The importance of avocado (Persea americana Mill.) fruits anthracnose and factors influencing the disease in Mana district,south-western Ethiopia

Anthracnose disease surveys were conducted in 25 farmers’ orchards, wholesaler and retailer shops in south-west Ethiopia. In addition, harvesting and postharvest practices, and storage conditions influencing disease development were studied with observation and questionnaire. The assessment results indicated significant variation among farmers’ orchards with the highest incidence (84.0 ± 16.7%) and severity index (26.0 ± 5.4%). Anthracnose damage of fruit was higher at retailers (76.7 ± 20.8%) than in the wholesalers shop (56.7 ± 32.5%). The total number of isolates identified was 249 and Colletotrichum gloeosporioides was the predominant pathogen proved by pathogenecity test. Among the major factors, harvesting avocado fruits with children (88%) and climbing on the tree (72%) resulted in fruit dropping that caused substantial injury and bruise. Generally, anthracnose caused by C. gloeosporioides of avocado fruit was prevalent in producer orchards that aggravated by traditional harvest and postharvest practices coupled to inadequate transportation and storage facilities at wholesaler and retailer shops with subsequent decay and loss of avocado fruits.     

Plant hormone homeostasis and the control of avocado fruit size

Control of plant hormone homeostasis is crucial for normal organdevelopment in plants. To elucidate the contribution of plant hormonehomeostasis to fruit growth, tissue distribution and activity of xanthinedehydrogenase (XDH), abscisic aldehyde (AB-ald)- and indole acetaldehyde(IA-ald) oxidase, and cytokinin oxidase (CKOX) were determined in seed, seedcoat and mesocarp of normal 'Hass avocado and its small-fruitphenotype during the linear phase of growth. Activity of these enzymes wasrelated to the tissue content of indole-3-acetic acid (IAA) and abscisic acid(ABA). IA-ald oxidase was present only in seed tissue whereas AB-ald oxidase andXDH activity was found in seed and mesocarp tissue. Seed of the small'Hass fruit had increased XDH and AB-ald oxidase activity and highendogenous ABA, but reduced IA-ald oxidase activity and adenine. There was nodifference in seed, seed coat and mesocarp CKOX activity between normal andsmall fruit. Inhibition of XDH activity in whole fruit by treatment withallopurinol decreased IAA and increased ABA of seed tissue. In mesocarp ofripening fruit allopurinol increased ABA and IAA but had no effect on levels ofiP. Results indicate that activity of IA-ald and AB-ald oxidases in avocadofruit contribute to maintenance of the IAA/ABA ratio in seed and mesocarp tissueand that increased AB-ald oxidase, or reduced IA-ald oxidase, may be part of thesyndrome associated with the appearance of a small-fruit phenotype.     

Freeze fracture evidence for lateral phase separations in the plasmalemma of chilling-injured avocado fruit

Summary Unripe avocado fruit (Persea americana Mill. cv Hass) were held at 6 °C either in air or in an atmosphere with 100 PPM ethylene and were assessed for chilling injury after one and two weeks. Injury did not occur in any fruit after one week. After two weeks, the fruit in air were still uninjured, but the fruit subjected to ethylene exhibited chilling injury. When the uninjured fruit (both air-treated for one and two weeks and ethylene-treated for one week) were allowed to warm to room temperature before freezing for freeze fracture electron microscopy, replicas revealed membranes with a randomly dispersed pattern of intramembranous particles (IMPs). However, when these uninjured fruit were frozen for freeze fracture without warming, particle-free domains were visible in the plasmalemma. The membranes of the ethylene-treated, chilling-injured (2 weeks) fruit, on the other hand, contained particle-depleted regions in the plasmalemma of fruit frozen not only from 6 °C but also in those allowed to warm to room temperature before freezing for freeze fracture. These particle depleted microdomains were not seen in fruit kept continuously at room temperature (20 °C), even in the presence of high levels of endogenous ethylene which is produced during normal ripening. We suggest these particle-depleted microdomains formed in the fruit frozen for freeze fracture from low temperatures and in the chilling-injured fruit to be due to lateral phase separations of the membrane components, possibly due to an increase in the viscosity of some membrane lipids, leading to the formation of microdomains of gel phase lipid in the plane of the membrane. These phase separations appear to be initially reversible by raising the temperature, however, this reversibility is apparently lost after injury has occurred. With regard to the cause of chilling injury in avocados, we suggest that some secondary effect is involved due to the long term presence of gel phase lipids in the membrane.     

