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91.
Plants can interact with other plants through the release of chemical compounds or allelochemicals. These compounds released by donor plants influence germination, growth, development, and establishment of receptor plants; having an important role on the pattern of vegetation, i.e as invasive strategy, and on crop productivity. This phytotoxic or negative effect of the released allelochemicals (allelochemical stress) is caused by modifying or altering diverse metabolic processes, having many molecular targets in the receptor plants. Recently, using an aggressive and allelopathic plant Sicyos deppei as the donor plant, and Lycopersicon esculentum as the receptor plant, we showed that the allelochemicals released by S. deppei caused oxidative damage through an increase in reactive oxygen species (ROS) and activation or modification of antioxidant enzymes. Based on this study, we proposed that oxidative stress is one of the mechanisms, among others, by which an allelopathic plant causes phytotoxicity to other plants.Key Words: allelochemical stress, Sicyos deppei, Lycopersicon esculentum, plant allelochemicals, phytotoxicity, ROS, lipid peroxidationIt is well known that plants interact with many organisms, including co-habitation with other plants. Among these relations are the ones referred to as allelochemical interactions. Allelopathy can be defined as a mechanism of interference in plant growth and development mediated by the addition of plant-produced secondary products (allelochemicals) to the soil rhizosphere. Allelochemicals are present in all types of plants and tissues and are released into the soil rhizosphere by a variety of mechanisms, including decomposition of residues, volatilization, and root exudation.1–3 These released allelochemicals become stressful only when they are toxic or when they affect the growth and development of surrounding plants (phytotoxicity). Studies on allelochemical stress have been expanding; recently the phenomenon has taken on increased importance, since it can help explain plant growth inhibition in interspecies interactions and in structuring the plant community. It appears to be one mechanism or strategy used by invasive plants to become successful and replace other native ones.4–6On the other hand, the chemical diversity of the organic compounds that mediate these allelochemical interactions is as diverse as their modes of action. Many studies have shown that allelochemicals interfere with several physiological processes in the receptor organism.3,7,8 The physiological effects on receptor plants or other organisms are useful in determining the role of the allelochemicals in the system. Recently, it has been proposed that allelochemicals can cause oxidative stress in target plants and therefore activate the antioxidant mechanism.3,8–12 In particular; our studies have been focused on knowing the physiological targets of the phytotoxic compounds released by a noxious and endemic weed Sicyos deppei G. Don (Cucurbitaceae). We have taken as the model the receptor or damaged plant Lycopersicon esculentum Mill (Solanaceae), since in Mexican crop-fields, it is common to find both plants. We have observed the strong allelopathic potential of S. deppei and are exploring the potential metabolic target that could be involved in the strong phytotoxic effect of this weed.13–16 We recently documented the oxidative damage that an aqueous leachate of S. deppei caused in the target plant L. esculentum.16 In this work we explored in seeds and in primary roots the antioxidant mechanism of tomato to determine whether or not the inhibitory effect of S. deppei was due to oxidative damage. We analyzed the activity and expression of some antioxidant enzymes involved in the detoxification of ROS, and found an imbalance in its activity as well as an increase in the levels of H2O2 at 24 h of treatment. Additional studies on the levels of ROS, including hydrogen peroxide, were monitored in primary roots from germinating seeds under allelochemical stress by imaging the ROS-sensitive fluorescent dye dichlorofluorescein (H2DCFDA, carboxy-2′, 7′-diclhlorofluorescein diacetate) in a confocal microscope (BIORAD 1024, 488 nm dichroic and 510–560 nm emission). DCFDA fluorescence increases as the dye is oxidized by ROS to dichlorofluorescein (DCF). Figure 1 shows a marked increase in fluorescence at 48 h and 72 h of treatment (Fig. 1A–C) compared with the same treatment at 24 h, and with the corresponding control. This fluorescence was more evident at the root cap and at the zone of root hairs in treated seeds.Open in a separate windowFigure 1Allelochemical stress caused by S. deppei elicits ROS generation in tomato germinating seeds. Panels show control (left) and treatment (right) at 24 h (A), 48 h (B), and 72 h (C). Lower panels show higher magnification (40X) of the corresponding time. Seedlings with primary roots were stained for 10–15 minutes with 25 µM DCFDA in distilled water.Clearly, allelochemical stress caused by S. deppei is producing an oxidative imbalance as evidenced by generation of ROS and alteration of activity of antioxidant enzymes. Another result that supports this observation is the high level of lipid peroxidation that we observed at 48 and 72 h, which correlates with the inhibition of two membrane-associated enzymes, H+-ATPase15 and NADPH oxidase.16 We believe, however, that the oxidative damage we observed is not solely responsible for the phytotoxic effect of S. deppei on tomato growth. In other words, we suggest that its inhibitory effect represents the sum of many metabolic processes affected at different times. Currently we are studying the dynamics of carbohydrate mobilization, cell wall loosing of the endosperm to allow the protrusion of the radicle, and ABA content. Preliminary results have shown that there is a delay in expression of some enzyme activities and a high content of ABA. 相似文献
92.
