Characterization and expression analysis of cytokinin biosynthesis genes in <Emphasis Type="Italic">Fragaria vesca</Emphasis>

Strawberry is one of the most economically important fruit crops in the world. Cytokinins (CKs) play a critical role in plant growth and development, as well as the stress response, and the level of CKs in plants is regulated by synthesis and degradation pathways. The key synthetic enzymes of CKs are isopentenyl transferases (IPTs) and LONELY GUYS (LOGs). We surveyed the strawberry genome and identified seven FvIPT genes and nine FvLOG genes. We analyzed gene structures, conserved domains, and their phylogenetic relationships with rice and Arabidopsis. The isoelectric points and glycosylation sites of the proteins were predicted. We also analyzed tissue- or organ-specific expression patterns of the FvIPT and FvLOG genes. The FvIPT and FvLOG genes showed different expression profiles in different organs. Most FvIPT and FvLOG genes were down-regulated in response to osmotic stress, high-temperature treatment, and exogenous abscisic acid (ABA) application, suggesting possible roles of these genes in the plants’ resistance to abiotic stresses. In addition, we found that the results of bioinformatics analyses to identify cis-regulatory elements may not be consistent with experimental expression data; thus, computer-predicted putative cis-elements need to be confirmed by experiments. Our systematic analyses of the FvIPT and FvLOG families provide a foundation for characterizing the function of these genes in the regulation of growth, development, and stress tolerance in Fragaria vesca, as well as a reference for improving stress tolerance by manipulating CK content.     

The <Emphasis Type="Italic">trans</Emphasis> and <Emphasis Type="Italic">cis</Emphasis> zeatin isomers play different roles in regulating growth inhibition induced by high nitrate concentrations in maize

Abscisic acid (ABA), auxins, and cytokinins (CKs) are known to be closely linked to nitrogen signaling. In particular, CKs control the effects of nitrate availability on plant growth. Our group has shown that treatment with high nitrate concentrations limits root growth and leaf development in maize, and conditions the development of younger roots and leaves. CKs also affect source-sink relationships in plants. Based on these results, we hypothesized that CKs regulate the source-sink relationship in maize via a mechanism involving complex crosstalk with the main auxin indole-3-acetic acid (IAA) and ABA. To evaluate this hypothesis, various CK metabolites, IAA, and ABA were quantified in the roots and in source and sink leaves of maize plants treated with high and normal nitrate concentrations. The data obtained suggest that the cis and trans isomers of zeatin play completely distinct roles in maize growth regulation by a complex crosstalk with IAA and ABA. We demonstrate that while trans-zeatin (tZ) and isopentenyladenine (iP) regulate nitrate uptake and thus control final leaf sizes, cis-zeatin (cZ) regulates source and sink strength, and thus controls leaf development. The implications of these findings relating to the roles of ABA and IAA in plants’ responses to varying nitrate concentrations are also discussed.     

Analysis the role of arabidopsis <Emphasis Type="Italic">CKRC6/ASA1</Emphasis> in auxin and cytokinin biosynthesis

The crosstalk between auxin and cytokinin (CK) is important for plant growth and development, although the underlying molecular mechanisms remain unclear. Here, we describe the isolation and characterization of a mutant of Arabidopsis Cytokinin-induced Root Curling 6 (CKRC6), an allele of ANTHRANILATE SYNTHASE ALPHA SUBUNIT 1 (ASA1) that encodes the á-subunit of AS in tryptophan (Trp) biosynthesis. The ckrc6 mutant exhibits root gravitropic defects and insensitivity to both CK and the ethylene precursor 1-aminocyclopropane-1-carboxylicacid (ACC) in primary root growth. These defects can be rescued by exogenous indole-3-acetic acid (IAA) or tryptophan (Trp) supplementation. Furthermore, our results suggest that the ckrc6 mutant has decreased IAA content, differential expression patterns of auxin biosynthesis genes and CK biosynthesis isopentenyl transferase (IPT) genes in comparison to wild type. Collectively, our study shows that auxin controls CK biosynthesis based on that CK sensitivity is altered in most auxin-resistant mutants and that CKs promote auxin biosynthesis but inhibit auxin transport and response. Our results also suggest that CKRC6/ASA1 may be located at an intersection of auxin, CK and ethylene metabolism and/or signaling.     