低糖低氧对神经干细胞增殖和代谢的影响

目的:本研究旨在探讨低糖低氧对大鼠神经干细胞增殖和代谢的影响。方法:实验采用不同葡萄糖浓度的培养基以及不同的氧浓度进行处理:高糖(4.5g/L)、低糖(1.4g/L);常氧(20%O2)、低氧(3%O2);神经干细胞(NSCs)来自孕13.5d的大鼠中脑,在不同糖浓度下培养至第三代进行低氧处理,分为低糖常氧(L+N)、低糖低氧(L+H)、高糖常氧(H+N)、高糖低氧(H+H)组。神经干细胞在上述四种条件下分别培养1、3、5d后,利用CCK-8检测神经干细胞的增殖情况;生化分析仪测定细胞培养上清液中葡萄糖、乳酸、丙酮酸浓度;RT-PCR方法检测葡萄糖转运蛋白4(GluT4)、葡萄糖激酶(GK)、丙酮酸激酶(PK)和乳酸脱氢酶(LDH)的表达变化。结果:在低糖低氧条件下培养3d时NSCs的数量增加最为明显;低糖低氧条件下,葡萄糖浓度降低最为显著;而丙酮酸浓度在低糖处理组均高于高糖处理组;同样地,在低糖低氧处理组培养上清中乳酸含量增加的幅度最大;此外,在低糖或低氧时Glut4和PK的表达也明显高于对照组。结论:低氧能促进NSCs的增殖,而以低氧和低糖共同作用时更为明显;在低氧低糖条件下,神经干细胞的代谢发生变化,葡萄糖的利用明显增加,主要通过糖酵解途径代谢产能。     

Modification of matrix polysaccharides during avocado (Persea americana) fruit ripening: an assessment of the role of Cx-cellulase

The role of C_x-cellulase (EC 3.2.1.4) in fruit ripening and softening is unknown. In the present study, avocado ( Persea americana ) fruit, a rich source of C_x-cellulase, were examined to determine if the enzyme plays a role in ripening-related hemicellulose metabolism. Hemicelluloses (4 M alkali-soluble) from avocado fruit exhibited a very broad distribution of polymer sizes and an overall decrease in M_r during ripening. Polymers affected were primarily those of large M_r (relative molecular mass). The characteristic total hemicellulose M_r distribution and changes with ripening were also evident for xyloglucan (XG), a putative substrate for avocado C_x-cellulase. Hydrolytic activity toward hemicelluloses from preripe fruit was detected in crude buffer-soluble protein extracts derived from ripe avocado mesocarp tissue. XG was also degraded, and in a pattern similar to that observed during ripening. Purified C_x-cellulase also exhibited activity against specific components of isolated hemicelluloses; however, in contrast to the crude protein. C_x-cellulase alone was without influence on the M_r distribution of avocado XG. Protein depleted of C_x-cellulase was capable of moderate XG depolymerization. We conclude from the present studies that the enzyme C_x-cellulase is not involved in the ripening-related depolymerization of XG in avocado fruit.     

Inhibition of electron transport activities in mitochondria from avocado and pepper fruit by naturally occurring polyamines

The effects of the naturally occurring polyamines, spermine, putrescine, and spermidine were explored on mitochondrial state 3. state 4, and uncoupled respiration activities, ADP/O ratio, respiratory control ratio of pepper ( Capsicum annuum L. cv. Early Cal Wonder) and avocado ( Persea americana Mill. cv. Booth-8 or Simmonds) mitochondria oxidizing either succinate, external NADH, malate, α-ketoglutarate or tetramethyl- p -phenylenediamine. Abnormally high concentrations of spermine and spermidine such as might occur during chilling stress of these chilling-sensitive fruits were detrimental to several oxidase activities, especially to external NADH oxidase. State 3 respiration for NADH oxidase was inhibited more than 70% by 10 m M spermine. The spermine inhibition of uncoupled NADH oxidase was not reversed by the presence of divalent cations including Ca²⁺, Mg²⁺, Mn²⁺, and Sr²⁺ at concentrations up to 10 m M or by 100 m M KCl. The inhibition primarily affected the V_max. Other possible sites of polyamine interactions are discussed.     