The critical contribution of the Notch signaling pathway to vascular morphogenesis has been underscored by loss-of-function studies in mouse and zebrafish. Nonetheless, a comprehensive understanding as to how this signaling system influences the formation of blood vessels at the cellular and molecular level is far from reached. Here, we provide a detailed analysis of the distribution of active Notch1 in relation to its DSL (Delta, Serrate, Lag2) ligands, Jagged1, Delta-like1, and Delta-like4, during progressive stages of vascular morphogenesis and maturation. Important differences in the cellular distribution of Notch ligands were found. Jagged1 (Jag1) was detected in "stalk cells" of the leading vasculature and at arterial branch points, a site where Delta-like4 (Dll4) was clearly absent. Dll4 was the only ligand expressed in "tip cells" at the end of the growing vascular sprouts. It was also present in stalk cells, capillaries, arterial endothelium, and in mural cells of mature arteries in a homogenous manner. Delta-like1 (Dll1) was observed in both arteries and veins of the developing network, but was also excluded from mature arterial branch points. These findings support alternative and distinct roles for Notch ligands during the angiogenic process. 相似文献
93.
Human global ischaemia was simulated in adult rats by inducing 20 min brain ischaemia and 60 min post-ischaemic recirculation.
Immunohistochemical expression of MMP-9, TIMP-3, Bax and Bcl-2, and DNA fragmentation (with the TUNEL reaction) were investigated.
The morphological data showed different neuronal responses in the hippocampus compared with the cerebral and cerebellar cortices.
MMP-9 immunoreactivity was different in the hippocampus, particularly in dentate gyrus and the CA1 region, compared with these
cortices. Negative TIMP-3 staining in ischaemic hippocampal neurons may indicate a loss of its inhibitory activity on MMP-9
that could enhance cell death. Bcl-2 down regulation, Bax positivity and TUNEL+ type II cells in the dentate gyrus granular
layer could be responsible for induction of apoptotic death in CA1 hippocampal pyramidal cells via loss of fibre input. Results
suggest differential behaviours of neural cells after 60 min reperfusion. 相似文献
94.
AP endonuclease (AP endo), a key enzyme in repair of abasic sites in DNA, makes a single nick 5' to the phosphodeoxyribose of an abasic site (AP-site). We recently proposed a novel mechanism, whereby the enzyme uses a key tyrosine (Tyr(171)) to directly attack the scissile phosphate of the AP-site. We showed that loss of the tyrosyl hydroxyl from Tyr(171) resulted in dramatic diminution in enzymatic efficiency. Here we extend the previous work to compare binding/recognition of AP endo to oligomeric DNA with and without an AP-site by wild type enzyme and several tyrosine mutants including Tyr(128), Tyr(171) and Tyr(269). We used single turnover and electrophoretic mobility shift assays. As expected, binding to DNA with an AP-site is more efficient than binding to DNA without one. Unlike catalytic cleavage by AP endo, which requires both hydroxyl and aromatic moieties of Tyr(171), the ability to bind DNA efficiently without an AP-site is independent of an aromatic moiety at position 171. However, the ability to discriminate efficiently between DNA with and without an AP-site requires tyrosine at position 171. Thus, AP endo requires a tyrosine at the active site for the properties that enable it to behave as an efficient, processive endonuclease. 相似文献
95.
Giacomo Zaccone John Maina Antonino Germanà Giuseppe Montalbano Gioele Capillo Luisa Aragona Michał J. Kuciel Eugenia Rita Lauriano José M. Icardo 《Acta zoologica》2019,100(2):160-166
Available studies that have examined O2 sensing in fish have indicated that oxygen-sensitive neuroepithelial cells (NECs) are O2 sensors in the gills and initiate cardiorespiratory reflexes in aquatic vertebrates. This is the first study describing the occurrence of NECs in accessory respiratory organs in the air-breathing catfish Clarias gariepinus. Immunocytochemical stainings with specific neuronal markers such as nNOS, VAchT, 5-HT and TH have been shown to be very useful for location and distribution of these cells in the gill fans and suprabranchial chamber that take origin from the transformation of the gill tissue. But the response of these putative O2 chemoreceptors, their role in the respiratory reflexes and their innervation await investigation. 相似文献
96.