Thidiazuron: an efficient plant growth regulator for enhancing <Emphasis Type="Italic">Agrobacterium</Emphasis>-mediated transformation in <Emphasis Type="Italic">Petunia hybrida</Emphasis>

Efficient shoot regeneration and Agrobacterium-mediated genetic transformation systems were developed for Petunia hybrida cv. Mitchell. Leaf explants of petunia were cultured on Murashige and Skoog (MS) medium with different concentrations of thidiazuron (TDZ) without auxin. The highest frequency of shoot regeneration (52.1%) and mean number of shoots per explant (4.1) were obtained on medium containing 2 mg l^?1 TDZ. Leaf explants inoculated with Agrobacterium tumefaciens strain EHA101/pIG121Hm harboring ß-glucuronidase (uidA) and hygromycin resistance genes developed putative transformant shoots. The highest frequency of shoot regeneration (22.5%) and mean number of transformant shoots per explant (2.4) were obtained on a selection medium consisting of the above described regeneration medium and containing 25 mg l^?1 hygromycin as the selection agent. Approximately 95% of putative transformant shoots expressed the uidA gene following histochemical ß-glucuronidase (GUS) assay. These were confirmed to be transgenic by PCR analysis and Southern blot hybridization.     

A novel subspecies of ‘<Emphasis Type="Italic">Candidatus</Emphasis> Liberibacter africanus’ found on native <Emphasis Type="Italic">Teclea gerrardii</Emphasis> (Family: Rutaceae) from South Africa

The phloem limited bacterium ‘Candidatus Liberibacter africanus’ is associated with citrus greening disease in South Africa. This bacterium has been identified solely from commercial citrus in Africa and the Mascarene islands, and its origin may lie within an indigenous rutaceous host from Africa. Recently, in determining whether alternative hosts of Laf exist amongst the indigenous rutaceous hosts of its triozid vector, Trioza erytreae, three novel subspecies of Laf were identified i.e. ‘Candidatus Liberibacter africanus subsp. clausenae’, ‘Candidatus Liberibacter africanus subsp. vepridis’ and ‘Candidatus Liberibacter africanus subsp. zanthoxyli’ in addition to the formerly identified ‘Candidatus Liberibacter africanus subsp. capensis’. The current study expands upon the range of indigenous rutaceous tree species tested for liberibacters closely related to Laf and its subspecies. A collection of 121 samples of Teclea and Oricia species were sampled from Oribi Gorge and Umtamvunu nature reserves in KwaZulu Natal. Total DNA was extracted and the presence of liberibacters from these samples determined using a generic liberibacter TaqMan real-time PCR assay. Liberibacters from positive samples were further characterised through amplification and sequencing of the 16S rRNA, outer-membrane protein (omp) and 50S ribosomal protein L10 (rplJ) genes. A single Teclea gerrardii specimen tested positive for a liberibacter and, through phylogenetic analyses of the three genes sequenced, was shown to be unique, albeit closely related to ‘Ca. L. africanus’ and ‘Ca. L. africanus subsp. zanthoxyli’. We propose that this newly identified liberibacter be named ‘Candidatus Liberibacter africanus subsp. tecleae’.     

Regeneration of mortiño (<Emphasis Type="Italic">Vaccinium floribundum</Emphasis> Kunth) plants through axillary bud culture

The use of conventional propagation strategies for Vaccinium floribundum Kunth has proven difficult, which has resulted in this species’ escape from formal cultivation, despite its importance as a gastronomic and nutraceutical fruit. The current report presents an efficient propagation methodology for V. floribundum using axillary bud growth. Axillary buds were cultured on modified Woody Plant medium (mWPM) supplemented with 3.0 mg L^?1 N6-isopentenyladenine (2iP) or with 5.0 mg L^?1 2iP plus 0.1 mg L^?1 1-naphthaleneacetic acid (NAA). The best results for plant propagation were obtained on mWPM with 2iP and NAA, where significantly higher numbers of shoots per bud were observed. In vitro-rooted plants were successfully acclimatized to a peat and vermiculite substrate, while unrooted plants could be efficiently grown after an ex vitro rooting treatment by submersion in an 0.5 g L^?1 indole-3-butyric acid (IBA) or potassium IBA (KIBA) solution. This is the first report of an efficient propagation methodology for V. floribundum using plant tissue culture protocols, and provides a tool for the implementation of conservation strategies for this species.     

