Fusarium sp., causal agent of vascular wilt in citrus and its sensitivity to fungicides

<p>Citrus wilt is a disease of recent appearance in the northern area of Veracruz that causes economic losses to producers in the region. The present work aimed to identify the causative agent of this disease and evaluate different fungicides to determine its<em> in vitro</em> sensitivity. A fungus was consistently isolated in plants with wilt symptoms; it was morphologically identified indifferent culture media and molecularly identified by PCR using the EF1-728F/EF1-986R primers. The fungus was inoculated in three varieties of citrus under greenhouse conditions. The sensitivity test was carried out with the fungicides chlorothalonil, benomyl thiabendazole, prochloraz, and a biological agent (<em>Bacillus subtilis</em>) at different concentrations, plus a negative control. <em>Fusarium</em> sp. (Accession No. MW438335) was morphologically and molecularly identified as the causal agent of vascular wilt in citrus fruits, causing growth retardation, decreased number of roots, wilting of the apical bud, and necrosis in the vascular system of the three varieties inoculated. The most effective fungicides in inhibiting mycelial growth were thiabendazole, prochloraz, and the biological agent <em>Bacillus subtilis</em>.</p>

Unraveling the roles of Mast4 in amelogenesis via regulating DLX3 and stem cell maintenance of mouse incisors

Asymmetric division of stem cells allows for maintenance of the cell population and differentiation for harmonious progress. Developing mouse incisors allows for examin ation of how the stem cell niche employs specific insights into essential phases. Microtubule associated serine/threonine kinase family member 4 (Mast4) knockout (KO) mice showed abnormal incisor development with weak hardness as the apical bud was reduced and preameloblasts were shifted to the apical side, resulting in Amelogenesis Imperfecta. In addition, Mast4) KO incisors showed abnormal enamel maturation, and stem cell maintenance was inhibited as amelogenesis accelerated. Distal-Less Homeobox 3 (DLX3), known to be a critical factor Tricho Dento Osseous (TDO) syndrome, is considered to be responsible for A melogenesis Imperfecta in humans. MAST4 directly binds to DLX3 and induces phosphorylation at three residues within the nuclear localization sites (NLS) that promote the nuclear translocation of DLX3. MAST4-mediated phosphorylation of DLX3 ultimately controls the transcription of DLX3 target genes, which are carbonic anhydrase and ion transporter genes involved in the pH regulation process during ameloblast maturation. Taken together, our data reveal a novel role of MAST4 as a critical regulator of ameloblast maturation, which controls DLX3 transcriptional activity.

A systematic review and meta-analysis of vineyard techniques used to delay ripening.

Several vineyard techniques have been proposed to delay grape maturity in light of the advanced maturation driven by increasingly frequent water and heat stress events that are detrimental to grape quality. These studies differ in terms of their experimental conditions, and in the present work we have attempted to summarize previous observations in a quantitative, data-driven systematic review. A meta-analysis of quantitative data gathered across 43 relevant studies revealed the overall significance of the proposed treatments and evaluated the impact of different experimental conditions on the outcome of antitranspirants, delayed pruning and late source limitation. Antitranspirants were most effective when applied twice and closer to veraison, while di-1-p-menthene increased the ripening delay by about 1°Brix compared to kaolin. Larger ripening delays were achieved with delayed pruning of low-yielding vines or by pruning at later stages of apical bud development. Late defoliation or shoot trimming delayed ripening in high-yielding vines and represent suitable solutions for late-harvested varieties, but became ineffective where the treatment decreased yield. This quantitative meta-analysis of 242 primary observations uncovers factors affecting the efficacy of vineyard practices to delay ripening, which should be carefully considered by grape growers attempting to achieve this outcome.