Ethylene-induced overproduction of reactive oxygen species is responsible for the development of watersoaking in immature cucumber fruit

Watersoaking is an ethylene-induced disorder observed in some members of the Cucurbitaceae including cucumber (Cucumis sativus L.), watermelon (Citrullus lanatus Thunb. Matsum and Nakai), and tropical pumpkin (Cucurbita moschata Duch.). Previous studies have found that immature beit-alpha cucumber (cv. Manar) exhibit watersoaking after 6 d of continuous exposure to 10 μL L⁻¹ ethylene in air (21 kPa O₂). The present study was designed to investigate the early dynamics of ethylene responses in immature cucumber fruit in order to provide insight into the watersoaking triggering mechanism. Changes in respiration, epidermal color, firmness, reactive oxygen species (ROS) production and electrolyte leakage were evaluated as a function of time under different ethylene concentrations and exposure duration. Ethylene concentrations exceeding 10 μL L⁻¹ did not accelerate changes in any of the evaluated responses. The first detectable change was a significant rise in respiration on day 2, followed by a significant rise in ROS on day 4, and significant degreening, mesocap softening, and increased electrolyte leakage on day 6; the latter responses coincident with incipient watersoaking. Varying the duration of exposure to ethylene indicated that the critical exposure time is between 2 and 4 d. Notably, all deleterious responses to ethylene were suppressed under a hypoxic atmosphere. A model is proposed in which ethylene induces a sharp increase in respiration with a concomitant sharp rise in ROS, which the immature fruit is incapable of quenching. The resulting production of excess ROS leads to discoloration and membrane deterioration, leading to the release of cytoplasmic content, rapid softening, and the visual symptom of watersoaking.     

Divided we stand: splitting synthetic cells for their proliferation

With the recent dawn of synthetic biology, the old idea of man-made artificial life has gained renewed interest. In the context of a bottom-up approach, this entails the de novo construction of synthetic cells that can autonomously sustain themselves and proliferate. Reproduction of a synthetic cell involves the synthesis of its inner content, replication of its information module, and growth and division of its shell. Theoretical and experimental analysis of natural cells shows that, whereas the core synthesis machinery of the information module is highly conserved, a wide range of solutions have been realized in order to accomplish division. It is therefore to be expected that there are multiple ways to engineer division of synthetic cells. Here we survey the field and review potential routes that can be explored to accomplish the division of bottom-up designed synthetic cells. We cover a range of complexities from simple abiotic mechanisms involving splitting of lipid-membrane-encapsulated vesicles due to physical or chemical principles, to potential division mechanisms of synthetic cells that are based on prokaryotic division machineries.     

Effects of low frequency electromagnetic field on proliferation of human epidermal stem cells: An in vitro study

To investigate the effects of low frequency electromagnetic fields (EMF) on the proliferation of epidermal stem cells, human epidermal stem cells (hESC) were isolated, expanded ex vivo, and then exposed to a low frequency EMF. The test and control cells were placed under the same environment. The test cells were exposed for 30 min/day to a 5 mT low frequency EMF at 1, 10, and 50 Hz for 3, 5, or 7 days. The effects of low frequency EMF on cell proliferation, cell cycle, and cell‐surface antigen phenotype were investigated. Low frequency EMF significantly enhanced the proliferation of hESC in the culture medium in a frequency‐dependent manner, with the highest cell proliferation rate at 50 Hz (P < 0.05). Exposure to a low frequency EMF significantly increased the percentage of cells at the S phase of the cell cycle, coupled with a decrease in the percentage of cells in the G1 phase (P < 0.05) but the effect was not frequency dependent. The percentage of CD29⁺/CD71^? cells remained unchanged in the low frequency EMF‐exposed hESC. The results suggested that low frequency EMF influenced hESC proliferation in vitro, and this effect was related to the increased proportion of cells at the S phase. Bioelectromagnetics 34:74–80, 2013. © 2012 Wiley Periodicals, Inc.     

Vitamin C promotes the proliferation of human adipose-derived stem cells via p53-p21 pathway

Although adipose-derived stem cells (ADSCs) have demonstrated a promising potential for the applications of cell-based therapy and regenerative medicine, excessive reactive oxygen species (ROS) are harmful to ADSCs cell survival and proliferation. Vitamin C is an important antioxidant, and is often added into culture media as an essential micronutrient. However, its roles on the proliferation of human ADSCs have not been studied. Therefore, in this study, human ADSCs were isolated, and detected by flow cytometry for the analysis of their cell surface antigens. Cell proliferation and cell cycle progression were measured with cell counting kit-8 assay and flow cytometry, respectively. Western blotting was used to detect the expression levels of cyclin E1, p53, p21, and CDK2 proteins. The effect of vitamin C pretreatment on the production of hydrogen peroxide (H₂O₂)-mediated ROS in the ADSCs was evaluated by flow cytometry. Our results indicated that vitamin C treatment significantly increased cell proliferation, and changed the cell cycle distribution of ADSCs by decreasing the percentage of G₁ phase, and concurrently increased the percentage of S and G₂/M phase. Western blot analysis indicated that vitamin C treatment up-regulated the expression levels of cyclin E1 and CDK2, but down-regulated p53 and p21 proteins expression, which contributed to cell proliferation and cell cycle progression. Vitamin C pretreatment significantly reduced the production of H₂O₂-induced ROS in the ADSCs. These findings suggest that vitamin C can promote the proliferation and cell cycle progression in the ADSCs possibly through regulation of p53-p21 signal pathway.     

