Renata Bogatek scite author profile

The physiological dormancy of sunflower (Helianthus annuus) embryos can be overcome during dry storage (after-ripening) or by applying exogenous ethylene or hydrogen cyanide (HCN) during imbibition. The aim of this work was to provide a comprehensive model, based on oxidative signaling by reactive oxygen species (ROS), for explaining the cellular mode of action of HCN in dormancy alleviation. Beneficial HCN effect on germination of dormant embryos is associated with a marked increase in hydrogen peroxide and superoxide anion generation in the embryonic axes. It is mimicked by the ROS-generating compounds methylviologen and menadione but suppressed by ROS scavengers. This increase results from an inhibition of catalase and superoxide dismutase activities and also involves activation of NADPH oxidase. However, it is not related to lipid reserve degradation or gluconeogenesis and not associated with marked changes in the cellular redox status controlled by the glutathione/glutathione disulfide couple. The expression of genes related to ROS production (NADPHox, POX, AO1, and AO2) and signaling (MAPK6, Ser/ThrPK, CaM, and PTP) is differentially affected by dormancy alleviation either during afterripening or by HCN treatment, and the effect of cyanide on gene expression is likely to be mediated by ROS. It is also demonstrated that HCN and ROS both activate similarly ERF1, a component of the ethylene signaling pathway. We propose that ROS play a key role in the control of sunflower seed germination and are second messengers of cyanide in seed dormancy release.

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Allelochemicals as Bioherbicides — Present and Perspectives

Sołtys¹,

Krasuska²,

Bogatek³

et al. 2013

144

149

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Allelopathic interactions between plants. Multi site action of allelochemicals

2005

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De part ment of Plant Phys i ol ogy, War saw Ag ri cul tural Uni ver sity, Ab stractAllelopathy is de fined as mech a nism of plant-plant, plant-micro or gan isms, plant-vi rus, plant-in sect, and plant -soil-plant in ter ac tions me di ated by plant-or mi cro or ga n ism-pro duced chem i cals re leased to the en vi ron ment. The ma jor ity of allelochemicals are sec ond ary me tab o lites and among oth ers be long to terpenoids, phe no lic com pounds, or ganic cyanides and longchain fatty ac ids. The ac tion of allelo chemicals in tar get plant is di verse and af fects a large num ber of bio chem i cal re actions re sult ing in mod i fi ca tions of dif fer ent phys i o log i cal func tions. Thus the re sults of allelochemical ac tion can be detected at dif fer ent lev els of plant or ga ni za tion: mo lec u lar, struc tural, bio chem i cal, phys i o log i cal and eco log i cal. En zyme ac tiv i ties, cell di vi sion and ultrastructure, mem brane per meabil ity, ion up take and as a con se quence plant growth and devel op ment are mod i fied by allelochemicals. Sig nif i cant effects on pho to syn the sis and res pi ra tion are the best-char ac terized re sults of allelopathic in ter ac tions. More over allelopathic com pounds seem to in duce a sec ond ary ox i da tive stress expressed as en hanced free rad i cal pro duc tion and in duc tion of cel lu lar an ti ox i dant sys tem. Plant sur vival un der allelopathy stress con di tions de pends on plant de fense lead ing to allelochemical detoxication, the pro cess which may go on in par al lel to cell defense re ac tion to ox i da tive stress.The ar ti cle pres ents some as pects of the cur rent knowl edge regard ing mech a nisms of the allelopathy phe nom e non. The allelopathy is a com plex prob lem, thus com pre hen sive un derstand ing of allelochemical mode of ac tion re quires fur ther inves ti ga tion and still re mains an open ques tion.

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Cyanide action in plants — from toxic to regulatory

Siegień

Bogatek²

2006

Acta Physiol Plant

118

122

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Release of sunflower seed dormancy by cyanide: cross-talk with ethylene signalling pathway

Oracz

El-Maarouf-Bouteau

Bogatek

et al. 2008

Journal of Experimental Botany

103

105

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Freshly harvested sunflower (Helianthus annuus L.) seeds are considered to be dormant because they fail to germinate at relatively low temperatures (10 °C). This dormancy results mainly from an embryo dormancy and disappears during dry storage. Although endogenous ethylene is known to be involved in sunflower seed alleviation of dormancy, little attention had been paid to the possible role of cyanide, which is produced by the conversion of 1-aminocyclopropane 1-carboxylic acid to ethylene, in this process. The aims of this work were to investigate whether exogenous cyanide could improve the germination of dormant sunflower seeds and to elucidate its putative mechanisms of action. Naked dormant seeds became able to germinate at 10 °C when they were incubated in the presence of 1 mM gaseous cyanide. Other respiratory inhibitors showed that this effect did not result from an activation of the pentose phosphate pathway or the cyanide-insensitive pathway. Cyanide stimulated germination of dormant seeds in the presence of inhibitors of ethylene biosynthesis, but its improving effect required functional ethylene receptors. It did not significantly affect ethylene production and the expression of genes involved in ethylene biosynthesis or in the first steps of ethylene signalling pathway. However, the expression of the transcription factor Ethylene Response Factor 1 (ERF1) was markedly stimulated in the presence of gaseous cyanide. It is proposed that the mode of action of cyanide in sunflower seed dormancy alleviation does not involve ethylene production and that ERF1 is a common component of the ethylene and cyanide signalling pathways.