José Romo-Yáñez Mauricio Domínguez-Castro Josiff S. Flores-Reyes Higinio Estrada-Juárez Ismael Mancilla-Herrera Jessica Hernández-Pineda María Luisa Bazan-Tejeda Mónica Aguinaga-Ríos Enrique Reyes-Muñoz 《Biochemical and biophysical research communications》2019,508(4):1149-1154
Diabetes in pregnancy constitutes an unfavorable environment for embryonic and fetal development, where the child has a higher risk of perinatal morbidity and mortality, with high incidence of congenital malformations and predisposition to long-term metabolic diseases that increase with a hypercaloric diet. To analyze whether hyperglycemia differentially affects proliferation, apoptosis, and mRNA expression in cells from children of normoglycemic pregnancies (NGPs) and diabetes mellitus pregnancies (DMPs), we used umbilical cord Wharton jelly cells as a research model. Proliferation assays were performed to analyze growth and determine the doubling time, and the rate of apoptosis was determined by flow cytometry-annexin-V assays. AMPK, BNIP3, HIF1α, and p53 mRNA gene expression was assessed by semi-quantitative RT-PCR. We found that hyperglycemia decreased proliferation in a statistically significant manner in NGP cells treated with 40?mM D-glucose and in DMP cells treated with 30 and 40?mM D-glucose. Apoptosis increased in hyperglycemic conditions in NGP and DMP cells. mRNA expression of BNIP3 and p53 was significantly increased in cells from DMPs but not in cells from NGPs. We found evidence that maternal irregular metabolic conditions, like diabetes with hyperglycemia in culture, affect biological properties of fetal cells. These observations could be a constituent of fetal programming. 相似文献
97.
ngel A. del Río‐Chvez Hugo A. García‐Gutirrez Luisa U. Romn‐Marín Lidia Beiza‐Granados Carlos M. Cerda‐García‐Rojas Pedro Joseph‐Nathan Juan D. Hernndez‐Hernndez 《Chirality》2019,31(11):934-946
The epimeric diterpenes (+)‐(1S,3E,7E,11S,12S)‐verticilla‐3,7‐dien‐12‐ol ( 1 ), isolated from Bursera suntui, and (+)‐(1S,3E,7E,11S,12R)‐verticilla‐3,7‐dien‐12‐ol ( 2 ), isolated from Bursera kerberi, gave the same Wagner‐Meerwein rearrangement product (?)‐(1E,4Z,8Z,11S,12R)‐phomacta‐1,(15)4,8‐triene ( 3 ). The Et2O:BF3‐induced transformations evidence that verticillenes and phomactanes, both containing the bicyclo[9.3.1]pentadecane skeleton, are biogenetically related through the verticillen‐12‐yl cation ( A + ), which also is a key intermediate in the biosynthetic pathways to generate antitumor taxanes. Molecular modeling using the Monte Carlo protocol, followed by density functional theory (DFT) geometry optimization employing the hybrid functionals B3LYP and B3PW91, both with the DGDZVP basis set, secured the configuration of 3 as followed from the good agreement between the calculated and experimental vibrational circular dichroism spectra. Similar DFT calculations allowed determining the absolute configuration of (+)‐(1R,4R,5R,8S,9S,11S,12R,15R)‐1,15:4,5:8,9‐triepoxyphomactane ( 9 ), which surprisingly derives from epoxidation of the second minimum energy conformer of 3 . 相似文献
98.
99.
100.
Teresa Fazia Daria Marzanati Anna Laura Carotenuto Ashley Beecham Athena Hadjixenofontos Jacob L. McCauley Valeria Saddi Marialuisa Piras Luisa Bernardinelli Davide Gentilini 《Current issues in molecular biology》2021,43(3):1778
Multiple Sclerosis (MS) is a complex multifactorial autoimmune disease, whose sex- and age-adjusted prevalence in Sardinia (Italy) is among the highest worldwide. To date, 233 loci were associated with MS and almost 20% of risk heritability is attributable to common genetic variants, but many low-frequency and rare variants remain to be discovered. Here, we aimed to contribute to the understanding of the genetic basis of MS by investigating potentially functional rare variants. To this end, we analyzed thirteen multiplex Sardinian families with Immunochip genotyping data. For five families, Whole Exome Sequencing (WES) data were also available. Firstly, we performed a non-parametric Homozygosity Haplotype analysis for identifying the Region from Common Ancestor (RCA). Then, on these potential disease-linked RCA, we searched for the presence of rare variants shared by the affected individuals by analyzing WES data. We found: (i) a variant (43181034 T > G) in the splicing region on exon 27 of CUL9; (ii) a variant (50245517 A > C) in the splicing region on exon 16 of ATP9A; (iii) a non-synonymous variant (43223539 A > C), on exon 9 of TTBK1; (iv) a non-synonymous variant (42976917 A > C) on exon 9 of PPP2R5D; and v) a variant (109859349-109859354) in 3′UTR of MYO16. 相似文献