Induction of multiple shoots by thidiazuron from caryopsis cultures of minor millet (Paspalum scrobiculatum L.) and its effect on the regeneration of embryogenic callus cultures

Caryopsis culture of a minor millet (Paspalum scrobiculatum L. cv. PSC 1) on N₆ medium supplemented with high concentrations of thidiazuron (TDZ, 11.25 µM and 22.5 µM), a phenylurea derivative known to simulate cytokinin action, resulted in the formation of multiple shoots from the base of the seedling. This is the first time that multiple-shoot formation by a seedling cultured on TDZ without a callus interphase has been reported in graminaceous crop plants. The presence of a cytokinin, 6-benzylaminopurine (BAP), at low or high concentrations failed to evoke any morphogenic response. The presence of the auxin 2,4-dichlorophenoxyacetic acid (2,4-D, 4.5 µM) either alone or with BAP (4.5 µM) resulted in the formation of embryogenic callus from the base of the seedlings, which subsequently differentiated into somatic embryos. The combination of TDZ and the auxin (4.5 µM, 2,4-D) in the medium stimulated the differentiation of shoot buds in embryogenic callus cultures. This effect of TDZ, noted for the first time in a monocotyledonous plant, was evident in terms of a significant increase in the frequency of shoot-bud formation in embryogenic callus cultures and occurred only at a high concentration of TDZ (11.25 µM). This requirement for a high concentration of TDZ for the induction of multiple shoots from cultured seedlings or shoot buds in an embryogenic callus culture of a monocot is contrary to its effect at low concentrations in dicotyledonous plants. Complete plantlets, derived either from somatic embryos or shoot buds, could be regenerated on hormone-free basal medium or on basal medium fortified with activated charcoal (0.5%). Following a gradual acclimatization in a culture room, these regenerants survived on transfer to soil and ultimately set seed.     

Fcγ receptor-mediated phagocytosis pathway was involved in phagocytosis of mIgM+ B lymphocytes from largemouth bass (Micropterus salmoides)

The potential for phagocytosis has been proven in teleost B cells, but the research on the regulatory mechanism of phagocytosis remains lacking. In this study, three largemouth bass (Micropterus salmoides) (15 ± 5 g) were injected intraperitoneally with Nocardia seriolae (10⁵ CFU/100 μl/fish) in vivo, and their spleen was collected at 72 h post-infection for mRNA-seq. After the de novo assembly of the paired-end reads, 73,622 unigenes were obtained. Gene expression profiling revealed that 2043 unigenes were differentially expressed after N. seriolae infection, comprising 1285 upregulated and 758 downregulated unigenes (q-value <0.05, log2FC > |2|) of which 181 genes were involved in phagocytosis. The Kyoto Encyclopaedia of Genes and Genomes (KEGG) analysis demonstrated that 12 differentially expressed genes (DEG) associated with phagocytosis were enriched in the Fcγ receptor-mediated phagocytosis signalling pathway. In vitro, the phagocytic ability of mIgM⁺ B lymphocytes was validated using indirect immunofluorescence assay (IIFA) and fluorescence activating cell sorter (FACS), and the phagocytosis rates of the mIgM⁺ B lymphocytes incubated with a Lyn inhibitor had decreased from 18.533 ± 6.00% to 11.610 ± 4.236% compared with the unblocked group. These results suggested that the Fcγ receptor-mediated phagocytosis signalling pathway had participated in the phagocytosis of B cells and provide further insight into the role of B cells in innate immunology.     

Comprehensive in vitro regeneration study with SCoT marker assisted clonal stability assessment and flow cytometric genome size analysis of Carthamus tinctorius L.: an important medicinal plant