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Nitric oxide, hydrogen cyanide and ethylene are required in the control of germination and undisturbed development of young apple seedlings

et al. 2010

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Reactive oxygen species (ROS) and reactive nitrogen species (RNS) are emerging as important regulators of plant development (germination, flowering, senescence), acting as secondary messengers in cooperation with classical phytohormones. Apple seeds are dormant, unless they undergo a 3 month long cold stratification. Deep dormancy of isolated apple embryos can also be broken by short pre-treatment with HCN or NO with the effect associated with enhanced ethylene synthesis. Non-dormant embryos germinate well and young seedlings grown from non-dormant embryos do not exhibit any morphological anomalies, such as asymmetric growth and greening of cotyledons. One of the aims of this work was to investigate the correlation between RNS-mediated (HCN-and NO-dependent) dormancy removal and ROS (H 2 O 2 and O 2 -• ) accumulation in the embryos. The beneficial effect of NO and HCN on germination of dormant apple embryos has been associated with marked increases in H 2 O 2 and O 2 -• concentration in the embryos at early germination stages. We also analyzed growth of young seedlings developed from embryos pretreatment with HCN or NO or exposed to ethylene (ethephone) and its precursor 1-aminocyclopropane-1-carboxylic acid (ACC). ACC and ethephone removed all morphological anomalies of the seedlings (asymmetric growth and greening of cotyledons) but the radicle growth was rather slight. We propose that accumulation of ROS provoked by HCN and NO pre-treatment is required for embryo germination ''sensu stricto'', while ethylene is required for post-germination seedling growth.

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Dormancy removal in apple embryos by nitric oxide or cyanide involves modifications in ethylene biosynthetic pathway

Gniazdowska

Krasuska

Bogatek

2010

Planta

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The connection between classical phytohormone-ethylene and two signaling molecules, nitric oxide (NO) and hydrogen cyanide (HCN), was investigated in dormancy removal and germination "sensu stricto" of apple (Malus domestica Borkh.) embryos. Deep dormancy of apple embryos was removed by short-term (3-6 h) pre-treatment with NO or HCN. NO- or HCN-mediated stimulation of germination was associated with enhanced emission of ethylene by the embryos, coupled with transient increase in ROS concentration in embryos. Ethylene vapors stimulated germination of dormant apple embryos and eliminated morphological anomalies characteristic for young seedlings developed from dormant embryos. Inhibitors of ethylene receptors completely impeded beneficial effect of NO and HCN on embryo germination. NO- and HCN-induced ethylene emission by apple embryo was only slightly reduced by inhibitor of 1-aminocyclopropane-1-carboxylic acid (ACC) oxidase activity during first 4 days of germination. Short-term pre-treatment of the embryos with NO and HCN modified activity of both key enzymes of ethylene biosynthetic pathway: ACC synthase and ACC oxidase. Activity of ACC synthase declined during first 4 days of germination, while activity of ACC oxidase increased markedly at that time. Additional experiments point to non-enzymatic conversion of ACC to ethylene in the presence of ROS (H(2)O(2)). The results indicate that NO and HCN may alleviate dormancy of apple embryos "via" transient accumulation of ROS, leading to enhanced ethylene emission which is required to terminate germination "sensu stricto". Therefore, ethylene seems to be a trigger factor in control of apple embryo dormancy removal and germination.

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Breaking the apple embryo dormancy by nitric oxide involves the stimulation of ethylene production

Gniazdowska

Dobrzynska

Babanczyk

et al. 2007

Planta

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Mature seeds of apple (Mallus domestica Borb. cv. Antonówka) are dormant and do not germinate unless their dormancy is removed by several weeks of moist-cold treatment. We investigated the effect of short-term (3 h) nitric oxide (NO) pretreatment on breaking of apple embryonic dormancy expressed as inhibition of germination and morphological abnormalities of young seedlings. Imbibition of embryos isolated from dormant apple seeds with sodium nitroprusside (SNP) or S-nitroso,N-acetyl penicillamine (SNAP) as NO donors resulted in enhanced germination. Moreover, NO treatment removed morphological abnormalities of seedlings developing from dormant embryo. The NO scavenger 2-(4-carboxyphenyl)-4,4,5,5-teramethylimidazoline-1-oxyl-3 oxide (cPTIO) removed the above effects. NO-mediated breaking of embryonic dormancy correlated well with enhanced ethylene production. Inhibitor of ethylene synthesis (AOA) reversed the stimulatory effect of NO donors on embryo germination. Additionally SNP reduced embryo sensitivity to exogenously applied ABA ensuing dormancy breakage. We can conclude that NO acts as a regulatory factor included in the control of apple embryonic dormancy breakage by stimulation of ethylene biosynthesis.

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Renata Bogatek

The Mechanisms Involved in Seed Dormancy Alleviation by Hydrogen Cyanide Unravel the Role of Reactive Oxygen Species as Key Factors of Cellular Signaling during Germination

Allelochemicals as Bioherbicides — Present and Perspectives

Allelopathic interactions between plants. Multi site action of allelochemicals

Cyanide action in plants — from toxic to regulatory

Release of sunflower seed dormancy by cyanide: cross-talk with ethylene signalling pathway

Nitric oxide, hydrogen cyanide and ethylene are required in the control of germination and undisturbed development of young apple seedlings

Dormancy removal in apple embryos by nitric oxide or cyanide involves modifications in ethylene biosynthetic pathway

Breaking the apple embryo dormancy by nitric oxide involves the stimulation of ethylene production

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