The Riptortus-Burkholderia symbiosis is a newly emerging insect-bacterium symbiotic system. This symbiosis system has a good merit as an experimental model system to produce the non-symbiotic (apo) and symbiotic (sym) host insect. In recent reported papers, the symbionts play important biological roles for the host insects. Meanwhile, juvenile hormone (JH) is one of major hormone synthesized
corpora allata(CA) to control many physiology of insect. However, the study for cross-talk mechanism between symbionts and host hormones to control important physiological phenomenon of insects is almost none.
In this study, we found that Riptortus speed up adult emerging and increase egg laying on presence of symbiont Burkholderia. Also we found that hexamerin proteins, which were controlled the expression by JH, were accumulated in sym-Riptortus hemolymph compare with apo-Riptortus. According as combined results, we hypothesized that the gut symbiont Burkholderia can control JH titer to conclude out beneficial effects such as development and reproduction of R. pedestris.
To verify this hypothesis, we examined measurement of JH titer, expression of hexamerins as JH response genes and RNAi for hexamerin protein during whole Riptortus life on presence or absence of symbiont Burkholderia.
All results demonstrated that gut symbiont controlled JH titer of Riptortus. Controlled JH amount by symbiont Burkholderia in host midgut regulated hexamerin protein expression for speeding up adult emerging and increasing egg production.
Background: For stable induction of tetraploidy in Fallopia multiflora Haraldson, colchicine was treated to establish the condition of induction and investigated the morphological and cytogenetic traits of the tetraploid plants obtained compared to those of diploid ones.
Methods and Results: For the induction of tetraploidy, F. multiflora plants were soaked in aqueous solutions of colchicine at various concentration (0.1, 0.5, and 1.0%). After this, 2% dimethyl sulfoxide (DMSO) was added at room temperature on a shaker set at 150 rpm for periods of 12, 24, and 48 h. The induction rate of tetraploids appeared to be the highest in plants treated with 0.5% colchicine for 24 h. As the colchicine concentration and soaking time increased above these levels, the growing tip of the roots did not develop and they began to rot. When compared to diploid plants, tetraploids differed greatly in various characteristics, including the sizes and shapes of the leaves, fruits, flowers and roots. The induced tetraploid F. multiflora had larger guard cells, and chloroplasts, increased number of chloroplast in the guard cells and decreased stomatal densities.
Conclusions: When colchicine induced plants for tetraploid, it can be distinguished from diploids, in various characteristics such as morphological changes as stomatal size, number of chloroplasts per guard cell, number of chromosomes and flow cytometry. Therefore, it proved that these methods are suitable, quick and easy methods for the identification of the ploidy level of F. multiflora.
Background : This study was performed to investigate the morphological and growth characteristics and metabolomics approach for the diploid and tetraploid Polygonum multiflorum Thunb (PMT).
Methods and Results : The present study was performed to investigate the effective induction method of tetraploid plants using colchicine treatment. To know the morphological and growth characteristics of PMT overground growing was investigated about the stem diameter, leaf length and width, a scape, inflorescence length, chlorophyll, seed length and seed width. Metabolite profiles from P. multiflorum were analyzed by an ultra performance liquid chromatography–quadrupole - time of flight (UPLC-Q-TOF) mass spectrometry (MS). The number of stomata and chlorophyll content was also higher in tetraploid. However, the physiological and morphological characteristics of the newly developed tetraploid showed noticeable results compared to the diploid plant. Also, the inherent characteristics of a newly acquired tetraploid also exhibited better results compared to diploid. Twenty one compounds including catechins from leaf and thirty compounds including stilbenes from roots were identified as major metabolites of PMT. The levels of most root metabolites except dethiobiotin, epigallocatechin gallate, procyanidin B1, epiafzelechin 3-O-gallate, and moupinamide from PMT were higher than those of diploid. The levels of 2,3-digalloylglucose, fallacinol, tricin, physcion-8-O-β-D-glucoside, torachrysone-8-O-β-D-glucopyranoside, questin, aloe-emodin 8-O-(6′-O-acetyl)-glucoside, polydatin, 2,5-dimethyl-7-hydroxychromone, 3,5,4'-trihydroxystilbene, aloe-emodin, myrciacitrin II and ω-hydroxyemodin from teraploid PMT were 342, 32, 31, 21, 11, 11, 9, 8, 6, 5, 4, and 2 times, respectively, higher.
Conclusion : From above results, overground growing of tetraploid P. multiflorum is fairly better than that of native P. multiflorum.