Expression Analysis of DgD14, DgBRC1 and DgLsL in the Process of Chrysanthemum Lateral Bud Formation

The growth of lateral bud can greatly affect the development of apical bud and reduce the quality of single-flower cut chrysanthemum. However, the wide use of artificial bud removal in production leads to the increase on production cost. Therefore, it is important to study the lateral bud development mechanism in chrysanthemum for plant type regulation and genetic improvement. Auxin (IAA), cytokinins (CKs) and strigolactones (SLs) have direct or indirect effects on the formation of lateral buds. D14, BRC1 and LsL are key factors regulating the signal pathways of hormones, but their regulation mechanisms on the development of lateral buds in chrysanthemum are still unclear. In this study, single-flower cut chrysanthemum ‘Jinba’ and spray cut chrysanthemum ‘Fenyan’ were used as experimental materials. Quantitative real-time PCR was used to observe the effects of apical bud removal and exogenous hormones on the growth of lateral buds and the expression levels of DgD14, DgBRC1 and DgLsL, so as to clarify the expression characteristics of three genes in the process of lateral bud formation. The results showed that GA was effective in promoting the growth of lateral buds, whereas IAA and ABA had little effects on lateral bud growth or even inhibited. Removing apical dominance can significantly affect the expression levels of three genes, which regulated the formation and elongation of lateral buds. Additionally, the three genes showed different responses to different hormone treatments. DgD14 had a significant response to GA, but a gentle response to ABA. The expression levels of DgBRC1 varied in different trends, and it responded to IAA in a more dramatic way. The levels of DgLsL reached the peaks quickly before decreased in most experimental groups, and its response to GA was extraordinary severe.

A rapid, simple, and highly efficient method for VIGS and in vitro-inoculation of plant virus by INABS applied to crops that develop axillary buds and can survive from cuttings

Background Virus-induced gene silencing (VIGS) is one of the most convenient and powerful methods of reverse genetics. In vitro-inoculation of plant virus is an important method for studying the interactions between viruses and plants. Agrobacterium-based infiltration has been widely adopted as a tool for VIGS and in vitro-inoculation of plant virus. Most agrobacterium-based infiltration methods applied to VIGS and virus inoculation have the characteristics of low transformation efficiencies, long plant growth time, large amounts of plant tissue, large test spaces, and complex preparation procedures. Therefore, a rapid, simple, economical, and highly efficient VIGS and virus inoculation method is in need. Previous studies have shown that the selection of suitable plant tissues and inoculation sites is the key to successful infection. Results In this study, Tobacco rattle virus (TRV) mediated VIGS and Tomato yellow leaf curl virus (TYLCV) for virus inoculation were developed in tomato plants based on the agrobacterium tumefaciens-based infiltration by injection of the no-apical-bud stem section (INABS). The no-apical-bud stem section had a “Y- type” asymmetric structure and contained an axillary bud that was about 1–3 cm in length. This protocol provides high transformation (56.7%) and inoculation efficiency (68.3%), which generates VIGS transformants or diseased plants in a very short period (8 dpi). Moreover, it greatly reduces the required experimental space. This method will facilitate functional genomic studies and large-scale disease resistance screening. Conclusions Overall, a rapid, simple, and highly efficient method for VIGS and virus inoculation by INABS was developed in tomato. It was reasonable to believe that it can be used as a reference for the other virus inoculation methods and for the application of VIGS to other crops (such as sweet potato, potato, cassava and tobacco) that develop axillary buds and can survive from cuttings.

Biological features of Rheum wittrockii Lundstr. in the natural population of the Ketpen ridge

The article presents data on the biological characteristics of Rheum wittrockii Lundstr. on the Ketpen ridge. The aim of the study was to research the biological characteristics of the natural growth of Rh. wittrockii. Study objects are Rh. wittrockii in natural populations of the Ketpen Ridge. In June-July 2015–2017 the route-reconnaissance method of research was carried out in the northern gorges of the Ketpen ridge of the Uygur district of the Almaty region. Determination of the morphological characteristics of plant seeds was carried out according to the methodological instructions of N.L. Udolskaya (1976). Systematic monitoring of structural changes in plant organs in a large development cycle, determination of biological characteristics and structure was carried out in accordance with the instructions of A. Zhukov (2012b), Program and methodology..., (1986). The study revealed that in the gorges Ketpen Rh. wittrockii is found at altitudes above sea level (1900–3200 m). In the first year of growth, only vegetative organs develop. The development of generative shoots begins in the 2–3rd year of plant growth. The rapid growth of reproductive generative shoots is accompanied by the growth of vegetative shoots. The flowering phase lasts 7–10 days. Flowering of one individual lasts 3–5 days. The generative phase lasts 7–8 (10) years. The fruiting process lasts from midJuly to the third decade of August. The fruiting phase is 12–14 days. The growing season of the plant is 60–75 days. The seed is a triangular nutlet. Germination is underground. Sprouts have two true leaves. The underground perennial shoot system consists of a multidisciplinary caudex formed as a result of infinitely long monopodial growth due to the activity of the apical bud of the main underground shoots. Roots Rh. wittrockii are composed of basic taproots. In the underground part, tender young roots develop in the surface layer of the soil. The duration of the generative period from germination to aging is 15–16 years.