An efficacious and reproducible in vitro regeneration technique for safflower was established using varying concentrations and composition of plant growth regulators (PGRs) supplemented Murashige and Skoog (MS) medium. Successful in vitro seed germination in half strength MS (H-MS) with 1.4 µM GA₃ resulted in procurement of sterile explants (cotyledons, apical meristems) for in vitro study. Callogenesis (2.2 µM BAP?+?2.7 µM NAA), indirect organogenesis of shoot buds (0.54 µM NAA?+?9.08 µM TDZ), somatic embryogenesis (2.2 µM BAP?+?5.4 µM NAA) and somatic embryo germinated plantlets (H-MS?+?1.4 µM GA₃?+?2.2 µM BAP?+?5.4 µM NAA) were successfully obtained. Histological study and scanning electron micrographs of embryogenic callus revealed pre-globular, heart-shaped and torpedo stages of dicot embryogeny. H-MS?+?8 µM NAA showed maximum rhizogenic response with a mean root and shoot length of 17.5 mm and 48.50 mm respectively in 2.2 µM BAP?+?0.54 µM NAA bearing an average of 9 capitula per plantlet with 70% post transplantation survival rate. True to type nature of the regenerates was confirmed using Start Codon Targeted (SCoT) marker, exhibiting 100% and 97.3% monomorphic bands for direct and somatic embryo regenerated plants respectively. Flow cytometry method (FCM) was employed for 2C DNA content analysis. The histogram peaks of 2C nuclear DNA content of in vitro regenerated safflower (direct and embryo derived) were similar to the peak of field grown donor plant. 2C nuclear DNA content of field grown, direct and somatic embryo regenerated C. tinctorius was 2.65?±?0.04 pg, 2.62?±?0.06 pg and 2.68?±?0.04 pg respectively, further verifying genetic homogeneity. All things considered, the above protocol is insusceptible to genetic alteration and can be used for large scale production and sustainable utilization of desired genotype.

     

Development of reproducible regeneration and transformation system for Sesamum indicum

Thalictrum foliolosum is an endemic herb known for its medicinal properties and used for various clinical applications including ophthalmic, skin disease and dyspepsia. Due to its medicinal properties, the plants are uprooted hence can be prone to extinction. In the present study, a reproducible in vitro propagation protocol has been developed using axillary shoot buds and nodal segments. Seedling derived axillary shoot buds were cultured in Murashige and Skoog’s (MS) medium supplemented with 2.24 µmol of 6-benzylaminopurine (BAP) and readily produced maximum shoot (7.2?±?0.40) with the highest percentage of response (91.42%). Also, nodal explants (field-grown plant) developed maximum shoots (3.2?±?0.48) on MS medium containing 4.49 µmol BAP with a combination of 0.54 µmol α-naphthaleneacetic acid (NAA). Best growth and foliage development was achieved at 2.24 µmol BAP with 0.54 µmol NAA in presence of 0.3% activated charcoal and 113.4 µmol ascorbic acid. Micropropagated shoots showed maximum percentage (63.30%) of rooting in half-strength MS medium containing 1.23 µmol indole-3-butyric acid (IBA) and acclimatized in soilrite and leaf manure (2:1) during 4 weeks. Monomorphic bands developed by random amplification of polymorphic DNA (RAPD) and simple sequence repeats (SSR) markers confirmed the genetic stability of in vitro established plants. Additionally, HPLC analysis showed higher benzylisoquinoline (BIQ) alkaloids content in in vitro established plant root extracts. The micropropagation protocol developed in this study provides an alternative strategy for germplasm conservation and protection which at the same time can also be exploits for the production of pharmacologically active compounds.

     

Large‐scale gene expression reveals different adaptations of Hyalopterus persikonus to winter and summer host plants

Host alternation, an obligatory seasonal shifting between host plants of distant genetic relationship, has had significant consequences for the diversification and success of the superfamily of aphids. However, the underlying molecular mechanism remains unclear. In this study, the molecular mechanism of host alternation was explored through a large‐scale gene expression analysis of the mealy aphid Hyalopterus persikonus on winter and summer host plants. More than four times as many unigenes of the mealy aphid were significantly upregulated on summer host Phragmites australis than on winter host Rosaceae plants. In order to identify gene candidates related to host alternation, the differentially expressed unigenes of H. persikonus were compared to salivary gland expressed genes and secretome of Acyrthosiphon pisum. Genes involved in ribosome and oxidative phosphorylation and with molecular functions of heme–copper terminal oxidase activity, hydrolase activity and ribosome binding were potentially upregulated in salivary glands of H. persikonus on the summer host. Putative secretory proteins, such as detoxification enzymes (carboxylesterases and cytochrome P450s), antioxidant enzymes (peroxidase and superoxide dismutase), glutathione peroxidase, glucose dehydrogenase, angiotensin‐converting enzyme, cadherin, and calreticulin, were highly expressed in H. persikonus on the summer host, while a SCP GAPR‐1‐like family protein and a salivary sheath protein were highly expressed in the aphids on winter hosts. These results shed light on phenotypic plasticity in host utilization and seasonal adaptation of aphids.     