Susceptibility of germinating cruciferous seeds to <Emphasis Type="Italic">Bagrada hilaris</Emphasis> (Hemiptera: Pentatomidae) feeding injury

Bagrada hilaris (Burmeister) (Hemiptera: Pentatomidae) is a serious pest that attacks both germinating and seedling stages of a variety of cruciferous crops grown in the Central Coast of California. B. hilaris feeding on germinating seeds can cause severe stunting and plant mortality, and little is known about the feeding preference of B. hilaris for germinating seeds of major cruciferous hosts and varieties of hosts. No-choice and choice experiments were conducted in which germinating seeds in soilless and soil settings were exposed to B. hilaris adults for 7 days. Susceptibility scores were developed using B. hilaris feeding injury sites, distorted leaves, and deformed and dead plants to determine the overall B. hilaris preference for germinating host seeds. Based on the scores, the order of preference was arugula (Eruca sativa L.)?>?turnip (B. rapa L. var. rapa)?>?mizuna (B. rapa L. nipposinica)?>?kale (B. oleracea L. acephala)?>?choi (Brassica rapa L. var. chinensis)?>?broccoli (B. oleracea var. italica Plenck)?>?cauliflower (B. oleracea L. var. botrytis)?>?lettuce (Lactuca sativa L.)?>?sweet alyssum (Lobularia maritima [L.] Desv.). The lowest feeding injury was recorded on germinating lettuce and sweet alyssum seeds. Furthermore, no-choice and choice experiments were conducted with four varieties each of arugula and mizuna, twelve varieties each of kale and choi, and nine varieties/types of leafy Asian greens. The arugula varieties ‘Wild Rocket’ and ‘Spirit’ were more damaged by B. hilaris than other varieties tested. Among mizuna varieties, ‘Beira F1’ was more attractive to B. hilaris than ‘Scarlet’ or ‘Starbor F1.’ The choi varieties ‘Tokyo Bekana,’ ‘Feng Qing Choi F1,’ ‘Joi Choi F1,’ and ‘Win-Win Choi F1’ were more attractive than ‘Rosie F1.’ The leafy Asian greens variety ‘Carlton F1’ was more attractive to B. hilaris than ‘Yukina Savon,’ ‘Tatsoi OG,’ ‘Komatsuna Summerfest F1,’ ‘Red Rain F1,’ and ‘Shungiku.’ Therefore, the results suggest that not all varieties were equally susceptible to B. hilaris feeding and possibly be utilized for further field evaluation as a trap crop or developing more resistant varieties to B. hilaris.     

Effect of inoculation of symbiotic fungi on the growth and antioxidant enzymes’ activities in the presence of <Emphasis Type="Italic">Fusarium subglutinans</Emphasis> f. sp. <Emphasis Type="Italic">ananas</Emphasis> in pineapple plantlets

The inoculation with symbiotic fungi, Arbuscular mycorrhizal fungi (AMF) and/or Piriformospora indica on the growth, nutrient absorption, and induction of antioxidant enzyme activities in plantlets of pineapple ‘Imperial’ (fusariosis-resistant) and ‘Pérola’ (fusariosis-susceptible) in the presence of Fusarium subglutinans f. sp. ananas was investigated. The experiment was comprised by two cultivars, with or without fungal inoculation (Claroideoglomus etunicatum, Rhizophagus clarus, and P. indica, a mixture of all the fungi, and the control—absence of fungal inoculation), with or without applying Fusarium conidia, and with four replicates. In both cultivars, nutrient absorption was higher in the AMF plantlets compared to those inoculated with P. indica or the control ones, although it was more efficient in ‘Imperial’ than in ‘Pérola’. Inoculation with AMF and/or P. indica as well as the pathogen influenced differently the activities of superoxide dismutase, catalase, glutathione reductase, peroxidase, and polyphenol oxidase, in the shoots or roots of pineapple plantlets in both cultivars. Inoculated plantlets with mixture of all the fungi also exhibited a better growth and nutrient absorption, and generally, the ‘Imperial’ responded better than ‘Pérola’. In addition, these plantlets developed better than the control even in the presence of pathogen, indicating that inoculation with AMF and/or P. indica may contribute to the production of more resistant propagative material. Increased antioxidant enzyme activity is a potential strategy for managing this plant for explore biological control as an alternative to reduce environmental and health impacts by reducing the use of fungicides.     