Defining Functions of Mannoproteins in Saccharomyces cerevisiae by High-Dimensional Morphological Phenotyping

Mannoproteins are non-filamentous glycoproteins localized to the outermost layer of the yeast cell wall. The physiological roles of these structural components have not been completely elucidated due to the limited availability of appropriate tools. As the perturbation of mannoproteins may affect cell morphology, we investigated mannoprotein mutants in Saccharomyces cerevisiae via high-dimensional morphological phenotyping. The mannoprotein mutants were morphologically classified into seven groups using clustering analysis with Gaussian mixture modeling. The pleiotropic phenotypes of cluster I mutant cells (ccw12Δ) indicated that CCW12 plays major roles in cell wall organization. Cluster II (ccw14Δ, flo11Δ, srl1Δ, and tir3Δ) mutants exhibited altered mother cell size and shape. Mutants of cluster III and IV exhibited no or very small morphological defects. Cluster V (dse2Δ, egt2Δ, and sun4Δ) consisted of endoglucanase mutants with cell separation defects due to incomplete septum digestion. The cluster VI mutant cells (ecm33Δ) exhibited perturbation of apical bud growth. Cluster VII mutant cells (sag1Δ) exhibited differences in cell size and actin organization. Biochemical assays further confirmed the observed morphological defects. Further investigations based on various omics data indicated that morphological phenotyping is a complementary tool that can help with gaining a deeper understanding of the functions of mannoproteins.

Anatomical features of axial organs of the loganberry during apex reproduction

Выяснена особенность в анатомической структуре стебля ежемалины, размножающейся укоренением верхушек побега. В первый год жизни побега при его укоренении активизируется работа камбия, образуется второе годичное кольцо в зоне ксилемы. Стелющиеся побеги ежевик (и ежемалины) следует назвать дициклическими с многолетней верхушечной почкой. The peculiarity in the anatomical structure of the stalk of the loganberry, which reproduces by rooting the tops of the shoot, has been clarified. In the first year of the shoot's life, during its rooting, the work of the cambium is activated, and a second annual ring is formed in the xylem zone. Creeping shoots of blackberries (and loganberries) should be called dicyclic with a perennial apical bud.

Effect of Seedling Provenance and Site Heterogeneity on Abies cephalonica Performance in a Post-Fire Environment

Reforestation constitutes a challenge in post-fire ecosystem restoration, although there are limitations such as species and genotype selection, planting and management design, and environmental conditions. In the present study, the basic issue is the longevity of Abies cephalonica Loudon—the Greek fir seedlings planted extensively in Parnitha National Park (Central Greece), located near the metropolitan city of Athens, following the large-scale wildfire of 2007. Seedling performance was assessed for a 3-year monitoring period (2013–2015) through the establishment of 8 permanent transects, including 400 seedlings at the burned, reforested sites. According to the long-term reforestation project, two seedling provenances were used: (a) from Mt. Mainalon (South Greece, Vytina provenance) and (b) the local one from Mt. Parnitha. Both provenances showed a relatively successful survival rate reaching, in average, 73.8%, with the first summer after planting being crucial for seedling survival. The overall mean seedling height was 39.2 ± 1.1 cm, with a mean crown diameter of 47.3 ± 1.4 cm in the last monitoring survey. Although Parnitha seedlings seem to perform better in terms of growth, seedling performance in both provenances was affected by reforestation site characteristics, mainly altitude and aspect. Approximately one third of seedlings exhibited damage in their crown architecture (29.8%), while apical bud damage was less extensive (12.2%) in the final field measurement. Data indicate that seedling performance has proved to be quite promising for post-fire restoration, although long-term monitoring data should be considered.