In vitro propagation and cryopreservation of Thuja koraiensis Nakai via somatic embryogenesis

Korean arbor vitae (KAV; Thuja koraiensis Nakai) is a critically endangered coniferous tree in Korea. Here, we report the somatic embryogenesis (SE) and cryopreservation system that can be used for micropropagation of KAV and long-term storage of KAV cultures. To induce SE in KAV, the influence of the developmental stage of zygotic embryos and the effect of basal medium on embryogenesis induction were examined. The developmental stage of zygotic embryos had a significant effect on the embryogenesis induction (P < 0.0001). The highest frequency of embryogenesis induction occurred in megagametophytes with zygotic embryos at precotyledonary (P) and late embryogeny (L1) stage (36%). The highest frequency of embryogenesis induction was obtained on initiation medium containing IM basal salts with 2.2 μM 6-benzylaminopurine and 4.5 μM 2,4-dichlorophenoxyacetic acid (35%). The effect of abscisic acid (ABA) on production of somatic embryos was tested. The highest number of somatic embryos per 50 mg of embryogenic tissue was achieved on maturation medium with levels of 100 μM ABA (24.0 ± 2.4). The effect of cryopreservation treatment to embryogenic tissues on the maturation capacity of somatic embryos was also tested. No significant differences between noncryopreservation and cryopreservation treatment were observed (P = 0.1896), and the highest mean number of somatic embryo per 50 mg of embryogenic tissues was obtained in noncryopreserved cell line (28.17 ± 5.66). Finally, the genetic identities of the plantlets regenerated from non- and cryopreserved embryogenic cell lines were verified and there was no genetic variation in the regenerated plantlets from cryostored embryogenic cell lines. This study is the first report on SE and the successful cryopreservation of embryogenic culture of the genus Thuja.

     

Regioselective hydroxylation of daidzein using P450 (CYP105D7) from Streptomyces avermitilis MA4680

Regiospecific 3′‐hydroxylation reaction of daidzein was performed with CYP105D7 from Streptomyces avermitilis MA4680 expressed in Escherichia coli. The apparent K_m and k_cat values of CYP105D7 for daidzein were 21.83 ± 6.3 µM and 15.01 ± 0.6 min^?1 in the presence of 1 µM of CYP105D7, putidaredoxin (CamB) and putidaredoxin reductase (CamA), respectively. When CYP105D7 was expressed in S. avermitilis MA4680, its cytochrome P450 activity was confirmed by the CO‐difference spectra at 450 nm using the whole cell extract. When the whole‐cell reaction for the 3′‐hydroxylation reaction of daidzein was carried out with 100 µM of daidzein in 100 mM of phosphate buffer (pH 7.5), the recombinant S. avermitilis grown in R2YE media overexpressing CYP105D7 and ferredoxin FdxH (SAV7470) showed a 3.6‐fold higher conversion yield (24%) than the corresponding wild type cell (6.7%). In a 7 L (working volume 3 L) jar fermentor, the recombinants S. avermitilis grown in R2YE media produced 112.5 mg of 7,3′,4′‐trihydroxyisoflavone (i.e., 29.5% conversion yield) from 381 mg of daidzein in 15 h. Biotechnol. Bioeng. 2010. 105: 697–704. © 2009 Wiley Periodicals.     