Platycodon grandiflorum (Bell flower) is an important plant that has traditionally been used as herbal medicine for the treatment of cough, phlegm, sore throats, lung abscesses, chest pains, dysuria, and dysentery. The present study was initiated to investigate the feasibility of inducing shoot and root organogenesis in cultured explants of P. grandiflorum in a range of culture media and through use of various plant growth regulators (PGRs). The plantlets (Stem containing one node) were isolated and cultured on different concentrations of Murashige and Skoog (MS) medium supplemented with PGRs. We found that proliferation and elongation of shoots and roots could be achieved on ¼ MS for P. grandiflorum with wild and green petals and on ⅛ MS for P. grandiflorum with double petals. The highest levels of development and elongation of adventitious shoots and roots were observed when petal explants were cultured on ¼ MS (pH 3.8) supplemented with 5% sucrose. Increasing the agar concentration reduced shoot growth and rooting potential; nevertheless, the highest number of shoots and roots was observed on 0.6% agar. In the case of growth regulators, ¼ MS supplemented with 1 mg L-1 6-benzylaminopurine (BA) was found to be best for shooting, although higher concentrations of BA tended to reduce shoot and root elongation. The highest number of shoots was achieved on 0.5 mg ․ L-1 thidiazuron (TDZ) from double petal explants grown on ⅛ MS. However, root and shoot elongation were found to decrease when TDZ concentrations were increased. Low concentrations of kinetin, naphthalene acetic acid, indole acetic acid, and 3-indole butyric acid induced shoot and root proliferation and elongation. Taken together, our study showed that low concentrations of PGRs induced the greatest root formation and elongation, showing that the optimal concentration of PGRs for shoot proliferation was species-dependent.
Background : This experiment was conducted to select suitable industrial crop after Panax ginseng cultivation under the greenhouse in the middle area. Methods and Results : This experiment was conducted in greenhouse of Chungbuk Agricultural Research Service and extension services from 2015 and 2016 years. Ginseng grown four years in greenhouse. After cropping of Panax ginseng was transplanted Cynanchum wilfordii, Platycodon grandiflorm, Dioscorea opposita, and Codonopsis lanceolata. Non-cultivated field that were grown sesame. Cynanchum wilfordii, Platycodon grandiflorm, and Codonopsis lanceolata was collected in the Chungbuk area and Dioscorea opposita was collected in Andong-si. Each industrial crop after panax ginseng cultivation under the greenhouse was sowing from late April to early May 2015 years. The growth and yield of crop examined in the experiment were good on the whole except Codonopsis lanceolata without disease due to continuous cropping of Panax ginseng. The yield of Cynanchum wilfordii, Platycodon grandiflorm, Dioscorea opposita, and Codonopsis lanceolata was 803kg, 1,393kg, 1031kg, 412kg per 10a respectively, and the every decline yield index was by 1%, 8%, 12%, and 31% respectively. The proper crop in after cropping of Panax ginseng was cynanchum wilfordii, which was yielded 1,393kg per 10a by fresh tuber and it was 1% decline compared to the non-cultivated field. Conclusion : In this study, Cynanchum wilfordii, Platycodon grandiflorm, Dioscorea opposita was recommended as a crop after Panax ginseng cultivation under the greenhouse in the middle area.
Background : This study was performed to investigate the morphological and growth characteristics of tetraploid Polygonum multiflorum L. with colchicine treatment, and to clarify its effective induction and time for the increase of rhizome hypertrophy and effective components. Methods and Results : The induction of tetraploid P. multiflorum were done with colchicine treatment of 0.1, 0.5, and 1.0% conc. and the time was treated with 12, 24, and 48 hrs, respectively. DMSO 1% is treated for the effective penetration of colchicine with constant-temperature oven at 24C. Leaf explant was added the HR-A solution stained with HR-B solution, and then determined whether DNA contents of the doubles or not. Seed stand rate showed lower tendency as higher treatment concentration and as delayed the treatment time. When treated in DMSO 1% with 48 hr, seed stand was so small rate with 2%, and treated in 0.5% with 12 hr, seed stand was recorded higher rate with 33%. When treated in 0.5% colchicine with 24 hr, chimera and tetraploid induction rates were highest and obtained 29 individual chimera and 5 individual tetraploid. On overground growing, mean stem diameter of tetraploid (11.3 ㎜) is two times thicker than that of diploid (6.4 ㎜), with the vigorous growth. leaf length and width of tetraploid was 9.1 and 6.2 ㎝, respectively, and that of diploid was 6.8, and 5.1 ㎝, respectively. Stem diameter of a scape was also more thicker tendency in tetraploid than in diploid, chlorophyll contents over 29% existed in tetraploid. Investigated result from stoma no. and size of leaf with 400 magnification, stoma no. of diploid (26 individual) was four times higher than that of tetraploid (7 individuals), the size of tetraploid (38 ㎛) is twice longer in size of diploid (18 ㎛) and stoma area are broaden in four times. Seed length of tetraploid (3 ㎜) is longer than that of diploid (22 ㎜); but, seed width of tetraploid (22 ㎜) is widen than that of diploid (14 ㎜) in seed size comparison. That is, seed length is bigger in 1.4 times and seed width is bigger in 1.6 times, and seed surface area is broaden in two times. Conclusion : From above results, overground growing of tetraploid P. multiflorum is fairly better than that of native P. multiflorum. In the future, this tetraploid variety will promote to register when recognize the excellence than native species after tested the disease tolerance, underground growing characteristics, and key index component.