Effect of Cytokinin and Auxin Treatments on Morphogenesis,Terpenoid Biosynthesis,Photosystem Structural Organization,and Endogenous Isoprenoid Cytokinin Profile in <Emphasis Type="Italic">Artemisia alba</Emphasis> Turra In Vitro

Developmental pattern modification in essential oil bearing Artemisia alba Turra was obtained by exogenous plant growth regulator (PGRs) treatments in vitro. Enhanced rooting (in PGR-free and auxin-treated plants) led to elevation of the monoterpenoid/sesquiterpenoid ratio in the essential oils of aerials. On the contrary, root inhibition and intensive callusogenesis [combined cytokinin (CK) and auxin treatments] reduced this ratio more than twice, significantly enhancing sesquiterpenoid production. Both morphogenic types displayed sesquiterpenoid domination in the underground tissues, which however differed qualitatively from the sesquiterpenoids of the aerials, excluding the hypothesis of their shoot-to-root translocation and implying the possible role of another signaling factor, affecting terpenoid biosynthesis. Inhibited rooting also resulted in a significant drop of endogenous isoprenoid CK bioactive-free bases and ribosides as well as CK N-glycoconjugates and in decreased trans-zeatin (transZ):cis-zeatin (cisZ) ratio in the aerials. Marked impairment of the structural organization of the photosynthetic apparatus and chloroplast architecture were also observed in samples with suppressed rooting. It is well known that in the plant cell monoterpenoid and transZ-type CKs biogenesis are spatially bound to plastids, while sesquiterpenoid and cisZ production are compartmented in the cytosol. In the present work, interplay between the biosynthesis of terpenoids and CK bioactive free bases and ribosides in A. alba in vitro via possible moderation of chloroplast structure has been hypothesized.     

Enhanced resistance to citrus canker in transgenic mandarin expressing Xa21 from rice

Genetic engineering approaches offer an alternative method to the conventional breeding of Citrus sp. ‘W. Murcott’ mandarin (a hybrid of ‘Murcott’ and an unknown pollen parent) is one of the most commercially important cultivars grown in many regions around the world. Transformation of ‘W. Murcott’ mandarin was achieved by direct DNA uptake using a protoplast transformation system. DNA construct (pAO3), encoding Green Fluorescent Protein (GFP) and the cDNA of Xa21, a Xanthomonas resistance gene from rice, was used to transform protoplasts of ‘W. Murcott’ mandarin. Following citrus protoplast culture and regeneration, transformed micro calli were microscopically designated via GFP expression, physically isolated from non-transformed tissue, and cultured on somatic embryogenesis induction medium. More than 150 transgenic embryos were recovered and from them, ten transgenic lines were regenerated and cultured on rooting medium for shoot elongation. Transgenic shoots were micrografted and established in the greenhouse with 3–5 replicates per line. The insertion of Xa21 and GFP was confirmed by PCR and southern blot analysis. GFP expression was verified by fluorescence microscopy and western blot analysis revealed expression of Xa21 although it was variable among transgenic lines, as shown by RT-qPCR. Transgenic plants challenged with the citrus canker pathogen by syringe inoculation showed a reduction in lesion number and bacterial populations within lesions compared to non-transgenic control plants. Transgenic ‘W. Murcott’ mandarin lines with improved canker resistance via protoplast transformation from embryogenic callus with the Xa21 gene from rice are being evaluated under field conditions to validate the level of resistance.     