Increased Copper Content of the Medium Improves Plant Regeneration from Immature Embryo Derived Callus of Wheat (Triticum aestivum)

The effect of various concentrations of CuSO₄ on the induction and regeneration of embryogenic callus from immature embryos of wheat was investigated. Immature embryos of wheat cvs C-306 and R-3777 were cultured on MS medium supplemented with 2,4-D (11.3 µM) and different levels of cupric sulphate, i.e. 0, 0.1 (MS level), 0.5, 1 and 5 µM. Relatively high induction frequency of callus was obtained on MS medium supplemented with 2,4-D (11.3 µM) and 0.5 µM CuSO₄. The compact, nodular, embryogenic callus was maintained on the medium having 2,4-D (11.3 µM) and proline (86.8 µM) by regular subculturing. Plant regeneration from the embryogenic callus occurred on MS medium supplemented with NAA (1.07 µM) and BAP (44.4 µM). Regenerated plantlets were rooted on MSmedium supplemented with IAA (2.85 µM). The average number of regenerated plantlets produced from primary callus induced on 2,4-D (11.3 µM) and 5x CuSO₄ was significantly higher.     

Early habituation of maize (Zea mays) suspension‐cultured cells to 2,6‐dichlorobenzonitrile is associated with the enhancement of antioxidant status

The cellulose biosynthesis inhibitor 2,6‐dichlorobenzonitrile (DCB) has been widely used to gain insights into cell wall composition and architecture. Studies of changes during early habituation to DCB can provide information on mechanisms that allow tolerance/habituation to DCB. In this context, maize‐cultured cells with a reduced amount of cellulose (～20%) were obtained by stepwise habituation to low DCB concentrations. The results reported here attempt to elucidate the putative role of an antioxidant strategy during incipient habituation. The short‐term exposure to DCB of non‐habituated maize‐cultured cells induced a substantial increase in oxidative damage. Concomitantly, short‐term treated cells presented an increase in class III peroxidase and glutathione S‐transferase activities and total glutathione content. Maize cells habituated to 0.3–1 µM DCB (incipient habituation) were characterized by a reduction in the relative cell growth rate, an enhancement of ascorbate peroxidase and class III peroxidase activities, and a net increment in total glutathione content. Moreover, these cell lines showed increased levels of glutathione S‐transferase activity. Changes in antioxidant/conjugation status enabled 0.3 and 0.5 µM DCB‐habituated cells to control lipid peroxidation levels, but this was not the case of maize cells habituated to 1 μM DCB, which despite showing an increased antioxidant capacity were not capable of reducing the oxidative damage to control levels. The results reported here confirm that exposure and incipient habituation of maize cells to DCB are associated with an enhancement in antioxidant/conjugation activities which could play a role in incipient DCB habituation of maize‐cultured cells.     

In vitro shoot regeneration from leaf explants of Echinops kebericho: an endangered endemic medicinal plant

Echinops kebericho is a critically endangered endemic medicinal plant of Ethiopia. It is threatened due to over harvesting of its roots for medicinal purposes and from poor seed viability. This study aimed to develop a protocol for in vitro shoot regeneration from leaf explants of E. kebericho. The seeds were sterilized using ethanol followed by Clorox or calcium hypochlorite. Shoots from the germinated seeds were cultured on Murashige and Skoog (MS) medium containing different concentrations of α-naphthalene acetic acid (NAA) and 6-benzyl amino purine (BAP). Young leaves were cultured on MS medium containing different concentrations of BAP and NAA for shoot regeneration. For shoot multiplication, shoots were excised and cultured on MS medium containing different concentrations of BAP or kinetin (KIN) and NAA. The highest mean number of initiated shoots (4.00 ± 0.57) with 100% shoot induction was obtained on medium containing 1.0 mg/L BAP and 0.2 mg/L NAA. The highest shoot regeneration (33%) and shoot number (2.13 ± 0.06) were obtained on MS medium containing 2.0 mg/L BAP and 0.5 mg/L NAA. Medium containing 1.0 mg/L KIN and 0.2 mg/L NAA produced the highest number of shoots (4.67 ± 0.33) per explant. This protocol can be used for genetic improvement and conservation of this endangered species.     