This study was performed to investigate the growth characteristics and inorganic components of Codonopsis lanceolata regarding regional differences. The plant height of Japanese Codonopsis lanceolata was 373.6 cm, so it’s revealed that it has more vigorous growth than Korean won. The flowering time of Korean Codonopsis lanceolata was 2 weeks faster than Japanese one. Total fresh weight of root was 41.0 g and 39.0 g for Korean and Japanese respectively, thus, no significance difference was found. However, regarding fresh weight, Korean one had a more fresh weight (35.4 g) of main root parts, but Japanese one had a more fresh weight (9.6 g) of the lateral root part. Each inorganic component was found more in the aboveground parts, regardless of the region and the content of K was the largest. Regarding the content of macroelements for each part of Codonopsis lanceolata, the content of Na, Mg, P, S, and Ca in Korean Codonopsis lanceolata was found the highest on the leaf, followed by stem and root. In the case of Japanese Codonopsis lanceolata, same result was found on the content of Mg and Ca, however, the highest content of Na and P was found in the stem.
This study was conducted to compare the growth, inorganic components, and proximate components of Codonopsis lanceolata grown in 10 regions of Korea for selecting superior species and breeding by crossing. Among the all tested lines, the shortest plant height (217.12 cm) was observed from the Ulleungdo region line (No. 4) while the longest (273.9 cm) was observed from Hwasun region line (No. 9). In addition, the lines of central and northern region (No. 1~No. 7) tend to have shorter plant height than those of southern region (No. 8~No. 9) except Jejudo region line (No. 10). Flowering tends to be late towards southern region, and lines in central and northern regions were started flowering about 2 weeks earlier than those in southern regions. However, the heaviest root weight was 13.1 g, found in only Jejudo line (No. 10) whereas there was no significant difference found in the other regions which have a range of 8.3~11.0 g. The inorganic components were varied in each line, however, proportion of macroelements, such as K, Ca, and P, was the largest for every line. Especially for Heongseong region line (No. 2), had larger proportion of macroelements than the others. There was a difference of proximate compositions of Codonopsis lanceolata, except the moisture content, among all regions, however, it was generally shown that the content of crude protein (1.31~3.76%) and crude fiber (2.18~3.12%) was the highest.
Soybean seed is a good source of plant protein in human consumables such as baby formula and protein concentrate. The seeds contain an abundance of storage proteins, namely β-conglycin and glycinin that account for ~ 70-80% of the total seed protein content. Proteome profiling has been proved to be an efficient way that can help us to investigate the seed storage proteins. In the present study, the seeds were removed from the pods and the cotylendonary tissues were separated from the testa for proteome analysis in order to investigate the seed storage proteins. A systematic proteome profiling was conducted through one-dimensional gel electrophoresis followed by MALDI-TOF-TOF mass spectrometry in the seeds (cotyledonary tissue) of soybean genotypes. Two dimensional gels stained with CBB, a total of 10 proteins were identified and analyzed using MASCOT search engine according to the similarity of sequences with previously characterized proteins along with the UniProt database. A total of ten proteins such as glycinin Gy4 precursor, glycinin G3 precursor, glycinin G1 precursor, glycinin chain A2B1a precursor, glycinin chain A2B1a precursor were identified in our investigation. However, the glycinin subunit may be considered to play important roles in soybean breeding and biochemical characterization. In addition, the improved technique will be useful to dissect the genetic control of glycinin expression in soybean.
The aim of this study was to select the abiotic tolerant sorghum mutants using chlorophyll a transient OJIP analysis of PSⅠ and PSⅡ so called Kautsky’s effect within 1 second. It was clearly identified that wwt-and drought tolerant sorghum mutants could be classified by wet factor index(WFI). On the basis of WFI, wet tolerant sorghum matants were classified as follows; Ⅰ group, MUT534 bmr/new, MUT525 bmr; Ⅱ group, M2P1207 bmr, 25M2-0404 bmr, MUT371 bmr24, unknown bmr22, 10M2-0775 bmr, MUT135 bmr23; Ⅲ group, M2P0411 bmr, MUT641 bmr, M2P1064 bmr36, MUT855 bmr, 25M2-0137 bmr/new, MUT436 bmr, M2P0929 bmr, 25M2-0026 bmr, 10M2-0387 bmr, 25M2-0173 bmr/new; Ⅳ group, 25M2-0698 bmr. In conclusion, for the selection of wet tolerance, four photochemical parameters such as Electron transport flux until PSI acceptors per PSII(RE1o/RC), Performance index for energy conservation from photons absorbed by PSII antenna, until the reduction of PSI acceptors(PI_total ABS), Driving force on absorption basis(DF_total ABS) and Electron transport flux from QA to QB per PSII(ETo/RC) were important photochemical parameters deduced from maximum quantum yield and electron transport efficiency.