A SNP in the promoter region of the<Emphasis Type="Italic">VvmybA1</Emphasis> gene is responsible for differences in grape berry color between two related bud sports of grape

The VvmybA1 gene in grape (Vitis vinifera) plays a key role in the biosynthesis of anthocyanin. The grape cultivars, ‘Benitaka’ (red color) and ‘Brazil’ (black color) were the result of a bud mutation. ‘Benetika’ was derived from ‘Italia’ (green color) and ‘Brazil’ was developed from ‘Benetika’. Single sequence repeat (SSR) molecular marker analysis was performed in order to demonstrate that the three cultivars have a common pedigree. A sequence analysis of the promoter region and coding sequence of VvmybA1 revealed a base substitution between ‘Benitaka’ and ‘Brazil’ in the promoter region and a deletion of a large DNA fragment in the promoter region of ‘Italia’. Anthocyanin content and expression of the VvmybA1 and UFGT genes in ‘Brazil’ were higher than in ‘Benitaka’ and barely detectable in ‘Italia’. A transient expression system was used to introduce VvmybA1 driven by the three different promoters present in ‘Italia’, ‘Brazil’, and ‘Benitaka’ into somatic embryos of ‘Centennial Seedless’ (Vitis vinifera L.) by Agrobacterium-mediated transformation. This resulted in the production of red cells in the embryos transformed with the constructs of VvmybA1 from ‘Brazil’ and ‘Benitaka’ and no color production in embryos transformed with the VvmybA1 construct from ‘Italia’. In addition, the embryos transformed with the ‘Brazil’ construct had more red color than the embryos transformed with the ‘Benitaka’ construct. These results suggested that a SNP mutation in the promoter region of VvmybA1 in ‘Benitaka’ (red color) was responsible for the color change displayed by ‘Brazil’ (black color).     

TDZ-induced plant regeneration in <Emphasis Type="Italic">Brassica oleracea</Emphasis> L. var. <Emphasis Type="Italic">botrytis</Emphasis>: effect of antioxidative enzyme activity and genetic stability in regenerated plantlets

The effects of various combinations of plant growth regulators on regeneration potential from seedling-derived leaf tissues of Brassica oleracea L. var. botrytis were evaluated. Callus was induced from 2-wk-old leaf explants. The explants were incubated on Gamborg’s (MSB₅) medium. The maximum frequency of callus induction (85.56%) was recorded on MSB₅ medium supplemented with 9.1 μM thidiazuron (TDZ) and 0.5 μM α-naphthaleneacetic acid (NAA). Optimum shoot induction (54.44%) was obtained on MSB₅ medium supplemented with 4.5 μM TDZ and 0.5 μM NAA. The maximum number of shoots per explant (5.33) was recorded on MSB₅ medium with 4.5 μM TDZ and 0.5 μM NAA, whereas the maximum shoot length (4.86 cm) was recorded for shoots cultured on MSB₅ medium supplemented with 4.5 μM TDZ and 5.7 μM gibberellic acid (GA₃). However, optimum root induction (71.11%) occurred on half-strength Murashige and Skoog basal medium supplemented with 4.9 μM indole-3 butyric acid (IBA). Studies on the antioxidant activity of superoxide dismutase, ascorbate peroxidase, and peroxidase in seedlings, callus, regenerated shoots, and regenerated plantlets cultured on 4.5 μM TDZ and 0.5 μM NAA medium revealed the roles of these key antioxidative enzymes in callus induction and regeneration. The genetic stability of the regenerated plantlets was assessed using inter simple sequence repeat primers. The monomorphic amplification products confirmed true-to-type in vitro regenerated plants. This in vitro regeneration method can be useful in the large-scale production of genetically uniform plants, for genetic transformation, and conservation of elite germplasm of plant species.     

Physiological and proteomic analysis of plant growth enhancement by the rhizobacteria <Emphasis Type="Italic">Bacillus</Emphasis> sp. JS

In this study, the effects of the plant growth-promoting rhizobacterium (PGPR), Bacillus sp. JS on the growth of tobacco (Nicotiana tabacum ‘Xanthi’) and lettuce (Lactuca sativa ‘Crispa’), were evaluated by comparing various growth parameters between plants treated with the bacterium and those exposed to water or nutrient broth as control. In both tobacco and lettuce, fresh weight and length of shoots were increased upon exposure to Bacillus sp. JS. To explain the overall de novo expression of plant proteins by bacterial volatiles, two-dimensional gel electrophoresis was performed on samples from PGPR-treated tobacco plants. Our results showed that chlorophyll a/b binding proteins were significantly up-regulated, and total chlorophyll content was also increased. Our findings indicate the potential benefits of using Bacillus sp. JS as a growth-promoting factor in agricultural practice, and highlight the need for further research to explore these benefits.     