Somatic embryogenesis in Clematis integrifolia × C. viticella

Nodal sections of Clematis integrifolia × C. viticellawere cultured at 24 °C in darkness on a medium containing the salts and vitamins of Murashige and Skoog (1962) supplemented with sucrose (30 g l⁻¹), 2 μM 6-benzylaminopurine (BAP) and 0.5 μM 4-indole-3-yl-butyric acid (IBA). These explants produced a white friable callus on their surfaces. Somatic embryos were first observed on the surface of the callus after eighteen months in culture. Thereafter, pieces (125 mm³) of the embryogenic mass were subcultured every 4 weeks and continued to produce somatic embryos over the two-year period of observation. A mean (± SE) of 64±4 cotyledonary stage embryos were observed per 125 mm³ callus four weeks after transfer to fresh medium. Comparison of the effect of growth regulators on conversion showed that the highest frequency of unipolar and bipolar conversions occurred on medium containing 10 μM kinetin and 1 μM BAP. Shoots were excised from embryos and inserted in Sorbarods saturated with liquid medium containing 0.05 μM IBA and 0.05 μM 1-naphthalenacetic acid. After four weeks 88% had formed root and survived transfer to compost in a greenhouse. This revised version was published online in June 2006 with corrections to the Cover Date.     

Biosynthesis of Dibenzyl Trisulfide (DTS) from somatic embryos and rhizogenous/embryogenic callus derived from Guinea hen weed (<Emphasis Type="Italic">Petiveria alliacea</Emphasis> L<Emphasis Type="Italic">.</Emphasis>) leaf explants

A procedure for producing somatic embryos enriched with dibenzyl trisulfide (DTS) using a hormone-dependent culture system is reported for Petiveria alliacea L. (Guinea hen weed). Leaf explants were cultured on a Murashige and Skoog medium supplemented with a range of naphthaleneacetic acid (NAA) concentrations and a fixed concentration of benzyladenine (BAP) at 11.0 μM and sucrose or glucose at 30 g l⁻¹. Leaf explants cultured on all media types started to form callus at the cut surfaces of the discs 10–14 d after initiation. The type of sugar used influenced average fresh weight, the propensity to form roots, as well as the embryogenic response. The highest mean fresh weight (337.7 ± 26.18 mg) and mean root number (23.7 ± 1.69) was produced on media enriched with sucrose and supplemented with 53.7 μM NAA and 11.0 μM BAP. An ethanol extract of rhizogenic/embryogenic callus or somatic embryos was subjected to high-performance liquid chromatography analysis, which revealed the presence of DTS in both extracts. UV spectral analysis and the use of standard quantitation procedures showed that the quantity of DTS in the somatic embryo extract, at 0.16% (w/v), was approximately 30-fold higher than in rhizogenic/embryogenic callus (0.0055% w/v) of similar fresh weight. These results indicate that it is possible to biosynthesize approximately 6 mg of natural DTS from 3,808 mg of fresh somatic embryos within 10 wk from less than three leaf explants.     

Protein changes in abalone foot muscle from three geographical populations of Haliotis diversicolor based on proteomic approach

Using two‐dimensional gel electrophoresis, the foot muscle proteome of three geographical populations of Haliotis diversicolor were examined, with a total of 922 ± 21 protein spots detected in the Japanese population (JJ), 904 ± 25.6 in the Taiwanese population (TT), and 936 ± 16.2 in the Vietnamese population (VV). Of these, 254 spots showed differential expression and 85 protein spots percentage volumes varied more than twofold. Both “genotype” and “spot” analysis of variance approaches significantly showed differences among the three populations. Hierarchical clustering analysis showed that TT and VV clustered together followed by clustering with JJ, which is consistent with their geographical location. Following matrix‐assisted laser desorption/ionization time‐of‐flight mass spectrometry, 30 differentially expressed proteins involved in major biological processes including energy production and storage and stress response were identified. Of these proteins, proteins pertaining to muscle contraction and muscle protein regulation showed highest expression levels in VV samples. Proteins involved in energy production and storage, including ATP synthase beta subunit, fructose‐1,6‐bisphosphate aldolase, arginine kinase, enolase, triosephosphate isomerase, and tauropine dehydrogenase, showed diverse expression patterns among the three populations. For stress‐responsive proteins, the expression of heat shock protein 70 was JJ > VV > TT. The expression pattern of Cu/Zn‐superoxide dismutase was JJ > VV > TT. Overall, these results may aid in the detection of new differentially expressed proteins within three different abalone populations.     

