan ibu-ibu PKK di Desa Loji, Kecamatan Bogor Barat, Kota Bogor. Metode pelaksanaan yang dilakukan adalah 1. memberikan pelatihan tentang pembuatan yogurt yang terbuat dari susu kedelai, 2. pelatihan dan membantu dalam pembuatan kemasan dan pemasaran. Hasil dari kegiatan ini adalah meningkatkan pengetahuan, keterampilan mitra, dan produk yogurt berbasis susu kedelai berlabel.

Soybean cyst nematode resistance QTL cqSCN-006 alters the expression of a ɣ-SNAP protein

Soybean cyst nematode is the most economically damaging pathogen of soybean and host resistance is a core management strategy. The SCN resistance QTL cqSCN-006, introgressed from the wild relative Glycine soja, provides intermediate resistance against nematode populations including those with increased virulence on the heavily used rhg1-b resistance locus. cqSCN-006 was previously fine-mapped to a genome interval on chromosome 15. The present study determined that Glyma.15G191200 at cqSCN-006, encoding a ɣ-SNAP (gamma-SNAP), contributes to SCN resistance. CRISPR/Cas9-mediated disruption of the cqSCN-006 allele reduced SCN resistance in transgenic roots. There are no encoded amino acid polymorphisms between resistant and susceptible alleles. However, other cqSCN-006-specific DNA polymorphisms in the Glyma.15G191200 promoter and gene body were identified, and we observed differing induction of ɣ-SNAP protein abundance at SCN infection sites between resistant and susceptible roots. We identified alternative RNA splice forms transcribed from the Glyma.15G191200 ɣ-SNAP gene and observed differential expression of the splice forms two days after SCN infection. Heterologous overexpression of ɣ-SNAPs in plant leaves caused moderate necrosis, suggesting that careful regulation of this protein is required for cellular homeostasis. Apparently, certain G. soja evolved quantitative SCN resistance through altered regulation of ɣ-SNAP. Previous work has demonstrated SCN resistance impacts of the soybean α-SNAP proteins encoded by Glyma.18G022500 (Rhg1) and Glyma.11G234500. The present study shows that a different type of SNAP protein can also impact SCN resistance. Little is known about ɣ-SNAPs in any system, but the present work suggests a role for ɣ-SNAPs during susceptible responses to cyst nematodes.