Influence of physical distance between cultivars on yield,outcrossing rate and selective fruit drop in avocado (Persea americana,Lauraceae)

Avocado shows protogynous dichogamy with two complementary cultivar types (A and B) that differ in their floral behaviour. Because of this peculiar flowering system, mixed plantings of cultivars of complementary flower type have been traditionally recommended to increase yield. However, the effect of planting complementary avocado cultivars on outcrossing rate and yield is a subject of controversy. In this work, we have studied the outcrossing rate with microsatellite markers under the growing conditions of Southern Spain. Outcrossing rate was determined at harvest on several ‘Hass’ trees situated in rows at different distances from a ‘Fuerte’ orchard for two consecutive years (2005 and 2006). Outcrossing rate ranged from 0.31 to 0.74 with an average of 0.47 showing a significant decrease from the first row (in proximity to the pollen source) to the rest of the rows. However, using data of 13 years no significant differences in yield have been recorded with increasing distance to the pollen donor trees. The paternity of abscised fruits was recorded weekly from June to the period of commercial harvest in March the following year. The results obtained indicate that the fruits that dropped during June were mostly derived from self‐fertilisation. However, a high proportion of those fruits were derived from flowers fertilised during the last weeks of the ‘Hass’ blooming season when the cultivar Fuerte presents either few or no flowers. Consequently, most of the late fertilised ‘Hass’ fruits were derived from self‐pollination and those small fruits compete for limited maternal resources with the earlier fertilised fruits derived from cross‐pollination. These results suggest that, under our growing conditions, fruit drop in avocado is rather determined by the fertilisation date and not by the embryo genetic composition.     

Distinct H2O2 concentration promotes proliferation of tumour cells after transient oxygen/glucose deprivation

A solid tumour undergoes ischemia/reperfusion due to deficient vascularization and subsequent formation of new blood vessels. This study investigated the effect of transient oxygen and glucose deprivation (OGD) on proliferation of C6 glioma cells. The cells were subjected to 18 h of OGD followed by reoxygenation in the presence of glucose and different extra-cellular H₂O₂ concentrations since H₂O₂ affects cell proliferation. After reoxygenation, the cellular H₂O₂ concentration was increased returning to control levels within 24 h. Within this period, increase in cell number and MTT-reduction were impaired. Regeneration was completed on the third day of reoxygenation. MTT-reduction increased faster than cell number, indicating an OGD-dependent up-regulation of protein expression. It is concluded that ischemia/reperfusion stress promotes proliferation of tumour cells. An essential factor is a distinct H₂O₂ concentration. Massive elevation as well as significant reduction of H₂O₂ concentration impairs the proliferation process.     

Enhanced control of proliferation in telomerized cells

Clones of telomerized fibroblasts of adult human skin have earlier been obtained. It was shown that despite their fast growth in mass cultures, these cells poorly form colonies. Conditioned medium, antioxidants, and reduced partial oxygen pressure enhanced their colony formation, but not to the level characteristic of the initial cells. The conditioned medium of telomerized cells enhanced colony formation to a much greater extent than that of the initial cells. A study of proteome of the telomerized fibroblasts has revealed changes in the activities of tens of genes. A general trend consists in weakening and increased lability of the cytoskeleton and in activation of the mechanisms controlling protein degradation. However, these changes are not very pronounced. During the formation of immortal telomerized cells, selection takes place, which appears to determine changes in the expression of some genes. It was proposed that a decrease in the capacity of telomerized cells for colony formation is due to increased requirements of these cells to cell-cell contacts. The rate of cell growth reached that characteristic of mass cultures only in the largest colonies. In this respect, the telomerized fibroblasts resembled stem cells: they are capable of self-maintenance, but “escape” to differentiation in the absence of the corresponding microenvironment (niche), which is represented by other fibroblasts. Nondividing cells in the test of colony formation should be regarded as differentiated cells, since they have no features of degradation, preserve their viability, actively move, grow, phagocytize debris, etc. It was also shown that telomerization did not prevent differentiation of myoblasts and human neural stem cells. Thus, the results obtained suggest the existence of normal mechanisms underlying the regulation of proliferation in the telomerized cells, which opens possibilities of their use in cell therapy, especially in the case of autotransplantation to senior people, when the cell proliferative potential is markedly reduced and accessibility of stem cells is significantly restricted.     