Allosteric Regulation of the N-Methyl-d-Aspartate Receptor-Linked Ion Channel Complex and Effects of Ethanol in Ethanol-Withdrawal Seizure-Prone and -Resistant Mice

Abstract: The effects of ethanol, glycine, and spermidine on the specific binding of [³H]MK-801 were characterized in Triton-treated membranes prepared from the hippocampus and cortex of ethanol-withdrawal seizure-prone (WSP) and -resistant (WSR) mice. Glycine, an allosteric agonist at the NMDA receptor-linked ion channel complex, caused an increase in specific [³H]MK-801 binding to hippocampal membrane preparations. There were no significant differences in EC₅₀ values between the selected lines for the effect of glycine (WSP, 391.7 ± 48.4 nM; WSR, 313.4 ± 77 nM) in the presence of 10 µM NMDA or in the maximal response to the agonist (WSP, 1.75 ± 0.26 pmol/mg of protein; WSR, 1.67 ± 0.22 pmol/mg of protein). The EC₅₀ values for the spermidine-induced increase in [³H]MK-801 binding in membranes from hippocampus in the absence (WSP, 11.7 ± 0.83 µM; WSR, 9.98 ± 1.29 µM) or in the presence of 10 µM glycine and 10 µM NMDA (WSP, 2.1 ± 0.35 µM; WSR, 2.37 ± 0.42 µM) also did not differ. Similar results were obtained in cortical membranes. Saturation isotherms indicated that there was no difference in the density of [³H]MK-801 binding sites, or in their affinity for the radioligand, between the mouse lines. In addition, administration of ethanol by inhalation (24 h) to WSP and WSR mice did not cause an increase in the density of [³H]MK-801 binding sites, and there was no difference in the density or affinity of binding sites between the mouse lines. Withdrawal from ethanol (6 h), which causes an increase in the severity of handling-induced convulsions in WSP mice, also did not alter the binding site density or affinity for radioligand. The results suggest that the characteristics of the NMDA receptor-linked ion channel complex in the tissue preparations described here do not differ in WSP and WSR mice. Thus, genetic differences in seizure susceptibility during ethanol withdrawal can be dissociated from the total density of hippocampal or cortex NMDA receptors under activating conditions.     

High-frequency plant regeneration from coleoptile tissue of indica rice (Oryza sativa L.)

Summary An efficient method was established for high-frequency embryogenic callus induction and plant regeneration from 3-,4-, 5- and 7-d-old coleoptile segments of Indica rice (Oryza sativa L. cv. Kasturi), Compact and friable callus developed from the cut ends and also on the entire length of the coleoptile segments cultured on Murashige and Skoog (MS) basal medium (1962) supplemented with 2,4-dichlorophenoxyacetic acid (2,4-D, 4.50–18.0 μM), kinetin (2.32 μM) and sucrose (3%, w/v). High frequency embryogenic callus induction and somatic embryo development was achieved when embryogenic calluses were transferred to MS medium supplemented with 2.25 μM 2,4-D, 2.32 μM kinetin, 490 μM L-tryptophan and 3% (w/v) sucrose. Plant regeneration was achieved by transferring clumps of embryogenic callus onto MS medium containing 2.85 μM indole-3-acetic acid (IAA), 17.77 μM 6-benzylaminopurine (BA) and 3% (w/v) sucrose. Histological observations of embryogenic calluses revealed the presence of somatic embryos and also plant regeneration via multiple shoot bud formation. Three, 4- and 5-d-old coleoptile segments showed a significantly (P<0.05) higher frequency of plant regeneration and mean number of plantlets per explant in comparison to 7-d-old coleoptile segments. The highest frequency (73.5%) of plant regeneration and mean number of plantlets (11.9±1.0) was obtained from 4-d-old coleoptile segments. Regenerated shoots were rooted on MS basal medium containing 4.92 μM indole-3-butyric acid (IBA) and plants were successfully transferred to soil and grown to maturity.