Fatty acid composition and <Emphasis Type="Italic">PlFADs</Emphasis> expression related to α-linolenic acid biosynthesis in herbaceous peony (<Emphasis Type="Italic">Paeonia lactiflora</Emphasis> Pall.)

As a new α-linolenic acid (ALA) resource, there has been little known about the relationship between expression levels of fatty acid desaturase (FAD) genes during seed development and fatty acid (FA) composition in herbaceous peony (Paeonia lactiflora Pall.). In this study, oil content and FA composition of nine cultivars were measured at four different stages during seed development. Moreover, five genes including PlFAD2-1, PlFAD2-2, PlFAD3-2, PlFAD6 and PlFAD7 related to the ALA biosynthesis were isolated. Furthermore, the relative expression levels of these genes in seeds were investigated in two cultivars, that is, ‘PL1’ and ‘PL2’ with higher and lower ALA content, respectively. The results showed that oil content was from 17.03 ± 0.15 to 24.51 ± 0.15%; 15 kinds of FA were detected. However, the relative content of ALA was decreased during seed development. Although, the genes PlFAD2-1, PlFAD2-2, PlFAD3-2, PlFAD6 and PlFAD7 were all expressed during the seed development, the expression levels varied significantly. Most of the genes were expressed strongly in the early stage but weakly in the late stage except PlFAD6. Moreover, expression level of gene PlFAD2-2 was the highest while that of PlFAD7 was lowest at S1. In addition, the relative expression level of genes in ‘PL1’ (high ALA content) was higher than those in ‘PL2’ (low ALA content) during the early stage of the seed development apart from gene PlFAD6. This study provides a reliable theoretical basis for improving the contents of ALA by means of genetic engineering in the herbaceous peony seed oil.     

<Emphasis Type="Italic">Muscadinia rotundifolia</Emphasis> ‘Noble’ defense response to <Emphasis Type="Italic">Plasmopara viticola</Emphasis> inoculation by inducing phytohormone-mediated stilbene accumulation

Downy mildew (DM), one of the most devastating grape diseases worldwide, is caused by the biotrophic oomycete Plasmopara viticola (Pv). In general, grapevine responds to Pv infection with the accumulation of phytoalexins as part of the innate immune system, and diverse phytoalexins are induced on grapevines with different DM-resistance levels in response to Pv invasion. However, the regulation of phytoalexin biosynthesis during grapevine against Pv is still unclear. Herein, we detected stilbenes by UPLC-ESI-MS/MS and found that resveratrol was accumulated to higher level and earlier in the DM-immune Muscadinia rotundifolia ‘Noble’ than that in the DM-susceptible Vitis vinifera ‘Thompson Seedless’ after Pv inoculation. Additionally, a considerable amount of pterostilbene and ε-viniferin was found in ‘Noble’, while a little was detected in ‘Thompson Seedless’. Resveratrol was glycosylated into piceid both in ‘Noble’ and ‘Thompson Seedless’ after Pv inoculation. The qPCR analysis of gene expression indicated that the resveratrol-synthesis gene (STS) was induced by Pv inoculation earlier in ‘Noble’ than that in ‘Thompson Seedless’, while the pterostilbene-synthesis gene (ROMT) was induced in ‘Noble’ but not in ‘Thompson Seedless’ at all. The piceid-synthesis gene (GT) was generally up-regulated in both cultivars. Sequence analysis of STS, ROMT, and GT promoters revealed that they contained cis-regulatory elements responsive to phytohormones and pathogens. Following Pv inoculation, the level of SA, MeJA, and ABA was found to be consistently higher in ‘Noble’ than those in ‘Thompson Seedless’. The results of exogenous hormone elicitation further demonstrated that the accumulation of stilbenes was regulated by phytohormones. The earlier and higher accumulation of phytohormones and consequent induction of stilbene synthesis may play an important role in grapevine defense against downy mildew disease.