Lipopolysaccharide of Escherichia coli, polyamines, and acetic acid stimulate cell proliferation in intestinal epithelial cells

Summary Our aim was to examine whether lipopolysaccharide of Escherichia coli, polyamines of dietetic and/or bacterial origin, and products of the bacterial metabolism influence cell proliferation in epithelial cells from the colon and small intestine. Lipopolysaccharide of Escherichia coli 0111:B4 was incubated with cultures from human colonic mucosa. The mitoses were arrested with Vincristine and the total number of metaphases per crypt was counted. In addition, lipopolysaccharide was incubated with a human colonic epithelial cell line from adenocarcinoma (LS-123 cells) and with a nontransformed small intestinal cell line from germ-free rats (IEC-6 cells) for 24 h. In the last 4 h, the cells were labeled with tritiated thymidine. The cells were incubated with putrescine, cadaverine, and spermidine at 10⁻¹¹–10⁻³ M and with acetic acid (10⁻⁵–10⁻¹ M), acetaldehyde (10⁻¹⁰–10⁻⁴ M) and ammonium chloride (1–20 mM). Lipopolysaccharide of Escherichia coli increased the number of arrested metaphases in human colonic crypts and DNA synthesis in L-123 and IEC-6 cells (P<0.001). All polyamines increased DNA synthesis in the colonic and small intestinal cell lines, the effects being more marked for putrescine (P<0.001). The higher concentrations of acetic acid increased DNA synthesis in both epithelial cell lines (P<0.001). Acetaldehyde slightly decreased DNA synthesis in LS-123 cells at cytotoxic concentrations. Ammonium chloride did not significantly affect DNA synthesis. The final concentration of nonionized ammonia was less than 3%. It is concluded that lipopolysaccharides of Escherichia coli and intraluminal factors derived from microorganisms increase cell proliferation in human colonic crypts and intestinal epithelial cell lines.     

The role of fructose-1, 6-diphosphate in cell migration and proliferation in an in vitro xenograft blood vessel model of vascular wound healing

Summary Both smooth muscle cells and endothelial cells play an important role in vascular wound healing. To elucidate the role of fructose-1, 6-diphosphate, cell proliferation and cell migration studies were performed with human endothelial cells and rat smooth muscle cells. To mimic blood vessels, endothelial and smooth muscle cells were used in 1:10, 1:5, and 1:1 concentrations, respectively, mimicking large-, mid-, and capillary-sized blood vessels. Cell migration was studied with fetal bovine serum-starved cells. For cell proliferation assay, cells were plated at 30–50% confluency and then starved. The cells were incubated for 48 h with fructose-1, 6-diphosphate at (per ml) 10 mg, 1 mg, 500 μg, 250 μg, 100 μg, and 10 μg, pulsed with tritiated-thymidine and incubated with 1 N NaOH for 30 min at room temperature, harvested, and counted. For migration assay, confluent cells were starved, wounded, and incubated for 24 h with same concentrations of fructose-1, 6-diphosphate as in proliferation assay. The cells were fixed and counted. Smooth muscle cell proliferation was inhibited by fructose-1, 6-diphosphate at 10 mg/ml. In the xenograft models of 1:10, 1:5, and 1:1 fructose-1, 6-diphosphate inhibited proliferation at 10 mg/ml. In migration studies 10 mg fructose-1, 6-diphosphate per ml was inhibitory to both cell types. In large-, mid-, and capillary-sized blood vessels, fructose-1, 6-diphosphate inhibited proliferation of both cell types at 10 mg/ml. At the individual cell level, fructose-1, 6-diphosphate is nonstimulatory to proliferation of endothelial cells while inhibiting migration, and it acts on smooth muscle cells by inhibiting both proliferation and migration.     

Extracellular calcium modulates proliferation of factor dependent hemopoietic cells

Blockade of the calcium channel inhibited, in a dose-dependent manner, the proliferation of the IL-3 dependent FDCP-1 cell line and normal murine bone marrow cells. Similar results were obtained by lowering the amount of extracellular calcium using specific chelators or a calcium-free medium. These results suggest that factor-dependent cell proliferation is highly sensitive to fluctuations in the concentration of extracellular calcium.